N,Sample,Lithology,Location/Body-Name,Latitude,Longitude,Location-Type,Reference,Age-Approximation,Reference-Age,Age-number,Age-Error,Method,Analyzed material,Laboratory name,Comment,SiO2,TiO2,Al2O3,FeO,Fe2O3,FeOT,Fe2O3T,MnO,MgO,CaO,Na2O,K2O,P2O5,LOI,Total,Sc,V,Cr,Co,Ni,Rb,Sr,Y,Zr,Nb,Cs,Ba,La,Ce,Pr,Nd,Sm,Eu,Gd,Tb,Dy,Ga,Ho,Er,Tm,Yb,Lu,Hf,Ta,Th,U,,, 1,M99-02,Granite,Mongolian granitoid rocks,46.3715,99.7665,GPS,"Jahn et al., (2004)",514 Ma,,540,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,71.17,0.16,15.65,,,,1.7,0.04,0.43,1.6,4.31,3.63,0.07,1.26,100.02, ,11.4,20.8,1.3,,102,843.5,9.71,103,6.91,2.07,1577,24.55,47.23,5.23,18.92,3.4,0.74,2.42,0.33,1.8,19.7,0.32,0.94,0.14,0.92,0.16,2.9,0.71,6.57,0.96,,, 2,M99-01,Granite,Mongolian granitoid rocks,46.3635,99.73933333,GPS,"Jahn et al., (2004)",514 Ma,,514,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,70.87,0.18,16.01,,,,1.87,0.04,0.43,2.28,4.01,3.24,0.09,1.02,100.04, ,14.2,11.1,1.6,,93,1069,8.49,124,7.05,1.98,1724,26.71,51.71,5.57,19.23,3.25,0.86,2.28,0.32,1.67,22.7,0.27,0.75,0.11,0.69,0.12,3,0.65,6.2,0.87,,, 3,T2-105,Granitoid,AEPE,46.21098,106.57216,GPS,"Gerel et al., (2017)",324 ± 6 Ma,,324,6,NI,NI,NI,GPS,71.83,0.34,15.4,,,,2.04,0.025,0.52,0.75,3.77,5.8,0.09,,100.565,4,25, , , ,131, ,25.7, ,18.6, , ,47.2,88.7,9.1,30.7,5.4,0.9,4.9,0.7,4,15,0.8,2.5,0.4,2.8,0.4,5,2, ,2.1,,, 4,D0925,Granodiorite,~296 Intrusion,46.14611,104.99583,GPS,"Gambat et al., (2021)",296 Ma,,296,3,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,66.69803555,0.456085549,16.66732365,2.58,,,,0.043649264,0.761228284,2.684359361,4.630139399,3.27117154,0.135421288,1.45,99.37741388,, ,20,,20,73,1260,9.9,216,6.6,1.12,1515,28,54,6.5,25,4,0.92,2.7,0.36,1.63,20,0.29,0.76,0.12,0.75,0.11,4.8,0.4,4.6,0.91,,, 5,D0926,Granodiorite,~296 Intrusion,46.16278,105.00028,GPS,"Gambat et al., (2021)",296 Ma,,296,,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,66.64,0.39,15.81,2.97,,,,0.042,0.61,2.53,4.74,3.24,0.13,1.63,98.732,3, ,20,4,20,65,1377,10.3,154,3.6,0.8,1431,35.8,65.1,7.58,25.6,4.19,1,2.73,0.38,1.91,20,0.31,0.89,0.128,0.78,0.117,3.9,0.38,7.19,1.26,,, 6,D0927,Granodiorite,~296 Intrusion,46.17944,104.99833,GPS,"Gambat et al., (2021)",296 Ma,,296,,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.76,0.61,14.96,3.941329974,,,,0.102,1.29,2.63,4.05,4.21,0.19,2.17,99.91332997,8, ,20,9,20,137,519,18.7,263,6.6,4.2,1029,29.2,59.1,6.65,23.7,4.46,1.02,3.54,0.56,3.24,18,0.66,1.93,0.265,1.87,0.326,6.8,0.59,13.4,2.39,,, 7,1/1/43,Syenogranite,Daheishan,50.23472222,126.4694444,GPS,"Wu et al., (2002)",292 ± 4 Ma,"Wu et al., (2011)",292,4,XRF and ICP-MS,Whole rock,"Hubei Geological Analytical Center in Wuhan, the Department of Geology, Northwest University in Xi‚Äôan and Guangzhou Institute ofGeochemistry, Chinese Academy of Sciences, and POEMS III at Key Laboratory ofCrust-Mantle Interaction of China University of Geosciences in Wuhan",,74.94,0.19,11.52,1.88,1.26,,,0.11,0.2,0.18,4.34,4.6, ,0.17,99.75, , , , , ,127,12.5,60.6,613,26.96,1.529,135,60.53,162.07,16.35,62.54,12.69,0.39,11.8,1.74,10.3,27.2,2.02,6.48,0.98,6.5,1.04,15.64,1.471,13.1,4.729,,, 8,1/2/43,Syenogranite,Daheishan,50.23472222,126.4694444,GPS,"Wu et al., (2002)",292 ± 4 Ma,"Wu et al., (2011)",292,4,XRF and ICP-MS,Whole rock,"Hubei Geological Analytical Center in Wuhan, the Department of Geology, Northwest University in Xi‚Äôan and Guangzhou Institute ofGeochemistry, Chinese Academy of Sciences, and POEMS III at Key Laboratory ofCrust-Mantle Interaction of China University of Geosciences in Wuhan",,74.76,0.17,11.79,,3.63,,,0.1,0.14,0.2,4.14,4.63, ,0.27,99.87, , , , , ,127,7.8,58.84,672,23.51,,84,59.82,162.7,16.7,63.77,12.22,0.41,11.1,1.59,10.41,27,2.15,5.68,0.87,7.02,1.13,15.54,1.56,16.21,4.23,,, 9,D0910,Rhyolite,Sahalyn gol volcanic,45.715219,106.08755,Figure-Point,"Gambat et al., (2022)",Lower Permian ,,286,13,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,72.53,0.191,12.68,2.27,,,,0.029,0.1,0.44,2.72,4.07,0.21,3.4,98.64,2, ,20,1,20,118,168,12.5,119,2.3,2,948,21.4,36.5,4.43,14.2,2.62,0.468,2.03,0.36,2.09,14,0.43,1.38,0.225,1.8,0.345,3.3,0.41,10.4,1.65,,, 10,D0913,Rhyolite,Sahalyn gol volcanic,45.645239,105.86174,Figure-Point,"Gambat et al., (2022)",Lower Permian ,,286,13,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,76.93,0.136,11.44,2.67,,,,0.024,0.09,0.1,2.62,4.53,0.04,2.02,100.6,2, ,30,1,20,142,67,16.9,100,4.6,2.3,955,35.1,52.8,7.31,24.1,4.27,0.402,3.23,0.54,3.2,13,0.61,1.89,0.282,1.86,0.315,3.2,0.56,11.5,2.63,,, 11,D0914-R,Rhyolite,Sahalyn gol volcanic,45.57947,105.620361,Figure-Point,"Gambat et al., (2022)",Lower Permian ,,286,13,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,76.22,0.124,12.38,2.46,,,,0.028,0.13,0.57,4.31,3.36,0.03,0.72,100.3,4, ,20,1,20,57,107,32.3,159,4.8,0.5,844,36.8,74.5,8.54,31.7,6.64,0.815,5.57,0.9,5.43,16,1.16,3.4,0.537,3.78,0.596,4.9,0.53,7.58,2.3,,, 12,D0907-R,Rhyolite,Sahalyn gol volcanic,45.859198,106.118867,Figure-Point,"Gambat et al., (2022)",Lower Permian ,,286,13,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,70.48,0.264,15.31,1.75,,,,0.028,0.32,1.88,3.06,3.72,0.06,3.5,100.4,2, ,20,1,20,93,440,8.8,142,4.4,2.4,1339,24.2,43.6,4.52,15,2.32,0.668,2.01,0.29,1.59,19,0.29,0.85,0.127,0.88,0.139,3.9,0.44,5.16,0.74,,, 13,9801-2,Alkali feldspar granite,Xiaoshantun,49.01666667,125.2027778,GPS,"Wu et al., (2002)",285 ± 2 Ma,"Wu et al., (2011)",285,2,XRF and ICP-MS,Whole rock,"Hubei Geological Analytical Center in Wuhan, the Department of Geology, Northwest University in Xi‚Äôan and Guangzhou Institute ofGeochemistry, Chinese Academy of Sciences, and POEMS III at Key Laboratory ofCrust-Mantle Interaction of China University of Geosciences in Wuhan",,75.67,0.13,12.17,1.28,0.48,,,0.12,0.16,0.25,4.15,4.59, ,0.34,99.7, , , , , ,157.5,13.9,60.45,302,22.6,2.547,143,34.7,87.03,9.65,37.49,10.09,0.28,9.24,1.69,10.62,23,1.99,5.97,0.86,5.21,0.77,8.608,1.539,10.8,3.945,,, 14,D0902,Gabbro-diorite,,45.989931,106.186973,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,54.06,0.792,18.52,8.19,,,,0.128,4.08,8.05,3.26,0.77,0.21,2.42,100.5,22, ,40,22,20,15,611,15.3,73,2,0.5,256,12.4,27.3,3.46,13.9,3.2,1.05,3.13,0.5,2.92,19,0.57,1.63,0.219,1.53,0.233,1.9,0.16,1.56,0.28,,, 15,D0909-2,Gabbro-diorite,,45.835654,106.32728,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,54.12,0.793,17.67,8.78,,,,0.138,4.34,8.51,3.15,0.79,0.24,2.25,100.8,24, ,40,21,20,16,591,17.4,111,2.7,0.5,271,12.3,28.5,3.5,14.9,3.68,1.02,3.51,0.58,3.33,19,0.64,1.88,0.246,1.56,0.26,3.1,0.15,1.45,0.34,,, 16,D0915,Gabbro-diorite,,45.672232,105.442432,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,58.74,0.774,16.24,6.78,,,,0.16,2.89,5.75,3.98,2.79,0.15,2.42,100.7,17, ,30,16,20,105,642,25.6,75,8.4,1.9,484,36.2,76.6,8.68,30.6,5.93,1.03,4.84,0.78,4.67,20,0.92,2.61,0.415,2.85,0.419,2.4,0.6,13.6,1.75,,, 17,9724,Gabbro,,45.686694,105.405934,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,44.474,0.955,16.914,11.3752716,,,,0.162,8.835,12.795,0.903,0.241,0.051,1.77,98.4752716,45.8, ,,57,86.2,9.51,,6.2,,1.72,1.09,106,3.23,7.47,,4.98,1.29,0.54,,,,,,,,0.57,,,,1.52,0.26,,, 18,9725,Gabbro,,45.66762,105.408411,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,44.081,1.196,17.787,12.0321256,,,,0.154,7.028,13.666,0.856,0.197,0.047,1.3,98.3441256,, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 19,9726,Gabbro,,45.672861,105.429226,Figure-Point,"Gambat et al., (2022)",285,,285,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,46.581,0.444,27.256,5.2431346,,,,0.066,2.745,13.594,1.574,0.309,0.054,1.3,99.1661346,12.6, ,,21.4,18.2,9.16,,3.74,,1.7,0.28,138,3.21,7.18,,4.12,0.87,0.48,,,,,,,,0.36,,,,0.71,0.95,,, 20,D1710,Syenogranite,Batkhaan Complex,47.06842,104.13389,GPS,"Gambat et al., (2021)",282 Ma,,282,3,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,72.911,0.181,14.919,1.192297309,,,,0.018,0.112,0.745,4.358,4.369,0.055,0.132702691,98.993,2.97, ,8,0,4,140,58,48,116,14,1.01,70,21.13,54.39,5.91,24.5,5.81,0.45,6.8,1.3,7.99,28.2,1.62,4.99,,4.25,,6.99,,18.2,3.31,,, 21,B 386,Felsic volcanic,Bryansky volcanoplutonic complex,51.498974,108.118261,Figure-Polygon,"Yarmolyuk et al., (2001)",267-294 Ma,"Donskaya et al., (2013)",280.5,13.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",61.9,0.6,16.5,,,,5.7,0.09,1.72,2.8,4.59,4.14,0.18,1.8,100.02, , , , , ,106,628,27,310,15, ,1500,50,92,,35,3.6,1.2,,0.8,, ,,,,2.5,0.4,8,0.97,15, ,,, 22,B 400-1,Syenite,Bryansky volcanoplutonic complex,51.498974,108.118261,Figure-Polygon,"Yarmolyuk et al., (2001)",267-294 Ma,"Donskaya et al., (2013)",280.5,13.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.5,0.5,16.5,,,,3.3,0.17,0.52,0.48,7.01,5.81,0.07,0.7,100.56, , , , , ,84,15,33,110,12, ,46,140,290,,120,15,1.3,,1.6,, ,,,,2.1,0.25,2.9,0.9,6, ,,, 23,B 406-1,Syenite,Bryansky volcanoplutonic complex,51.498974,108.118261,Figure-Polygon,"Yarmolyuk et al., (2001)",267-294 Ma,"Donskaya et al., (2013)",280.5,13.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.6,0.54,16.4,,,,3.07,0.13,0.28,0.56,6.47,6.27,0.06,0.63,100.01, , , , , ,109,21,49,280,17, ,160,66,140,,63,9,1.1,,1.4,, ,,,,4.2,0.64,8.1,1.1,7, ,,, 24,K 113,Granite,Bryansky volcanoplutonic complex,51.498974,108.118261,Figure-Polygon,"Yarmolyuk et al., (2001)",267-294 Ma,"Donskaya et al., (2013)",280.5,13.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",74.7,0.08,12.5,,,,2.42,0.05,0.06,0.03,4.21,4.85,0.02,1.3,100.22, , , , , ,273,18,64,140,56, ,58,23,61,,27,5.2,0.6,,1.1,, ,,,,5.2,0.82,8.5,4.8,48, ,,, 25,B370,Metaluminous syenite,Bryansky Complex - Transbaikalia,51.422349,107.818059,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),62.7,0.65,18.3,1.9,0.87,,,0.09,0.3,0.98,6.34,6.83,0.08,1.01,100.05, , , , , ,97,190,32,340,16, ,880,65,140, ,69,11,1.8, ,1.3, , , , , ,2.8,0.41,10,1.2,5, ,,, 26,K137,Metaluminous syenite,Bryansky Complex - Transbaikalia,51.422349,107.818059,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),62.8,0.75,17.4,1.9,1.1,,,0.09,0.6,0.92,5.64,7.04,0.12,1.01,99.37, , , , , ,100,42,76,260,21, ,780,88,200, ,89,20,2.9, ,2.9, , , , , ,5.1,0.68,5.7,2.4,9, ,,, 27,B406,Metaluminous syenite,Bryansky Complex - Transbaikalia,51.422349,107.818059,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),64.6,0.55,16.2,3.49,1.61,,,0.1,0.36,0.43,5.89,5.85,0.08,0.88,100.04, , , , , ,150,52,53,610,27, ,390,120,260, ,100,13,1.4, ,1.6, , , , , ,4.4,0.58,15,1.5,28, ,,, 28,B400,Metaluminous syenite,Bryansky Complex - Transbaikalia,51.422349,107.818059,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),63.01,0.69,17.6,2.43,1.6,,,0.09,0.61,1.47,6.7,4.9,0.15,0.97,100.22, , , , , ,70,450,32,270,16, ,4400,51,110, ,54,7.5,3.2, ,1, , , , , ,2.8,0.38,15,1.5,7, ,,, 29,K108,Metaluminous Qtz. Syenite-2,Bryansky Complex - Transbaikalia,51.306156,108.013507,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),62.5,0.58,18.2,1.76,1.34,,,0.15,0.33,0.67,6.35,6.55,0.07,1.39,99.89, , , , , ,120,27,19,150,11, ,106,41,74, ,30,4.5,0.59, ,0.53, , , , , ,1.3,0.21,4.2,0.28,5, ,,, 30,A353,Metaluminous Qtz. Syenite-2,Bryansky Complex - Transbaikalia,51.306156,108.013507,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),63.8,0.43,18.2,1.88,0.72,,,0.14,0.18,0.76,6.41,6.55,0.06,0.9,100.03, , , , , ,68,49,10,72,7, ,260,28,52, ,24,4.4,0.65, ,0.39, , , , , ,1.1,0.17,1.4,0.21,2, ,,, 31,B428,Metaluminous Qtz. Syenite-2,Bryansky Complex - Transbaikalia,51.306156,108.013507,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),67.9,0.4,15.7,1.41,1.36,,,0.12,0.24,0.35,5.38,5.7,0.05,1.35,99.96, , , , , ,110,84,36,360,16, ,840,42,97, ,40,5.7,1.01, ,0.79, , , , , ,3.1,0.47,11,1.1,13, ,,, 32,B425,Metaluminous granite,Bryansky Complex - Transbaikalia,51.189924,107.53712,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),73.4,0.14,13.6,1.05,0.7,,,0.05,0.1,0.12,4.7,5.2,0.03,1.11,100.2, , , , , ,170,47,19,190,20, ,250,32,61, ,15,1.9,0.21, ,0.26, , , , , ,2,0.32,6.2,1.3,23, ,,, 33,K176,Metaluminous granite,Bryansky Complex - Transbaikalia,51.189924,107.53712,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),74.01,0.3,12.2,1.17,2.2,,,0.01,0.11,0.1,3.81,4.64,0.01,1.13,99.69, , , , , ,150,15,29,290,32, ,65,,, ,,,, ,, , , , , ,,,,,28, ,,, 34,K162,Metaluminous granite,Bryansky Complex - Transbaikalia,51.189924,107.53712,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),75.5,0.12,12.6,1.19,0.59,,,0.04,0.08,0.14,4.39,4.82,0.01,0.9,100.38, , , , , ,170,6,46,250,26, ,50,,, ,,,, ,, , , , , ,,,,,21, ,,, 35,K117-4,Nordmakite-1,Bryansky Complex - Transbaikalia,51.47201,108.446659,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),63.6,0.88,16,2.29,1.36,,,0.17,0.6,0.3,6.66,6.58,0.12,1.75,100.31, , , , , ,82,14,35,250,24, ,100,50,110, ,42,7.8,1.1, ,0.84, , , , , ,2.3,0.34,4.2,0.7,4.3, ,,, 36,K116,Nordmakite-1,Bryansky Complex - Transbaikalia,51.47201,108.446659,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),64.7,0.8,16.8,1.94,1.77,,,0.12,0.54,0.51,6.64,5.73,0.15,0.51,100.21, , , , , ,67,65,23,140,13, ,540,56,110, ,52,7.2,1.3, ,0.82, , , , , ,1.7,0.23,4,0.8,5.1, ,,, 37,K120,Nordmakite-1,Bryansky Complex - Transbaikalia,51.47201,108.446659,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),65.3,0.67,16.5,1.94,1.53,,,0.12,0.4,0.46,6.42,5.73,0.1,1.31,100.48, , , , , ,81,28,29,250,21, ,250,79,140, ,48,6.3,1.1, ,0.77, , , , , ,2.8,0.45,6.3,0.9,5.5, ,,, 38,K627,Nordmakite-1,Bryansky Complex - Transbaikalia,51.47201,108.446659,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),65,0.62,16.8,1.01,1.64,,,0.12,0.28,0.75,6.33,6.63,0.04,0.81,100.03, , , , , ,130,34,64,930,38, ,80,,, ,,,, ,, , , , , ,,,,,, ,,, 39,B530,Nordmakite-1,Bryansky Complex - Transbaikalia,51.47201,108.446659,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),66.4,0.52,16,1.64,1.7,,,0.12,0.31,0.43,6.02,6,0.02,0.4,99.56, , , , , ,160,35,49,700,32, ,110,,, ,,,, ,, , , , , ,,,,,, ,,, 40,K178-1,Nordmakite-2,Bryansky Complex - Transbaikalia,51.434334,107.709634,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),65.4,0.71,16.05,2.24,1.57,,,0.19,0.38,0.6,6.38,6.29,0.05,0.74,100.6, , , , , ,110,29,39,230,33, ,200,120,240, ,81,12,1.2, ,1.5, , , , , ,3.6,0.51,7.2,1.4,11, ,,, 41,B529-1,Nordmakite-2,Bryansky Complex - Transbaikalia,51.434334,107.709634,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),66.6,0.34,16.3,1.14,1.22,,,0.08,0.23,0.52,5.92,6.22,0,1,99.57, , , , , ,170,45,30,490,24, ,170,,, ,,,, ,, , , , , ,,,,,, ,,, 42,K109,Nordmakite-2,Bryansky Complex - Transbaikalia,51.434334,107.709634,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),68.1,0.32,14.9,1.39,1.62,,,0.05,0.21,0.38,5.92,5.33,0.05,1.35,99.62, , , , , ,240,5,56,780,50, ,30,,, ,,,, ,, , , , , ,,,16,,16, ,,, 43,K158,Nordmakite-2,Bryansky Complex - Transbaikalia,51.434334,107.709634,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),68.1,0.51,14.8,1.18,1.5,,,0.11,0.33,0.02,5.94,6.19,0.04,1.4,100.12, , , , , ,190,5,60,710,33, ,32,140,310, ,120,14,1.1, ,1.9, , , , , ,5.1,0.85,22,2.6,19, ,,, 44,B432-1,Nordmakite-2,Bryansky Complex - Transbaikalia,51.434334,107.709634,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),68.8,0.6,14.3,2.11,1.46,,,0.12,0.29,0.26,5.26,5.61,0.06,1.14,100.01, , , , , ,150,61,83,710,36, ,310,79,240, ,90,16,1.5, ,2.6, , , , , ,6.1,0.78,17,2.8,33, ,,, 45,B378,Perlakaline granite-1,Bryansky Complex - Transbaikalia,51.508717,108.112749,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),69.8,0.4,13.6,2.09,1.5,,,0.15,0.41,0.32,5.1,5.56,0.04,1.33,100.3, , , , , ,260,19,110,850,63, ,150,98,220, ,84,13,1.1, ,2.2, , , , , ,8.5,1.3,14,4.9,43, ,,, 46,B405,Perlakaline granite-1,Bryansky Complex - Transbaikalia,51.508717,108.112749,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),70.8,0.46,12.8,1.61,1.85,,,0.14,0.24,0.26,5.19,5.58,0.04,0.77,99.74, , , , , ,215,13,81,700,46, ,98,96,200, ,82,12,1.1, ,2.2, , , , , ,8.4,1.2,21,3.5,27, ,,, 47,B434,Perlakaline granite-1,Bryansky Complex - Transbaikalia,51.508717,108.112749,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),72.6,0.26,12.4,1.85,0.85,,,0.1,0.14,0.05,4.66,5.33,0.03,1.4,99.67, , , , , ,210,32,35,480,26, ,125,,, ,,,, ,, , , , , ,,,13,,32, ,,, 48,B371,Perlakaline granite-1,Bryansky Complex - Transbaikalia,51.508717,108.112749,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),74,0.21,12,1.48,0.87,,,0.1,0.21,0.14,4.4,4.66,0.02,1.36,99.45, , , , , ,250,12,77,560,47, ,66,66,170, ,67,12,0.77, ,2.3, , , , , ,7.9,1.1,21,4.2,38, ,,, 49,B625,Perlakaline granite-1,Bryansky Complex - Transbaikalia,51.508717,108.112749,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),75.02,0.32,10.65,1.35,2.15,,,0.17,0.13,0.03,4.51,4.73,0.01,0.34,99.41, , , , , ,290,9,66,1070,50, ,40,107.5,151.6, ,59.3,9.4,0.67, ,2.76, , , , , ,6.85,1.1,32,3.4,36, ,,, 50,B426,Perlakaline granite-2,Bryansky Complex - Transbaikalia,51.391048,107.926399,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),69.6,0.4,14.4,1.32,1.54,,,0.16,0.27,0.02,5.78,5.4,0.03,1.3,100.22, , , , , ,120,7,52,450,22, ,63,40,110, ,31,4.9,0.52, ,0.82, , , , , ,3.5,0.55,11,1.7,18, ,,, 51,B388,Perlakaline granite-2,Bryansky Complex - Transbaikalia,51.391048,107.926399,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),72.6,0.3,12,1.59,2.4,,,0.11,0.23,0.15,4.76,4.74,0.01,0.97,99.86, , , , , ,190,5,80,470,35, ,47,75,160, ,60,10,1.01, ,2, , , , , ,8.1,1.1,18,2.6,11, ,,, 52,B435,Perlakaline granite-2,Bryansky Complex - Transbaikalia,51.391048,107.926399,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),73.5,0.22,12.05,1.76,1.05,,,0.04,0.14,0.04,4.39,4.94,0.02,1.59,99.74, , , , , ,200,40,35,380,23, ,160,53,110, ,35,5,0.34, ,0.87, , , , , ,4,0.62,16,2.3,25, ,,, 53,B389,Perlakaline granite-2,Bryansky Complex - Transbaikalia,51.391048,107.926399,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),74.4,0.21,10.6,1.59,3,,,0.19,0.21,0.5,4.21,4.6,0,0.84,100.35, , , , , ,200,4,53,980,27, ,55,,, ,,,, ,, , , , , ,,,23,,26, ,,, 54,A447-4,Comendite,Bryansky Complex - Transbaikalia,51.449506,108.05102,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),71.8,0.51,10.9,1.9,3,,,0.2,0.13,0.02,4.77,4.57,0.02,1.71,99.54, , , , , ,260,38,170,2200,120, ,10,150,340, ,110,19,1.6, ,4.3, , , , , ,16,2.5,53,7.4,67, ,,, 55,B382-2,Comendite,Bryansky Complex - Transbaikalia,51.449506,108.05102,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),72.5,0.42,11,1.17,4.45,,,0.21,0.23,0.25,4.41,4.5,0.01,0.83,99.99, , , , , ,270,13,130,1550,84, ,24,90,270, ,67,14,1.1, ,3.1, , , , , ,12,2,36,5.2,51, ,,, 56,K116-2,Comendite,Bryansky Complex - Transbaikalia,51.449506,108.05102,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),74.2,0.24,12.2,1.61,1.9,,,0.12,0.16,0.04,4.84,3.88,0.05,0.68,99.92, , , , , ,170,12,190,2000,97, ,66,,, ,,,, ,, , , , , ,,,50,,60, ,,, 57,K168,Comendite,Bryansky Complex - Transbaikalia,51.449506,108.05102,Figure-Polygon,"Litvinovsky et al., (2002)",284 - 277 Ma,,280.5,3.5,"Wet chemical method, AAS, titration, XRF, instrumental neutron activation, ICP-MS",NI,"Wet chemical method, AAS and titration (major elements), and X-ray fluorescence (Rb, Sr, Ba, Y, Zr, Nb, and Th) at the Geological Institute of SB RAS, Ulan-Ude. Rare earth elements were determined mainly by instrumental neutron activation at the Analytical Center of Geological Institute RAS (Moscow), some samples were analysed by the ICP-MS method in the Rennes University. Analyses",General location from map (Middle of corresponding polygon),74.8,0.41,10.9,1.63,0.15,,,0.03,0.2,0.02,2.64,6.88,0.03,2.01,99.7, , , , , ,360,20,150,1950,98, ,100,,, ,,,, ,, , , , , ,,,42,,46, ,,, 58,D0802,Rhyolite,Batkhaan Complex,47.0855,104.40317,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,77.68,0.1376,11.65,3.041482948,,,,0.02,0.1,0.11,4.1868,3.3729,0.0129,0.338517052,100.6502,2.299, ,10.149,0.884,7.157,114.092,14.26,39.81,322.473,12.448,1.691,110,38.642,78.442,10.212,38.555,7.665,0.218,7.186,1.275,7.361,20.142,1.633,4.748,0.767,4.967,0.766,9.56,0.911,22.374,4.689,,, 59,D0803,Rhyolite,Batkhaan Complex,47.08933,104.39825,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.55,0.1873,13.36,2.4205885,,,,0.03,0.18,0.18,3.8598,4.9142,0.0191,0.2694115,99.9704,3.466, ,2.955,0.884,4.806,181.89,24.41,48.564,362.287,12.681,4.074,201,52.19,92.451,13.37,52.077,10.686,0.36,10.473,1.692,9.495,23.302,1.922,5.607,0.878,5.645,0.883,10.631,0.985,24.333,4.326,,, 60,D0804,Rhyolite,Batkhaan Complex,47.09528,104.39917,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.94,0.1734,13.68,1.646720058,,,,0.03,0.3,0.33,4.8214,3.9903,0.0367,0.183279942,100.1318,1.646, ,8.673,0.753,7.2,96.786,21.77,45.207,386.596,12.902,2.1,206,50.246,117.588,12.482,48.342,9.297,0.21,8.864,1.439,8.451,21.257,1.93,5.37,0.858,5.42,0.857,11.535,0.926,22.266,4.492,,, 61,D1714,Rhyolite,Batkhaan Complex,47.07903,104.77056,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,67.9,0.692,13.02,5.983982723,,,,0.067,0.38,1.75,3.85,2.63,0.32,1.46,98.05298272,13, ,20,2,20,92,157,35.5,292,7,2.9,607,24.4,52.8,6.67,26.4,6.45,1.32,7.04,1.14,6.64,20,1.32,3.88,0.604,4.08,0.687,8.4,0.67,10,3.15,,, 62,D1013,Granosyenite,Batkhaan Complex,47.06908,104.341,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.5,0.17,14.3,2.519571673,,,,0.03,0.19,0.78,4.3,4.7382,0.0282,0.280428327,101.8364,3.78, ,5.25,1.606,0.93,120.922,65,55.202,210.896,22.993,2.437,543,32.786,66.086,7.765,30.1,6.121,0.62,6.12,1.05,6.904,22.18,1.52,4.307,0.7,5.39,0.733,7.31,1.29,15.29,4.09,,, 63,D1015,Granosyenite,Batkhaan Complex,47.06994,104.33631,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,73.44,0.2064,14.16,2.510573203,,,,0.04,0.23,0.75,4.9848,4.9382,0.0382,0.279426797,101.5776,4.178, ,5.525,1.706,0.936,122.922,72.8,51.202,300.696,16.993,3.637,643,31.686,68.686,7.865,30.547,6.315,0.669,6.011,1.109,7.104,22.218,1.589,4.607,0.72,4.99,0.736,8.923,1.768,16.327,4.909,,, 64,D1016,Granosyenite,Batkhaan Complex,47.06994,104.33631,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,77.25,0.1166,11.47,2.77152884,,,,0.02,0.14,0.08,4.191,4.553,0.0116,0.30847116,100.9122,3.865, ,3.472,1.136,1.528,110.404,55.65,49.01,188.023,19.446,1.226,541,32.743,65.631,7.939,29.87,5.951,0.517,5.73,1.03,6.46,22.221,1.411,4.068,0.646,4.98,0.618,5.613,1.597,11.924,2.595,,, 65,D1018,Granosyenite,Batkhaan Complex,47.06994,104.33631,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,64.58,0.555,15.28,3.527400342,,,,0.06,3.08,3.63,4.1053,3.4394,0.1607,0.4599,98.87770034,3.99, ,3.72,1.14,1.42,110.404,58.4,50.4,283.03,25.446,2.626,549,32.21,67.931,7.8,29.99,5.99,0.576,5.99,1.09,6.87,22.19,1.49,4.2,0.67,5.12,0.71,7.13,1.79,13.54,3.495,,, 66,D1703,Granosyenite,Batkhaan Complex,47.10336,104.23056,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,75.365,0.136,13.188,1.406460902,,,,0.028,0.187,0.711,3.515,4.922,0.112,0.156539098,99.727,2.602, ,50.19,0.09,4.794,195.8,22,56.16,151,11.1,1.024,346,22.84,55.86,6.001,24.48,5.82,0.349,7.396,1.101,8.01,27.91,1.585,5.225,,5.477,,7.13,,17.39,3.335,,, 67,D1705,Granosyenite,Batkhaan Complex,47.10497,104.32722,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,75.58,0.137,11.36,2.105642041,,,,0.034,0.11,0.12,3.6,3.77,0.04,1.63,98.48664204,2, ,20,1,20,148,17,52.3,289,6.3,1.6,318,24.3,62.4,6.51,24.2,6.04,0.422,6.64,1.33,8.82,20,1.85,5.63,0.869,6.11,0.935,9.7,0.75,15.5,3.53,,, 68,D1706,Monzonite,Batkhaan Complex,47.10736,104.47056,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.19,0.16,13.1,1.970664987,,,,0.03,0.1,0.12,4.19,4.53,0.04,0.47,98.90066499,, ,20,,20,153,17.8,48,327,9.8,1.62,351,19.6,50,5.2,21,5,0.36,5.6,1,7.4,20,1.64,4.9,0.74,4.7,0.69,8.1,0.72,10.2,2.3,,, 69,D1707,Monzogranite,Batkhaan Complex,47.10194,104.14556,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.15,0.139,12.48,2.033654279,,,,0.029,0.09,0.1,4.21,4.3,0.05,1.48,99.06165428,2, ,20,1,20,151,17,55.4,314,6.1,1.7,350,25.6,64.8,6.99,25.7,6.34,0.437,7.09,1.39,9.33,20,1.95,6.03,0.91,6.38,0.986,9.5,0.73,16,3.64,,, 70,D1713,Monzogranite,Batkhaan Complex,47.08381,104.05722,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,60.57,0.721,18.57,3.041482948,,,,0.058,0.3,5.91,5.17,1.64,0.25,2.7,98.93048295,13, ,20,1,20,40,420,22,241,4.9,0.8,1344,17.3,37.8,4.75,19.3,4.57,3.3,4.77,0.71,4.24,24,0.81,2.32,0.345,2.2,0.366,5.7,0.35,4.26,1.26,,, 71,D1721,Monzonite,Batkhaan Complex,47.14294,104.04311,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,59.53,0.724,19.73,2.906505894,,,,0.052,0.31,5.5,5.89,1.83,0.26,2.96,99.69250589,14, ,20,2,20,39,456,22.4,250,4.6,0.7,1421,17.1,38.3,4.92,19.9,4.57,3.36,4.76,0.76,4.42,24,0.85,2.42,0.319,2.12,0.35,5.3,0.35,4.34,1.25,,, 72,D1710-1,Monzonite,Batkhaan Complex,47.1165,104.12533,GPS,"Gambat et al., (2021)",271-284 Ma,,277.5,6.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,60.94,0.98,16.52,6.514892468,,,,0.13,1.03,3.42,4.86,2.35,0.24,1.3,98.28489247,, ,,,,51,245,30,411,10,2.4,729,22,44,5.7,23,5.2,1.63,5.4,0.83,5,,1.1,3.1,0.49,3.2,0.49,7.9,0.59,6.4,1.48,,, 73,D1709,Rhyolite,Batkhaan Complex,47.07903,104.77056,GPS,"Gambat et al., (2021)",274 Ma,,274,2,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.67,0.15,11.27,2.528570143,,,,0.017,0.13,0.05,3.03,4.34,0.04,2.33,98.55557014,2, ,50,1,20,153,20,62.3,345,7.7,2.5,561,48,104,11.8,45.5,10.4,0.762,10.4,1.82,10.7,22,2.13,6.66,0.987,6.62,0.997,10.5,0.75,14.8,4.04,,, 74,MON-65A,Peraluminous granites,Monhhaan,46.386245,111.512095,Figure-Point,"Zhao et al., (2017)",273.3 ± 2.5 Ma,,273.3,2.5,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.81,0.11,13.83,,,,0.76,0.01,0.21,0.31,5.53,1.46, ,0.9,99.92,2, , , , ,59.6,252.5,16.2,88.6,8.2,0.6,331,41.3,73.9,7.55,23.3,3.8,0.66,3.29,0.48,2.53,13.3,0.52,1.55,0.26,1.8,0.28,3,1.1,28.6,2,,, 75,MON-65B,Peraluminous granites,Monhhaan,46.386245,111.512095,Figure-Point,"Zhao et al., (2017)",273.3 ± 2.5 Ma,,273.3,2.5,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,75.86,0.13,13.8,,,,0.93,0.01,0.22,0.66,4.68,1.8, ,1.6,99.87,2, , , , ,51.8,254.5,16.3,114.7,10.2,0.7,592,36.4,67.9,6.86,21.8,3.56,0.51,3.05,0.45,2.51,14.5,0.49,1.73,0.26,1.87,0.29,3.8,1.2,26.8,1.5,,, 76,MON-65C,Peraluminous granites,Monhhaan,46.386245,111.512095,Figure-Point,"Zhao et al., (2017)",273.3 ± 2.5 Ma,,273.3,2.5,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.59,0.07,13.04,,,,0.54,0.01,0.07,0.5,3.16,5.2, ,0.7,99.93,2, , , , ,110.5,148.9,8.5,46.1,8.2,0.5,464,14,25.1,2.79,9.4,1.61,0.34,1.48,0.25,1.56,12.3,0.3,0.94,0.16,0.99,0.16,1.9,1.2,25.3,1.5,,, 77,MON-65D,Peraluminous granites,Monhhaan,46.386245,111.512095,Figure-Point,"Zhao et al., (2017)",273.3 ± 2.5 Ma,,273.3,2.5,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.03,0.12,13.72,,,,0.83,0.01,0.2,0.82,5.19,1.28, ,1.7,99.89,2, , , , ,32.3,200.2,16.4,135,10.3,0.7,589,28.3,54.8,5.52,17.8,2.9,0.41,2.36,0.43,2.47,13.6,0.53,1.69,0.28,2.04,0.32,4.9,1.6,40.3,2.6,,, 78,MON-65E,Peraluminous granites,Monhhaan,46.386245,111.512095,Figure-Point,"Zhao et al., (2017)",273.3 ± 2.5 Ma,,273.3,2.5,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.13,0.14,14.21,,,,0.95,0.01,0.24,0.79,5.24,1.62, ,0.5,99.87,2, , , , ,52.2,468.5,12.6,107,9.5,0.8,478,39.5,71.9,7.18,21.7,3.31,0.53,2.72,0.38,1.96,13.5,0.37,1.19,0.2,1.45,0.24,3.5,1.5,23.8,1.6,,, 79,TW5892,Granite,Aobaowula granite,49.01645,116.331738,Figure-Point,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from figure,76.67,0.14,13.02,0.058,0.59,,,0.016,0.09,0.41,4.04,4.27,0.034,0.66,100,7.14,4.49,5.98,0.31,2.94,130,92.3,9.83,84.9,13.4,2.1,432,8.87,16.2,2.04,7.68,1.6,0.28,1.64,0.28,1.7, ,0.36,1.09,0.17,1.2,0.19,3.49,1.23,4.5,0.73,,, 80,TW5920,Granite,Aobaowula granite,49.01645,116.331738,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW5892 in figure,72.3,0.2,14.4,0.78,1.69,,,0.036,0.45,0.81,3.88,3.29,0.095,1.98,99.91,5.92,4.46,2.73,1.43,2.79,87.5,86.6,9.16,191,13.8,3.22,331,8.69,16.1,2.11,8.09,1.65,0.3,1.71,0.28,1.59, ,0.34,1.01,0.16,1.09,0.18,5.93,1.21,1.94,0.89,,, 81,TW5932,Granite,Aobaowula granite,49.01645,116.331738,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW5892 in figure,71.75,0.37,14.31,0.22,2.08,,,0.042,0.88,1.16,2.86,5.33,0.12,0.87,99.99,8.92,36.4,8.85,5.08,6.38,183,242,10.3,156,7.21,2.67,516,13.5,23.8,2.78,10,1.74,0.58,1.7,0.28,1.66, ,0.37,1.16,0.2,1.36,0.21,5.11,0.28,7.3,0.68,,, 82,TW4801,Granite,Aobaowula granite,49.01645,116.331738,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW5892 in figure,76.45,0.16,13.09,0.26,0.39,,,0.013,0.13,0.37,4.03,4.29,0.044,0.74,99.97,2.5,4.34,8.14,0.56,4.09,119,71.4,13.7,73.3,10.1,4.05,498,22.8,41.2,5.3,18.6,3.34,0.56,3.03,0.47,2.63, ,0.53,1.58,0.25,1.74,0.27,3.06,0.98,13,2.7,,, 83,TW05,Granite,Aobaowula granite,49.01645,116.331738,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW5892 in figure,76.59,0.14,12.91,0.21,0.63,,,0.039,0.25,0.43,4,4.16,0.04,0.58,99.98,7.74,4.87,3.84,0.42,2,134,82.6,7.04,77.7,13.7,1.85,453,7.54,12.7,1.71,6.06,1.17,0.21,1.19,0.18,1.11, ,0.23,0.7,0.11,0.76,0.11,3.2,1.25,2.78,0.44,,, 84,TW10,Granite,Aobaowula granite,49.01645,116.331738,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW5892 in figure,73.69,0.26,14,0.6,1.34,,,0.025,0.12,0.52,4.34,3.94,0.077,1.03,99.94,8.84,13.4,6.72,0.97,3.97,115,112,5.21,155,9.28,5.12,453,5.5,12.9,1.3,4.95,0.96,0.28,0.93,0.16,1.02, ,0.23,0.68,0.11,0.79,0.13,4.84,0.81,2.87,0.83,,, 85,TW15,Granite,Aobaowula granite,48.999818,116.233794,Figure-Point,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from figure,78.29,0.14,12.17,0.28,0.16,,,0.016,0.16,0.34,3.44,3.78,0.032,1.34,100.15,4.84,2.6,9.72,0.56,3.52,104,69,5.56,106,7.82,4.14,491,12.6,27.1,3.14,11.8,2.12,0.4,1.87,0.28,1.46, ,0.28,0.72,0.1,0.73,0.1,3.66,0.66,5.08,0.64,,, 86,TW01,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,63.97,0.54,15.91,2.17,3.11,,,0.08,1.92,3.82,3.64,2.93,0.16,1.543,99.79,11.7,80.2,6.6,9.85,3.63,137,421,22.5,170,9.97,10.3,477,17.6,37.9,5.15,20.7,4.55,1,4.6,0.71,4.09, ,0.82,2.3,0.37,2.6,0.42,5.85,1.13,14.9,1.97,,, 87,TW05,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,73.75,0.21,13.46,0.34,1.38,,,0.028,0.35,1.59,2.76,5.34,0.058,0.712,99.98,7.86,27.3,3.39,3.7,1.69,171,167,13.9,84.6,8.09,15.2,301,22,43.7,5.07,17.6,3.29,0.53,2.88,0.47,2.69, ,0.54,1.55,0.29,2.13,0.34,3.69,1.04,44.3,1.64,,, 88,TW5801,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,75.55,0.078,13.57,0.11,0.21,,,0.066,0.087,0.42,3.98,5.27,0.047,0.643,100.03,9.47,6.6,2.91,1.08,0.62,140,43.5,19.8,38.5,13.9,0.9,130,4.95,11.3,1.61,6.03,1.87,0.15,2.3,0.5,3.38, ,0.69,2,0.34,2.54,0.39,2.94,1.25,6.62,1.21,,, 89,TW5804,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,77.87,0.18,11.8,0.21,0.3,,,0.019,0.15,0.21,3.41,5.16,0.033,0.681,100.02,9.11,9,3.39,1.48,1.01,80.8,98.9,8.7,94.4,7.54,1.47,638,33.1,64.3,6.51,21.8,3.36,0.65,3.06,0.38,1.76, ,0.32,0.87,0.14,1.05,0.17,3.4,0.56,18.2,1.29,,, 90,TW5802,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,75.91,0.09,13.06,0.34,0.1,,,0.068,0.082,0.33,3.3,6.21,0.032,0.488,100.01,12,6.08,3.04,1.14,0.5,263,22.7,19.6,41.2,29.4,1.8,31.8,8.6,18.8,1.77,6.3,1.64,0.11,1.88,0.42,3.01, ,0.66,1.95,0.34,2.47,0.4,3.58,5.76,11.2,1.77,,, 91,TW5005,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,76.08,0.088,13.34,0.31,0.21,,,0.087,0.11,0.46,3.95,4.89,0.021,0.472,100.02,10.6,5.23,3.13,1.15,1.45,223,19.8,24.3,46.5,14.7,2.29,30.3,11,22.3,2.72,9.92,2.36,0.12,2.35,0.52,3.77, ,0.84,2.55,0.43,3.26,0.5,3.71,2.65,12.3,1.06,,, 92,TW4802,Granite,Aobaowula granite,48.999818,116.233794,Figure-Polygon,"Liu et al., (2018)",Middle Permian (~259-273 Ma),,266,7,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW15 in figure,76.47,0.18,12.91,0.25,0.55,,,0.015,0.11,0.37,4.19,4.14,0.048,0.771,100,10.7,6.36,1.68,1.03,0.92,116,69.6,15.1,107,9.73,4.56,548,24,40.9,5.1,17.7,3.24,0.6,2.92,0.48,2.69, ,0.53,1.52,0.27,1.96,0.31,3.81,0.89,12.4,2.63,,, 93,MON-60A,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.57,0.09,12.9,,,,0.78,0.07,0.1,0.2,3.74,4.88, ,0.7,99.97,2, , , , ,215,35.4,31.4,84.3,17,0.9,101,21.7,53.5,5.15,17.9,3.61,0.2,4.03,0.73,4.62,15.5,1.05,3.23,0.58,4.29,0.71,3.8,2.1,28.8,1.3,,, 94,MON-60B,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,77.19,0.1,12.57,,,,0.8,0.02,0.07,0.2,3.54,4.92, ,0.6,99.95,2, , , , ,209,29,33.5,89.5,0.4,1,93,21.5,44.6,5.73,20.1,4.49,0.25,4.06,0.78,4.97,15.5,1.13,3.59,0.65,4.48,0.69,4,1.9,26.9,1.6,,, 95,MON-60C,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,77.14,0.09,12.35,,,,0.78,0.01,0.06,0.12,3.52,4.83, ,1.1,99.99,2, , , , ,194.2,29.9,22.5,80.7,13.6,1,89,18.3,35,4.68,16,3.17,0.18,2.69,0.55,3.51,13,0.76,2.51,0.43,3.08,0.49,3.5,1.7,21.8,1.2,,, 96,MON-60D,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,77.43,0.09,12.31,,,,0.77,0.05,0.07,0.17,3.56,4.72, ,0.8,99.98,2, , , , ,198.2,32.7,22.2,71,11.9,1,94,18.5,54.9,4.67,16.4,3.38,0.21,2.94,0.55,3.61,15.1,0.77,2.4,0.41,2.75,0.43,2.9,1.3,25,1,,, 97,MON-60E,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,77.76,0.1,12.12,,,,0.65,0.02,0.07,0.14,3.41,4.8, ,0.8,99.98,2, , , , ,193,30,26.7,74.1,13.9,1,94,8.2,22.3,2.31,8.3,2.19,0.15,2.46,0.59,4.06,13.2,0.9,2.96,0.52,3.52,0.57,3.2,1.9,26.4,1.2,,, 98,MON-60F,Peraluminous granites,Monhhaan,46.794493,112.078146,Figure-Point,"Zhao et al., (2017)",265.1 ± 4.9 Ma,,265.1,4.9,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,76.54,0.1,12.9,,,,0.74,0.02,0.07,0.12,3.67,4.94, ,0.8,99.96,2, , , , ,219.4,36.4,33,93.1,15.7,1.1,112,17.2,50.2,4.11,13.9,3.07,0.18,3.51,0.74,4.78,15,1.03,3.26,0.56,4.01,0.65,3.8,1.8,28.1,1.1,,, 99,D0904,Monzogranite,,46.070875,106.29849,Figure-Point,"Gambat et al., (2022)",265,,265,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,77.39,0.188,12,1.84,,,,0.035,0.25,0.6,3.98,2.99,0.05,1.43,100.8,4, ,20,2,20,80,153,15.8,82,6.2,0.4,344,24.8,46.7,5.02,15.9,2.73,0.45,2.63,0.39,2.56,12,0.52,1.62,0.268,1.82,0.329,2.7,0.8,18.1,1,,, 100,D0905,Monzogranite,,46.098572,106.318664,Figure-Point,"Gambat et al., (2022)",265,,265,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,74.75,0.146,12.13,1.42,,,,0.024,0.17,0.45,3.89,4.32,0.05,1.23,98.58,4, ,20,1,20,150,88,20.4,57,6.5,0.6,255,18.2,36.5,3.92,13.1,2.65,0.282,2.36,0.46,2.9,13,0.65,2.16,0.374,3,0.495,2.2,1.37,13.2,2.71,,, 101,D0924,Granite,,46.03414,105.345551,Figure-Point,"Gambat et al., (2022)",265,,265,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,75.6,0.19,11.25,1.69,,,,0.036,0.08,0.4,4.08,3.25,0.02,1.28,97.876,3, ,20,1,20,61,253,23.7,81,3,4.1,875,33.6,51.3,7.54,27.4,5.12,0.575,4.53,0.77,4.42,10,0.86,2.66,0.383,2.81,0.481,2.7,0.37,6.1,1.67,,, 102,D0908,Granite,,45.874887,106.199217,Figure-Point,"Gambat et al., (2022)",265,,265,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,69.82,0.255,15.05,1.69,,,,0.023,0.31,1.88,3.14,3.85,0.06,3.61,99.7,2, ,20,1,20,93,455,9.2,156,3.9,2.4,1400,25.1,46.5,4.89,16,2.46,0.602,2.01,0.3,1.8,19,0.33,0.92,0.137,0.92,0.134,3.8,0.39,5.59,0.79,,, 103,9806-3,Syenogranite,Guguhe,49.975,125.4138889,GPS,"Wu et al., (2002)",264 ± 5 Ma,"Wu et al., (2011)",264,5,XRF and ICP-MS,Whole rock,"Hubei Geological Analytical Center in Wuhan, the Department of Geology, Northwest University in Xi‚Äôan and Guangzhou Institute ofGeochemistry, Chinese Academy of Sciences, and POEMS III at Key Laboratory ofCrust-Mantle Interaction of China University of Geosciences in Wuhan",,74.42,0.17,12.19,1.52,0.7,,,0.16,0.22,0.3,4.13,4.47, ,1,99.64, , , , , ,181.3,23.5,67.16,333,31.93,1.204,218,44.3,105.77,11.79,45.3,10.67,0.65,9.64,1.61,9.94,20.7,1.98,6.17,0.94,6.1,0.97,9.789,2.297,15.6,3.398,,, 104,9849-1,Syenogranite,Songmushan,49.55555556,126.8333333,GPS,"Wu et al., (2002)",260 ± 3 Ma,"Wu et al., (2011)",260,3,XRF and ICP-MS,Whole rock,"Hubei Geological Analytical Center in Wuhan, the Department of Geology, Northwest University in Xi‚Äôan and Guangzhou Institute ofGeochemistry, Chinese Academy of Sciences, and POEMS III at Key Laboratory ofCrust-Mantle Interaction of China University of Geosciences in Wuhan",,74.36,0.19,12.05,1.7,1.1,,,0.12,0.28,0.52,4.52,4.43, ,0.13,99.79, , , , , ,98.68,50.3,38.7,609,16.38,1.42,179,24.34,73.3,7.95,29.72,6.7,0.39,5.25,0.96,6.37,23,1.28,3.7,0.6,3.99,0.69,9.91,0.99,13.76,2.5,,, 105,2107,Intermediate lava,Bugat/Baruunburen Formation,49.0613,104.378338,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54.2,1.03,18.5,,,6.42,,0.1,3.35,7.59,4.38,1.95,0.64,,98.2, , ,34,21,31,29,1492,17,147,5.7, ,1026,46,92,11,41,6.9,1.5,5.1,0.69,3.4, ,0.64,1.7,0.19,1.2,0.18,4,0.36,, ,,, 106,2108,Intermediate lava,Bugat/Baruunburen Formation,49.064023,104.377146,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54,1.24,17.5,,,7.94,,0.14,4.49,4.77,4.32,2.65,0.65,,97.7, , ,98,28,53,45,1202,17,192,8.7, ,1326,37,78,10,38,6.6,1.9,5.5,0.68,3.9, ,0.68,1.8,0.22,1.5,0.17,4.7,0.6,, ,,, 107,2109,Intermediate lava,Bugat/Baruunburen Formation,49.065828,104.377365,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,56.9,1.24,16.5,,,8.83,,0.07,2.49,6.47,4.29,1.89,0.68,,99.4, , ,146,29,69,20,1662,15,173,7.9, ,1310,32,67,8.5,33,6.1,1.8,5,0.6,3, ,0.56,1.6,0.19,1.1,0.19,4.4,0.49,, ,,, 108,2111,Intermediate lava,Bugat/Baruunburen Formation,49.067079,104.375578,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,51.9,1.37,17.1,,,8.44,,0.15,4.64,6.59,4.45,2.25,0.75,,97.6, , ,102,28,61,38,1244,17,190,8.4, ,1090,27,58,7.2,30,5.5,1.4,4.4,0.56,2.8, ,0.52,1.3,0.18,1.1,0.11,4.7,0.58,, ,,, 109,2115,Intermediate lava,Bugat/Baruunburen Formation,49.072983,104.368632,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54.3,1.24,16.9,,,8.04,,0.19,4,5.8,3.91,2.26,0.6,,97.2, , ,121,29,63,26,1335,15,148,7.7, ,1129,35,74,10,40,7,1.4,5,0.57,3.7, ,0.63,1.5,0.24,1.4,0.22,3.8,0.51,, ,,, 110,2123,Intermediate lava,Bugat/Baruunburen Formation,49.085558,104.355531,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54.3,1.25,16.8,,,8.02,,0.1,4.11,6.41,4.23,1.64,0.64,,97.5, , ,86,27,77,22,1478,16,146,5.1, ,1012,30,68,8.9,39,7.3,2,5.7,0.64,3.2, ,0.6,1.5,0.2,1.1,0.16,3.7,0.41,, ,,, 111,2207,Intermediate lava,Bugat/Baruunburen Formation,49.093092,104.33703,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53.7,1.19,17.1,,,7.59,,0.1,3.2,6.27,5,3.01,0.69,,97.9, , ,42,24,36,43,1747,17,182,7, ,1355,35,75,9.4,37,7,2,5.7,0.65,3.8, ,0.66,1.7,0.23,1.5,0.18,6,1.9,, ,,, 112,2209,Intermediate lava,Bugat/Baruunburen Formation,49.101616,104.324705,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53.7,1.04,18.1,,,7.07,,0.14,3.68,8.05,3.4,1.96,0.5,,97.6, , ,32,23,34,26,2020,14,143,5.5, ,906,33,70,8.5,34,6.1,1.5,4.7,0.59,2.9, ,0.48,1.3,0.16,1.1,0.15,3.9,0.37,, ,,, 113,2211,Intermediate lava,Bugat/Baruunburen Formation,49.100123,104.320706,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,49.8,1.3,17.5,,,8.76,,0.13,3.98,10.1,3.74,1.82,0.64,,97.8, , ,129,29,92,27,1351,18,149,5.2, ,1007,26,58,7.7,34,6.1,2,5.2,0.6,2.9, ,0.54,1.3,0.16,1.1,0.13,4.3,0.32,, ,,, 114,2213,Intermediate lava,Bugat/Baruunburen Formation,49.104518,104.314102,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54,1.15,18,,,7.46,,0.12,4.19,7.11,3.86,2.58,0.48,,98.9, , ,33,25,37,31,2309,12,96,4, ,1417,35,76,9.5,40,7.1,2,5.5,0.7,3.1, ,0.58,1.5,0.2,1.1,0.14,3.1,0.42,, ,,, 115,2218,Intermediate lava,Bugat/Baruunburen Formation,49.108155,104.305363,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,51.1,1.46,17.9,,,8.78,,0.14,4.63,6.89,3.35,2.9,0.7,,97.9, , ,24,28,28,41,1353,14,126,8.9, ,1494,34,70,8.8,34,6.6,1.7,5,0.59,3.1, ,0.6,1.3,0.15,1,0.17,4.4,1.8,, ,,, 116,2219,Intermediate lava,Bugat/Baruunburen Formation,49.112519,104.299179,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.2,1.17,17.6,,,7.42,,0.14,4.09,3.43,5.59,2.51,0.41,,97.6, , ,111,26,70,44,1189,16,230,6.9, ,948,37,75,10,42,7.7,2.1,6,0.74,3.8, ,0.56,1.4,0.18,1,0.13,6.8,0.49,, ,,, 117,2301,Intermediate lava,Bugat/Baruunburen Formation,49.087069,104.414235,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,52.6,1.29,16.9,,,8.04,,0.15,3.84,4.87,5.19,3.06,0.76,,96.7, , ,75,24,49,51,1110,16,177,9, ,1225,43,91,11,46,8.2,2.1,6.4,0.67,3.9, ,0.63,1.6,0.21,1.2,0.15,5,2.2,, ,,, 118,2303,Intermediate lava,Bugat/Baruunburen Formation,49.091743,104.414909,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,51.8,1.33,17.5,,,8.31,,0.16,4.54,6.82,4.21,2.29,0.72,,97.7, , ,57,27,44,31,1347,17,161,6.3, ,1124,35,74,9.3,38,7,2,5.5,0.62,3.3, ,0.6,1.5,0.18,1.2,0.13,3.6,0.44,, ,,, 119,2306,Intermediate lava,Bugat/Baruunburen Formation,49.095795,104.413694,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.3,1.2,16.4,,,8.34,,0.15,2.95,5.27,5.01,2.14,0.73,,97.5, , ,56,22,36,37,1352,16,191,11, ,905,33,74,10,42,8.2,2.3,7,0.75,3.9, ,0.64,1.8,0.18,1.2,0.16,6.2,2.3,, ,,, 120,2309,Intermediate lava,Bugat/Baruunburen Formation,49.103597,104.412655,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.7,1.08,18,,,6.91,,0.09,3.17,7.17,4.03,2.26,0.56,,99, , ,41,21,37,32,1338,15,135,6.5, ,1046,29,62,7.6,32,5.6,1.7,4.8,0.56,3, ,0.53,1.5,0.2,1.1,0.17,4.4,0.77,, ,,, 121,2312,Intermediate lava,Bugat/Baruunburen Formation,49.112003,104.414055,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53.7,1.15,16.6,,,7.76,,0.15,3.79,6.64,5,1.74,0.45,,97, , ,72,28,53,22,1447,14,139,4.7, ,798,37,78,10,39,7.1,1.7,5.3,0.59,3.4, ,0.72,1.5,0.23,1.4,0.22,3.9,0.32,, ,,, 122,2317,Intermediate lava,Bugat/Baruunburen Formation,49.131187,104.415118,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53.3,1.31,17.5,,,8.66,,0.13,2.15,7.81,3.29,2.56,0.69,,97.4, , ,80,25,70,37,1534,13,89,8.3, ,1119,34,72,9.1,38,7,2.1,5.3,0.56,3.4, ,0.64,1.2,0.14,0.8,0.16,1.7,1,, ,,, 123,2404,Intermediate lava,Bugat/Baruunburen Formation,49.111782,104.447448,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54,1.19,17.1,,,7.67,,0.12,3.7,4.94,5.3,2.95,0.62,,97.6, , ,58,25,43,52,997,15,111,7.2, ,1007,30,64,8,33,5.4,1.8,4.9,0.58,3.2, ,0.52,1.3,0.17,1.3,0.18,4,0.61,, ,,, 124,2413,Intermediate lava,Bugat/Baruunburen Formation,49.100512,104.471334,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,52.3,1.28,17.3,,,7.73,,0.09,3.76,7.11,3.89,2.61,0.69,,96.8, , ,48,26,37,35,1471,15,103,8.1, ,1005,32,70,9.3,36,6.5,2,5,0.6,3.2, ,0.52,1.3,0.13,1.1,0.084,3.1,0.9,, ,,, 125,2414,Intermediate lava,Bugat/Baruunburen Formation,49.098261,104.470436,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,52.9,1.32,18.3,,,8.37,,0.15,4.64,3.2,6.09,2.31,0.58,,97.9, , ,42,31,54,28,2003,15,111,5.3, ,1095,32,74,10,41,8.1,2.3,6.4,0.72,3.7, ,0.68,1.8,0.2,1.4,0.22,3,0.37,, ,,, 126,2609,Intermediate lava,Bugat/Baruunburen Formation,49.052694,104.482172,Figure-Point,"Umeda et al., (2022)",257.9 ± 3.8 Ma,"Tsukada et al., (2021)",257.9,3.8,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,56.1,1.41,19.4,,,6.24,,0.11,2,2.64,6.35,3.2,0.57,,98, , ,14,16,18,66,986,22,256,8.9, ,1075,39,87,11,47,8.9,2.3,6.5,0.76,3.9, ,0.69,1.5,0.17,1.2,0.17,6.3,0.89,, ,,, 127,T2-093,Granitoid,Lie khudag,45.32095,106.74459,GPS,"Gerel et al., (2017)",257 ± 5 Ma,,257,5,NI,NI,NI,GPS,73.48,0.06,14.63,,,,1.01,0.025,0.11,0.47,3.96,5.07,0.02,,98.835,<1,<5, , , ,233.6, ,9.4, ,6, , ,6.6,20,1.6,5.3,1.3,0.2,1.1,0.2,1.3,17.3,0.3,1,0.2,1.5,0.2,2,0.9, ,1.7,,, 128,T2-079,Granitoid,buleen bulag,45.44567,105.18558,GPS,"Gerel et al., (2017)",257 ± 4 Ma,,257,4,NI,NI,NI,GPS,67.9,0.41,15.94,,,,3.34,0.06,1.22,2.95,4.07,3.66,0.12,,99.67,8,53, , , ,116, ,16.6, ,5.3, , ,15.2,38.4,3.9,14.8,3,0.7,2.7,0.4,2.6,16,0.6,1.7,0.3,2.1,0.3,5,0.5, ,1.4,,, 129,M581-1,,,48.787575,116.218739,Figure-Point,"Gou et al., (2013)",257 ± 3 Ma,,257,3,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",From Figure,67.19,0.47,14.87,,,,3.52,0.07,1.55,2.78,3.62,4.15,0.15,1.2,99.57,1.61,8.34,3.82,133,1.74,108,88.8,29.6,153,9.53,2,640,18.3,36.4,5.44,21.6,4.83,0.8,5.36,0.85,5.06,15.9,0.98,2.73,0.4,2.57,0.38,4.18,0.78,5.08,0.78,,, 130,M196-1,,,48.541109,116.070516,Figure-Polygon,"Gou et al., (2013)",256 Ma,,256,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",General location from figure - Center of corresponding polygon,73.85,0.21,14.14,,,,1.36,0.02,0.08,0.59,4.85,3.45,0.07,0.93,99.55,7.45,65.5,6.52,4.92,4.92,133,333,19.5,149,9.33,6.16,456,29.2,52.6,5.69,20.1,3.84,0.87,3.45,0.49,2.95,18.1,0.63,1.8,0.29,1.97,0.33,4,0.77,18,2.81,,, 131,14ER16-1,,,53.14972222,121.8716667,GPS,Li et al. (2017a),256 Ma,,256,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,68.64,0.43,15.66,,,,2.48,0.05,0.85,2.7,3.37,4.16,0.09,1.02,99.44,2.89,17,5.51,3.22,2.37,138,362,16,167,12.2,4.25,826,32.4,56,5.98,22.3,4.64,1.03,3.63,0.53,2.91,21.1,0.55,1.46,0.22,1.41,0.21,4.78,1.08,11.2,2.3,,, 132,14ER16-2,,,53.14972222,121.8716667,GPS,Li et al. (2017a),256 Ma,,256,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,69.46,0.4,15.42,,,,2.27,0.04,0.78,2.59,3.35,4.18,0.08,1.1,99.67,2.77,15.7,5.19,2.9,2.04,138,355,14.8,157,10.9,4.15,841,26.7,46.4,5.03,18.8,4.1,0.97,3.39,0.49,2.81,20.1,0.48,1.34,0.2,1.3,0.18,4.36,1,8.33,1.52,,, 133,14ER16-3,,,53.14972222,121.8716667,GPS,Li et al. (2017a),256 Ma,,256,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,68.16,0.4,15.16,,,,3.71,0.06,1.33,3.08,2.61,4.26,0.09,0.86,99.72,12.4,62.8,26.4,7.26,4.52,142,231,32.4,144,7.16,5.33,676,28.7,53.8,6.36,25.9,6.12,1.14,5.66,0.91,5.52,17.2,1.09,3.13,0.46,2.94,0.43,4.2,0.69,8.28,1.89,,, 134,MON-37A,Peraluminous granites,Monhhaan,47.005279,112.678849,Figure-Point,"Zhao et al., (2017)",254.4 ± 3.2 Ma,,254.4,3.2,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,69.77,0.37,15.44,,,,2.54,0.07,0.83,1.4,4.08,3.34, ,1.9,99.81,4, , , , ,82.4,526.8,14.2,177.4,8.4,3.8,840,32.3,59.5,6.13,20.9,3.27,0.79,2.91,0.45,2.34,16.7,0.45,1.39,0.22,1.54,0.24,4.7,0.7,11.5,3.1,,, 135,MON-37B,Peraluminous granites,Monhhaan,47.005279,112.678849,Figure-Point,"Zhao et al., (2017)",254.4 ± 3.2 Ma,,254.4,3.2,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,68.56,0.46,16.04,,,,3.17,0.08,1.07,0.91,5.56,1.93, ,1.9,99.79,6, , , , ,52,606,16,197.2,7.9,4,643,27.2,72.1,5.73,20.1,3.52,0.91,3.03,0.46,2.76,15.7,0.55,1.6,0.26,1.7,0.25,4.9,0.5,10.3,2.2,,, 136,MON-37C,Peraluminous granites,Monhhaan,47.005279,112.678849,Figure-Point,"Zhao et al., (2017)",254.4 ± 3.2 Ma,,254.4,3.2,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,69.67,0.37,15.53,,,,2.55,0.05,0.78,1.57,3.92,3.31, ,1.8,99.79,5, , , , ,69.7,551.3,13,163.8,8,4.5,834,31.8,58.9,6.07,20.5,3.2,0.77,2.6,0.41,2.26,14.9,0.42,1.28,0.19,1.34,0.21,4.2,0.6,12.1,3.1,,, 137,MON-37D,Peraluminous granites,Monhhaan,47.005279,112.678849,Figure-Point,"Zhao et al., (2017)",254.4 ± 3.2 Ma,,254.4,3.2,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,69.55,0.37,15.66,,,,2.56,0.05,0.78,1.58,3.74,3.59, ,1.8,99.77,4, , , , ,72.9,547.9,13.2,157.5,7.6,4.6,953,32,57.1,5.91,19.4,3.07,0.74,2.45,0.4,2.13,15.3,0.4,1.26,0.19,1.25,0.23,4.1,0.7,11.3,2.9,,, 138,MON-37E,Peraluminous granites,Monhhaan,47.005279,112.678849,Figure-Point,"Zhao et al., (2017)",254.4 ± 3.2 Ma,,254.4,3.2,ICP-emission spectrometry and ICP-MS,Whole Rock,"Acme Analytical Laboratories in Vancouver, Canada.",,69.72,0.37,15.5,,,,2.61,0.06,0.83,1.3,4.31,3.05, ,1.9,99.79,4, , , , ,72.4,564.4,13.8,168.2,7.9,5.2,787,31.1,57.8,5.85,19.3,3.14,0.8,2.72,0.4,2.23,15.9,0.43,1.22,0.21,1.51,0.22,4.2,0.6,11.1,2.5,,, 139,T2-108,Granitoid,ogeemer uul,46.23773,106.46135,GPS,"Gerel et al., (2017)",252 ± 4 Ma,,252,4,NI,NI,NI,GPS,63.98,0.9,18.35,,,,4.58,0.34,1.16,2.15,6.73,1.29,0.19,,99.67,11,64, , , ,46.2, ,24.3, ,5.5, , ,26.5,53.4,6.7,27.3,5.5,1.7,4.4,0.7,4.1,18.9,0.8,2.3,0.3,2.5,0.4,4,0.3, ,1.6,,, 140,M030-1,,,48.996276,116.290122,Figure-Point,"Gou et al., (2013)",252 ± 3 Ma,,252,3,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",From Figure,76.27,0.15,12.48,,,,1.82,0.03,0.17,0.41,3.85,4.62,0.07,0.51,100.38,3.09,9.14,2.55,120,1.17,86.3,153,13.2,148,6.43,1.69,521,11.2,20.9,2.35,9.08,1.89,0.61,1.99,0.31,2.01,14.2,0.43,1.34,0.22,1.5,0.24,3.79,0.66,6.9,1.4,,, 141,M543-5,,,48.638428,116.13077,Figure-Point,"Gou et al., (2013)",251 ± 3 Ma,,251,3,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",From Figure,71.3,0.33,14.49,,,,2.41,0.06,0.82,2.04,3.9,4,0.1,0.55,100,7.29,68.6,23.6,107,17.1,129,402,13.9,146,7.91,2.04,740,32,59.1,6,21,3.6,0.92,3.06,0.42,2.4,18.3,0.46,1.33,0.21,1.36,0.21,4,0.88,11,2.51,,, 142,M99-03,Granodiorite,Mongolian granitoid rocks,46.444,99.85633333,GPS,"Jahn et al., (2004)",540 Ma,,250,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,66.5,0.6,16.24,,,,4.11,0.04,1.12,3.17,4.04,3.38,0.2,0.6,100, ,49.4,12.6,6.6,,74.4,680.6,16.73,242,12.8,0.61,1342,52.57,102.66,10.99,36.62,6.15,1.3,4.04,0.62,3.27,19.7,0.62,1.66,0.23,1.46,0.23,5,1.4,5.79,0.47,,, 143,M99-04,Dirotie,Mongolian granitoid rocks,46.484,100.023,GPS,"Jahn et al., (2004)",250 Ma,,250,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,53.16,0.88,17.31,,,,8.25,0.13,5.58,7.54,3.8,1.14,0.31,1.85,99.95, ,161.5,198.2,26.3,57.2,32.1,854,13.47,86,5.02,3.42,621,26.63,54.26,6.48,25.56,5.15,1.53,3.79,0.47,2.71,22,0.51,1.35,0.19,1.08,0.19,2,0.41,3.4,0.89,,, 144,M99-07,Granite,Mongolian granitoid rocks,46.8225,100.0501667,GPS,"Jahn et al., (2004)",250 Ma,,250,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,66.07,0.6,16.12,,,,3.95,0.05,1.36,3.02,4.02,3.78,0.2,0.74,99.91, ,48,28.2,7.2,7.9,159,421.9,10.5,192,9.68,15.1,813.3,35.94,68.93,7.44,27.02,4.87,1.15,3.48,0.45,2.17,23.5,0.32,0.95,0.13,0.75,0.13,5.1,1.12,19.56,3.75,,, 145,M99-09,Granite,Mongolian granitoid rocks,46.8275,99.97388889,GPS,"Jahn et al., (2004)",250 Ma,,250,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,67.3,0.54,15.83,,,,3.57,0.04,1.07,2.98,3.69,3.97,0.19,0.76,99.94, ,34.5,21.4,5.9,6.1,124,470.5,8.2,164,8.21,13.8,1314,30.48,57.01,6.06,22.64,3.95,1.3,3.02,0.36,1.82,21.1,0.27,0.71,0.1,0.54,0.07,4.7,1.08,11.28,3.58,,, 146,M99-13,Micro-granite,Mongolian granitoid rocks,46.63783333,100.2946667,GPS,"Jahn et al., (2004)",250 Ma,,250,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,72.6,0.42,14.05,,,,3,0.06,0.69,1.21,4.51,3.02,0.12,0.69,100.37, ,35.7,18.1,3.2,,82.3,201.4,32.61,293,10.28,2.89,619.7,33.96,73.3,8.3,32.89,6.1,1.07,5.75,0.9,5.38,20.6,1.13,3.36,0.56,4.01,0.62,7,0.92,10.43,2.53,,, 147,D0907,Granite ,,45.872485,106.39542,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,70.75,0.471,13.77,3.43,,,,0.055,1.16,2.49,3.44,3.44,0.09,1.47,100.6,8, ,30,7,20,128,258,26,227,6.5,4.8,665,13.2,34.8,4.8,19.5,4.54,0.75,4.1,0.7,4.31,15,0.84,2.49,0.384,2.73,0.429,7.1,0.78,9.42,2.24,,, 148,D0914,Granodiorite,,45.670007,105.59075,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,65.23,0.61,16.14,4.25,,,,0.09,1.15,2.93,4.22,3.99,0.15,1.02,99.94,, ,,,,124,455,17.8,268,9.2,2,759,32,63,6.9,25,4.1,0.9,3.4,0.48,2.8,,0.6,1.74,0.26,1.88,0.28,6.4,0.65,15.7,1.25,,, 149,D0917,Granodiorite,,45.80505,105.367723,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,68.59,0.464,14.11,4.09,,,,0.045,1.37,2.93,3.79,3.07,0.15,1.22,99.81,5, ,50,8,20,98,635,7.3,139,3.3,4.3,614,24.8,42.8,4.41,14.9,2.53,0.748,1.76,0.23,1.33,18,0.25,0.68,0.105,0.7,0.113,3.8,0.43,11.1,1.68,,, 150,D0920,Granodiorite,,46.008766,105.219071,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,63.53,0.506,16,4.95,,,,0.085,2.59,5.31,3.45,1.91,0.11,1.62,100.1,14, ,50,14,20,38,478,12.8,70,1.4,1.3,592,12.1,24.4,2.83,10.6,2.23,0.673,2.29,0.36,2.13,16,0.44,1.26,0.183,1.31,0.204,1.9,0.18,3.87,0.68,,, 151,D0922-1,Granodiorite,,45.984926,105.235595,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,64.19,0.514,15.32,5.12,,,,0.083,2.57,5.49,3.09,2.06,0.1,1.61,100.2,14, ,40,15,20,49,427,12.4,147,1.7,1.9,643,16.7,30.6,3.18,11.7,2.33,0.649,2.26,0.33,2.03,16,0.43,1.21,0.187,1.35,0.22,3.8,0.21,3.49,0.71,,, 152,D0922-2,Granodiorite,,45.984926,105.235595,Figure-Point,"Gambat et al., (2022)",250,,250,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,64.83,0.834,17.36,4.79,,,,0.107,1.19,3.36,4.64,2.01,0.16,1.52,100.8,15, ,20,7,20,77,238,33.4,261,6.4,6.5,505,30.5,67.6,8.22,31.7,6.49,1.79,5.94,0.98,5.86,23,1.15,3.37,0.519,3.4,0.524,6.7,0.43,7.46,2.43,,, 153,T2-113,Granitoid,torot uul,45.78618,104.99158,GPS,"Gerel et al., (2017)",247 ± 3 Ma,,247,3,NI,NI,NI,GPS,58.98,0.76,18.66,,,,6.51,0.112,2.98,5.37,4.29,2.54,0.2,,100.402,14,127, , , ,68.5, ,16.6, ,4.4, , ,21.6,44.7,5.6,21.2,4.2,1,3.3,0.5,2.8,18.6,0.6,1.6,0.3,1.6,0.3,4,0.3, ,1.2,,, 154,D0912,Dacite,Ikh khad volcanic,45.733306,105.642497,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,63.01,0.796,16.15,5.48,,,,0.104,1.18,2.97,4.33,2.77,0.17,1.36,98.33,14, ,20,7,20,85,228,30.8,223,5.1,6.6,804,32.3,69.2,8.38,31.7,6.51,1.82,5.99,0.94,5.59,21,1.12,3.2,0.452,3.08,0.515,5.5,0.42,6.91,2.19,,, 155,D0912-2,Dacite,Ikh khad volcanic,45.737029,105.571106,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,61.1,1.006,15.69,6.76,,,,0.126,1.14,2.97,5.22,2.02,0.44,3.99,100.4,21, ,20,7,20,27,779,27.2,118,2.6,1.2,852,19,43,5.69,24.5,5.64,1.96,5.76,0.84,4.87,18,0.98,2.77,0.391,2.55,0.404,3.4,0.18,1.79,0.76,,, 156,S-41,Dacite,Ikh khad volcanic,45.542629,105.373579,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,64.92,0.586,16.26,5.63392,,,,0.07,2.19,1.85,3.37,2.74,0.209,1.77,99.59892,, ,,,,,150,15,300,10,,150,,,,,,,,,,,,,,1.5,,,,,,,, 157,S-47,Dacite,Ikh khad volcanic,45.572389,105.200989,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,63.6,0.956,15.98,8.45474,,,,0.15,0.89,2.55,3.88,3.19,0.295,2.05,101.99574,, ,,,,,200,10,150,7,,500,,,,,,,,,,,,,,1,,,,,,,, 158,S-48,Andesite,Ikh khad volcanic,45.552018,105.126245,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,58.6,1.133,15.52,8.7235,,,,0.036,1.27,3.49,2.75,5.56,0.349,2.34,99.7715,, ,,,,,200,7,70,7,,300,,,,,,,,,,,,,,1,,,,,,,, 159,9706,Andesite,Ikh khad volcanic,45.888507,105.487308,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,52.38,1.494,23.06,14.35097,,,,0.99,1.69,2.35,0.52,0.26,0.338,1.78,99.21297,, ,,,,,200,15,150,5,,200,,,,,,,,,,,,,,1.5,,,,,,,, 160,9729,Andesite,Ikh khad volcanic,45.637756,105.565696,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,66.57,0.578,16.24,6.0328,,,,0.103,0.94,3.01,3.3,3.29,0.193,1.4,101.6568,, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 161,9732,Rhyolite,Ikh khad volcanic,45.481468,105.715087,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,67.89,0.441,15.56,5.40633,,,,0.088,1.14,2.23,3.79,2.93,0.282,1.4,101.15733,, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 162,9742,Basaltic andesite,Ikh khad volcanic,45.60257,105.379667,Figure-Point,"Gambat et al., (2022)",247,,247,,"ICPMS, XRF",Whole rock,"Concentrations of major and trace elements were measured at Activation Laboratories Ltd., Canada, using Code 4Litho Lithogeochemistry Package with fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) and inductively coupled plasma mass spectroscopy (FUS-ICPMS), respectively. Concentrations of major oxides were determined by the X-ray fluorescence (XRF) method using an Applied Research Laboratories ARL-9900-XP, following the standard procedure.",,55.69,1.098,17.94,9.52831,,,,0.176,2.88,6.82,3.15,1.41,0.549,,99.24131,, ,,,,,150,7,150,7,,300,,,,,,,,,,,,,,1,,,,,,,, 163,T2-122,Granitoid,borgiot nuur,45.83789,105.7265,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,67.54,0.54,17.11,,,,3.62,0.092,1.24,2.68,4.74,3.34,0.13,,101.032,8,60, , , ,105.3, ,17.5, ,5.2, , ,24,47.4,5.8,20.6,3.8,1,3,0.5,2.8,17.7,0.6,1.7,0.3,1.9,0.3,5,0.4, ,1.1,,, 164,T2-123,Granitoid,borgiot nuur,45.92062,105.46871,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,69.57,0.3,16.56,,,,2.61,0.062,0.74,2.93,4.58,2.08,0.09,,99.522,6,30, , , ,47.6, ,10.3, ,2.8, , ,12.2,25.6,2.7,9.3,1.7,0.8,1.6,0.3,1.7,15.4,0.4,1,0.2,1.4,0.2,3,0.2, ,0.7,,, 165,T2-124,Granitoid,borgiot nuur,45.58844,105.5008,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,77.59,0.11,13.24,,,,0.71,0.039,0.07,0.44,3.84,4.5,0.01,,100.549,3,<5, , , ,155.4, ,20.7, ,6.9, , ,16.8,43.5,4,14.2,2.8,0.3,2.6,0.5,2.9,13.2,0.7,2.2,0.4,2.8,0.4,3,0.7, ,1.7,,, 166,T2-125,Granitoid,borgiot nuur,45.76447,105.53455,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,66.57,0.62,17.45,,,,3.28,0.063,1.09,2.46,4.55,4.71,0.15,,100.943,7,54, , , ,168.6, ,18.3, ,7.6, , ,27.5,55.4,6.7,24.2,4.6,1,4,0.6,3.2,18,0.6,1.9,0.3,2.2,0.3,8,0.6, ,1.8,,, 167,T2-126,Granitoid,borgiot nuur,45.56114,105.33811,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,63.4,0.6,16.62,,,,3.95,0.088,1.44,2.9,4.57,3.82,0.13,,97.518,8,72, , , ,134.9, ,19.2, ,7.6, , ,33.5,65.3,7.5,25.8,4.3,1,3.8,0.5,3.2,18.4,0.6,1.9,0.3,2.2,0.3,6,0.6, ,2.8,,, 168,T2-127,Granitoid,borgiot nuur,45.70731,105.3222,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,65.02,0.64,16.77,,,,3.92,0.068,1.56,3.24,4.22,3.74,0.19,,99.368,8,78, , , ,127.8, ,12.9, ,5.6, , ,31.6,60.6,6.9,24.6,4.2,1.2,3.3,0.4,2.2,19.8,0.4,1.3,0.2,1.4,0.2,6,0.4, ,1.8,,, 169,T2-110,Granitoid,borgiot nuur,45.63013,105.17148,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,68.93,0.32,16.4,,,,2.48,0.077,0.71,2.32,5.12,2.1,0.09,,98.547,3,24, , , ,56.1, ,10.1, ,3.4, , ,18.6,33,3.6,12.6,2,0.7,1.8,0.3,1.6,16.6,0.3,1,0.2,1.2,0.2,4,0.3, ,0.7,,, 170,T2-111,Granitoid,borgiot nuur,45.71549,105.09531,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,73.15,0.4,15.47,,,,2.38,0.054,0.55,1.05,4.11,3.95,0.05,,101.164,7,23, , , ,100.6, ,24.9, ,6.3, , ,25.4,57.8,6.4,24.8,4.8,0.9,4.5,0.7,4.1,14.7,0.9,2.7,0.4,3.1,0.5,7,0.5, ,1.4,,, 171,T2-114,Granitoid,borgiot nuur,45.78028,105.29677,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,74.89,0.12,13.59,,,,1,0.015,0.19,0.92,3.14,5.04,0.04,,98.945,2,15, , , ,115.1, ,7.7, ,2.8, , ,16.7,37.4,3,9.1,1.2,0.3,1.3,0.2,1.2,7.6,0.2,0.8,0.1,1.1,0.2,1,0.4, ,0.9,,, 172,T2-086,Granitoid,shand khudag,45.68908,106.78416,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,71.22,0.25,14.88,,,,1.75,0.035,0.42,1.38,3.65,5.52,0.02,,99.125,4,20, , , ,199.5, ,11.9, ,8.1, , ,32.2,62.3,6.4,20.1,3.6,0.7,2.5,0.4,2.2,15.3,0.4,1.5,0.3,1.8,0.3,5,0.9, ,3,,, 173,T2-087,Granitoid,shand khudag,45.87431,106.73462,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,75.3,0.13,12.57,,,,0.86,0.01,0.06,0.45,3.37,5.21,0.02,,97.98,3,9, , , ,157.5, ,7.9, ,6.7, , ,37.5,53.5,4.4,11.6,1.3,0.3,1.5,0.2,1,15.8,0.2,0.8,0.2,1.3,0.3,3,0.7, ,1.6,,, 174,T2-088,Granitoid,shand khudag,45.92372,106.66698,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,76.3,0.13,12.46,,,,0.8,0.036,0.16,0.71,3.74,4.03,0.02,,98.386,2,7, , , ,99.6, ,8.9, ,4.4, , ,25.3,44.8,4.9,15.8,2.8,0.4,2,0.3,1.4,12.1,0.3,0.9,0.1,1.2,0.2,2,0.5, ,0.9,,, 175,T2-094,Granitoid,Lie khudag,45.30625,106.88157,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,73.07,0.22,14.07,,,,2.03,0.038,0.16,0.35,3.07,5.76,0.04,,98.808,2,7, , , ,199, ,17.6, ,13.2, , ,100.1,197.2,18.1,54.5,8.5,0.7,5.5,0.7,3.4,17.8,0.6,1.7,0.2,1.7,0.3,5,0.8, ,3.1,,, 176,T2-095,Granitoid,Lie khudag,45.36298,106.81992,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,71.83,0.16,15.29,,,,1.81,0.028,0.17,0.68,4.15,5.22,<0.01,,99.338,2,<5, , , ,196.9, ,28.2, ,13.8, , ,64.1,114.9,13.3,45.5,7.8,0.4,6.4,0.9,5,20.8,0.9,2.6,0.4,2.4,0.4,6,1.1, ,3.3,,, 177,T2-112,Granitoid,torot uul,45.78214,104.89691,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,71.57,0.21,14.6,,,,1.4,0.039,0.37,1.11,4.38,3.56,0.05,,97.289,3,14, , , ,97.8, ,11.5, ,4.3, , ,24.6,46.5,4.5,14.9,2.5,0.6,2,0.3,1.7,13.9,0.3,1.1,0.2,1.5,0.2,2,0.4, ,1.8,,, 178,T2-082,Granitoid,zavgiin khyar,45.63061,105.81097,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,67.64,0.53,15.69,,,,3.74,0.061,1.37,2.52,4.05,4.4,0.13,,100.131,18,70, , , ,157, ,18.9, ,7, , ,31.4,60,6.7,23.9,4.6,1,4,0.5,3.2,20.6,0.7,2,0.3,2.2,0.3,5,0.7, ,2.5,,, 179,T2-121,Granitoid,zavgiin khyar,45.8483,105.94312,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,73.48,0.24,12.95,,,,2.04,0.055,0.28,0.83,4.93,4.04,0.05,,98.895,6,12, , , ,118.2, ,27, ,6.9, , ,32.3,63.2,7.3,26.7,5.1,0.6,4.3,0.6,4.1,18.8,0.9,2.7,0.5,3,0.5,6,0.5, ,1.7,,, 180,T2-083,Granitoid,Mandalgovi,45.76867,106.29583,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,68.81,0.43,14.87,,,,2.65,0.078,0.75,1.98,4.36,3.87,0.14,,97.938,5,39, , , ,103.7, ,15.9, ,5.9, , ,26.6,49.6,5.6,19.5,3.3,0.9,2.9,0.4,2.5,18.3,0.5,1.7,0.2,1.9,0.3,5,0.5, ,1.3,,, 181,T2-084,Granitoid,Mandalgovi,45.74658,106.46936,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,67.23,0.36,15,,,,2.24,0.044,0.67,1.7,4.2,4.73,0.2,,96.374,4,34, , , ,138.9, ,12.1, ,8.2, , ,31.4,58.9,6.7,22.7,3.6,0.9,2.8,0.4,2.1,17.4,0.4,1.2,0.2,1.5,0.2,5,0.9, ,1.6,,, 182,T2-085,Granitoid,Mandalgovi,45.64604,106.77065,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,63.5,0.57,16.44,,,,3.89,0.106,1.14,2.78,4.99,2.9,0.19,,96.506,7,56, , , ,63.3, ,19.1, ,5.7, , ,29.5,53.8,6.3,22.6,4,1.2,3.7,0.5,3,18.7,0.6,1.7,0.3,2.1,0.4,6,0.4, ,1,,, 183,T2-089,Granitoid,Mandalgovi,45.85517,106.45992,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,66.08,0.61,17.39,,,,3.65,0.068,1.58,2.83,4.56,4.36,0.08,,101.208,8,65, , , ,137.3, ,20.5, ,7.6, , ,32.3,65.2,7.7,26.9,4.9,0.8,3.8,0.6,3.4,19.8,0.7,2.1,0.3,2.5,0.4,8,0.6, ,3,,, 184,T2-101,Granitoid,Mandalgovi,45.57272,106.37307,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,75.73,0.09,13.22,,,,0.61,0.038,0.06,0.33,4.19,4.25,<0.01,,98.518,1,<5, , , ,168.7, ,11.7, ,10.5, , ,19.2,39,3.8,11.7,2.1,0.2,1.7,0.3,1.7,6.5,0.4,1.3,0.2,1.7,0.3,2,0.9, ,0.5,,, 185,T2-102,Granitoid,Mandalgovi,45.63581,106.49756,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,75.43,0.2,14.64,,,,1.16,0.047,0.11,0.28,4.5,4.98,0.02,,101.367,3,<5, , , ,147.9, ,12.4, ,10.5, , ,28.4,79.7,6,18.6,3.3,0.4,2.4,0.4,2.3,17.3,0.5,1.5,0.3,2.2,0.3,5,0.9, ,1.8,,, 186,T2-118,Granitoid,Mandalgovi,45.86845,106.34264,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,72.95,0.13,14.5,,,,0.85,0.038,0.18,0.74,4.35,4.02,0.04,,97.798,2,6, , , ,117, ,10, ,4.7, , ,17.5,32.2,3.3,10.7,1.9,0.3,1.5,0.2,1.5,14.5,0.3,1,0.2,1.4,0.2,2,0.5, ,0.9,,, 187,T2-119,Granitoid,Mandalgovi,45.94489,106.20837,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,71.84,0.15,15.56,,,,1.16,0.055,0.23,1.25,4.71,3.64,0.03,,98.625,2,11, , , ,120.2, ,10.9, ,5, , ,19.9,35.5,3.8,11.9,1.9,0.5,1.7,0.3,1.6,15.1,0.3,1.1,0.2,1.4,0.2,2,0.6, ,1.2,,, 188,T2-072,Granitoid,buleen bulag,45.27895,105.73845,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,38.58,0.06,18.46,,,,8.97,0.123,15.49,9.68,0.94,0.11,<0.01,,92.413,3,12, , , ,2.6, ,<0.5, ,<0.5, , ,1.9,2.5,0.3,1.3,0.2,0.3,0.2,<0.1,<0.1,12.6,<0.1,<0.1,<0.1,<0.1,<0.1,<1,<1, ,<1,,, 189,T2-074,Granitoid,buleen bulag,45.38352,105.46434,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,74.32,0.11,12.74,,,,0.86,0.034,0.1,0.39,3.84,4.64,<0.01,,97.034,3,<5, , , ,103.2, ,5.3, ,4, , ,14.2,40.6,2.8,9.4,1.4,0.4,1,0.1,1,14.4,0.2,0.6,0.1,1,0.2,2,0.4, ,0.6,,, 190,T2-075,Granitoid,buleen bulag,45.36891,105.38243,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,73.28,0.17,14.09,,,,1.02,0.047,0.15,0.87,4.39,4.51,0.03,,98.557,3,10, , , ,102.7, ,11.7, ,4.6, , ,19.9,39,4.3,14.7,2.5,0.7,2,0.3,1.8,16.3,0.4,1.2,0.2,1.4,0.2,3,0.4, ,0.7,,, 191,T2-076,Granitoid,buleen bulag,45.32722,105.28821,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,75.31,0.13,12.71,,,,0.85,0.035,0.13,0.41,4.63,3.68,0.03,,97.915,4,<5, , , ,91, ,15.6, ,5.3, , ,23.6,50.4,4.2,13.7,2.6,0.6,2.4,0.4,2.6,18.2,0.6,1.9,0.3,2.4,0.4,3,0.5, ,0.9,,, 192,T2-077,Granitoid,buleen bulag,45.24547,105.16898,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,73.69,0.15,13.86,,,,1,0.031,0.25,1.12,3.94,4.56,0.06,,98.661,2,10, , , ,109, ,7.3, ,4.6, , ,21.3,39.3,4.3,13.9,2.3,0.6,1.7,0.2,1.3,18,0.3,0.8,0.1,0.8,0.1,3,0.4, ,0.7,,, 193,T2-078,Granitoid,buleen bulag,45.44601,105.08567,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,50,0.66,25.63,,,,5.15,0.069,2.94,12.58,2.52,0.92,0.13,,100.599,14,125, , , ,21.6, ,10.4, ,2.7, , ,12.8,27.2,3.4,14.8,2.9,0.9,2.4,0.3,1.9,20.3,0.4,1.1,0.1,1.1,0.1,2,0.2, ,0.5,,, 194,T2-080,Granitoid,buleen bulag,45.46831,105.23919,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,74.6,0.12,12.4,,,,1,0.025,0.11,0.5,3.25,5.25,<0.01,,97.255,3,<5, , , ,239.9, ,20.4, ,7.8, , ,31.6,70.1,6.1,19.9,3.5,0.3,3.1,0.5,3.2,14.6,0.7,2.2,0.4,2.9,0.5,4,1.1, ,1.9,,, 195,T2-081,Granitoid,buleen bulag,45.50595,105.4929,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,79.3,0.15,12.2,,,,0.84,0.019,0.05,0.34,3.55,4.98,0.01,,101.439,2,10, , , ,125.3, ,19.4, ,11.6, , ,18.1,37.3,3.9,12.6,2.4,0.3,2.1,0.4,2.7,15.8,0.6,2.1,0.4,2.9,0.5,4,1.2, ,2.2,,, 196,T2-096,Granitoid,bilih uul,45.49912,106.77777,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,63.17,0.7,16.39,,,,7.84,0.189,0.24,1.73,5.45,5.54,0.07,,101.319,12,<5, , , ,171.3, ,43.5, ,18.1, , ,59.4,117.9,14.4,53.7,10.2,0.7,8.8,1.3,7.9,28.2,1.6,4.5,0.7,5.1,0.8,8,1.1, ,2.8,,, 197,T2-097,Granitoid,bilih uul,45.46245,106.75727,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,48.82,1.13,23.17,,,,8.15,0.115,4.09,9.98,3.4,1.47,0.49,,100.815,17,162, , , ,39, ,16.8, ,5.8, , ,23,46.9,6,23.9,4.7,1.5,4,0.5,2.8,19.5,0.6,1.7,0.3,1.7,0.2,2,0.3, ,0.4,,, 198,T2-107,Granitoid,ogeemer uul,46.25329,106.53794,GPS,"Gerel et al., (2017)",236 - 257 Ma,,246.5,10.5,NI,NI,NI,GPS,74.77,0.25,14.56,,,,1.48,0.048,0.35,0.92,4.22,3.89,0.05,,100.538,5,11, , , ,111.1, ,29.4, ,9.1, , ,45.8,89.8,10,35.9,6.8,1.4,5.5,0.8,5.1,13.7,1,3.2,0.5,3.4,0.5,4,0.8, ,1.5,,, 199,NEEN 062505,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,48.898547,103.678032,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,65,0.69,15.9,,,4.06,,0.07,1.59,2.02,4.8,4.02,0.2,,98.8, , ,32,8,42,57,1208,18,290,9, ,875,28,67,8.5,23,4.5,1.3,3.8,0.66,3.2, ,0.63,1.8,0.28,1.6,0.1,,,22, ,,, 200,NEEN 062507,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,48.898547,103.678032,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53,1.46,18.7,,,8.84,,0.14,6.74,3.96,4.63,1.92,0.42,,99.7, , ,101,30,89,55,1221,14,223,8, ,869,58,118,14,36,,1.4,4.8,0.76,3.5, ,0.7,2.3,0.38,,0.25,,,5, ,,, 201,NEEN 72603 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.204968,104.022816,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,58.4,1.11,18.3,,,5.16,,0.09,2.08,2.95,6.05,3.3,0.47,,98, , ,30,15,43,93,1039,21,378,10, ,925,42,89,11,41,6.9,1.7,5.3,0.63,3.6, ,0.65,1.8,0.25,1.7,0.24,,,17, ,,, 202,NEEN 72504 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.195622,103.979231,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,68.4,0.37,15.9,,,2.76,,0.05,1.17,1.09,4.53,3.98,0.13,,98.3, , ,17,6,19,94,574,8,145,4, ,1556,,,,,,,,,, ,,,,,,,,11, ,,, 203,NEEN 72505 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.198435,103.987023,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,68.3,0.4,15.8,,,2.87,,0.04,0.96,1.39,5.66,2.86,0.17,,98.4, , ,16,3,17,59,770,7,170,3, ,747,,,,,,,,,, ,,,,,,,,5, ,,, 204,NEEN 72508 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.202528,103.992942,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.3,1.25,17.4,,,7.5,,0.12,4.52,5.26,4.18,2.46,0.34,,98.3, , ,50,25,45,54,1217,19,170,5, ,829,,,,,,,,,, ,,,,,,,,7, ,,, 205,NEEN 72513 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.210672,104.003784,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54.6,1.33,17.2,,,7.88,,0.12,5.2,5.61,4.02,2.53,0.63,,99.1, , ,128,28,150,52,1453,17,182,8, ,954,,,,,,,,,, ,,,,,,,,8, ,,, 206,NEEN 72515 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.213012,104.008876,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,54.8,1.1,17.1,,,7.41,,0.12,6.03,5.5,4.61,1.8,0.45,,98.9, , ,267,33,220,35,1600,17,188,6, ,827,,,,,,,,,, ,,,,,,,,6, ,,, 207,NEEN 72520 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.219656,103.985634,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.8,1.14,17.5,,,7.14,,0.12,3.98,6.37,3.98,2.31,0.46,,98.8, , ,81,24,87,48,1410,14,171,6, ,729,,,,,,,,,, ,,,,,,,,7, ,,, 208,NEEN 72523 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.215522,103.975989,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55.8,1.16,16.8,,,7.05,,0.12,4.27,5.94,3.91,2.62,0.38,,98.1, , ,113,24,103,55,1137,17,204,7, ,728,,,,,,,,,, ,,,,,,,,9, ,,, 209,HHEN 72501 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.236001,103.974596,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,57.3,1.27,17.2,,,6.84,,0.14,3.91,5.46,5.27,1.76,0.38,,99.6, , ,85,24,89,69,819,10,127,4, ,344,,,,,,,,,, ,,,,,,,,11, ,,, 210,HHEN 72512 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.232861,103.970849,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,64,0.7,16.7,,,4,,0.05,1.5,3.3,5.09,2.46,0.65,,98.5, , ,30,6,31,58,872,9,234,5, ,696,,,,,,,,,, ,,,,,,,,10, ,,, 211,HHEN 72513 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.230718,103.968455,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,66.2,0.75,16,,,3.79,,0.06,1.56,3.32,4.84,2.6,0.42,,99.5, , ,35,9,32,47,817,11,213,6, ,754,,,,,,,,,, ,,,,,,,,10, ,,, 212,HHEN 72515 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.229648,103.967084,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,59.4,1.01,17.5,,,5.73,,0.11,3.05,5.29,4.09,2.67,0.32,,99.2, , ,71,19,70,55,1532,12,188,6, ,906,,,,,,,,,, ,,,,,,,,7, ,,, 213,HHEN 72517 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.229678,103.964792,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,57.9,1.29,17.7,,,6.27,,0.09,3.2,5.05,5.1,1.76,0.38,,98.7, , ,30,20,37,36,879,14,178,6, ,620,,,,,,,,,, ,,,,,,,,10, ,,, 214,KDEN 62503 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.226906,103.955884,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,53.4,1.15,19.6,,,7.21,,0.11,2.88,6.52,5.45,1.66,0.32,,98.4, , ,30,20,32,62,1548,15,196,6, ,892,24,53,6.8,15,2.5,0.58,2.4,0.35,2.1, ,0.39,1.3,0.2,1.8,0.17,,,7, ,,, 215,KDEN 72503 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.237864,103.968512,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,64.1,0.82,16.5,,,3.8,,0.06,1.7,2.99,5.2,2.38,0.22,,97.8, , ,30,12,37,44,833,11,228,5, ,628,,,,,,,,,, ,,,,,,,,11, ,,, 216,KDEN 72511 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.228188,103.957775,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,69,0.37,15.2,,,1.79,,0.04,0.84,2.53,5.35,2.63,0.11,,97.8, , ,19,3,22,42,796,6,125,3, ,443,,,,,,,,,, ,,,,,,,,5, ,,, 217,KDEN 72503 ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.226906,103.955884,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,57,1.06,18.3,,,6.7,,0.11,3.26,6.28,4.07,2.09,0.58,,99.5, , ,27,20,42,39,1431,15,182,7, ,799,,,,,,,,,, ,,,,,,,,9, ,,, 218,TKEN 62503 A ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.201988,104.022667,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,65.5,0.76,16.8,,,3.37,,0.07,1.55,2.52,4.88,3.68,0.22,,99.3, , ,45,6,56,94,575,8,214,3, ,838,15,28,3.3,13,,0.6,1.9,0.28,1.3, ,0.34,1.2,0.16,,0.21,,,14, ,,, 219,TKEN 62503B ,Granodiorite and diorite,Selenge plutonic rock complex- Erdenet North,49.201988,104.022667,Figure-Point,"Umeda et al., (2022)",250-243 Ma,"Munkhtsengel et al., (2007b)",246.5,3.5,XRF and ICPMS,Whole rock,"Major element concentration using X-ray fluorescence (Rigaku Primus II ZSX equipped with Rh X-ray tube, 50 kV, 60 mA) at Nagoya University of Japan and Mongolian University of Science and Technology. Trace elements Trace elements and rare earth elements (REE) were analyzed using ICPMS (quadrupole type ICP-MS; Agilent 7700x) at Nagoya University",,55,1.06,17.1,,,7.37,,0.12,9.24,3.14,2.22,1.47,0.45,,97.2, , ,66,23,81,30,2572,12,193,5, ,383,36,71,8.1,14,,0.82,2,0.27,1.2, ,0.31,0.85,0.11,,0.13,,,18, ,,, 220,1839,Gabbro,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,50.2,1.42,18.5,4.56,5.44,,,0.19,4.76,8.33,4.07,0.73,0.28,1.05,99.53, , , , , , , ,, , , , ,13,29,,19,4.2,0.97,3.1, ,3.4, ,0.85,2.7, ,2.4,0.32, , , , ,,, 221,2503,Diorite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,52.82,0.81,15.5,4.74,2.74,,,0.13,6.3,9.7,3.97,0.96,0.2,1.58,9.45, , , , , , , ,, , , , ,16,27,,17,2.8,0.87,3.5, ,2.8, ,0.8,1.6, ,1.8,0.22, , , , ,,, 222,2094,Granite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,67.2,0.47,15.87,1.94,1.52,,,0.05,1.11,2.65,4.69,3.75,0.17,0.31,99.73, , , , , , , ,, , , , ,38,60,6.6,30,3.1,0.8,3.6, ,, ,,, ,1,, , , , ,,, 223,2068,Leucogranite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,70.33,0.36,14.55,2.12,1.07,,,0.06,0.75,1.72,4.32,4.19,0.12,0.19,99.78, , , , , , , ,, , , , ,34,54,5,23,2.7,0.34,3.9, ,3.1, ,,, ,2.6,0.39, , , , ,,, 224,2502,Leucogranite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,74.37,0.19,12.5,1.58,1.22,,,0.04,0.25,0.66,3.7,3.61,0.06,0.21,98.39, , , , , , , ,, , , , ,33,54,4.8,21,3.1,0.54,3.2, ,2.2, ,0.6,, ,2.8,, , , , ,,, 225,2502/4,Leucogranite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,73.74,0.1,13,1.71,0.51,,,0.09,0.3,0.6,4.29,4.57,0.06,0.39,99.36, , , , , , , ,, , , , ,35,51,2.6,21,2.6,0.4,3.5, ,, ,,, ,2.2,, , , , ,,, 226,1095,NI,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,,,,,,,,,,,,,,,, , , , , , , ,, , , , ,22,26,4.2,19,2.6,0.91,1.9, ,1.7, ,0.4,1.25, ,0.85,0.13, , , , ,,, 227,1846,Granodiorite,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,63.74,0.7,17.76,2.01,2.51,,,0.06,1.79,3.25,5.62,2.73,0.18,0.42,100.77, , , , , , , ,, , , , ,27,42,,24,2.7,0.86,2.3, ,1.6, ,,, ,0.7,0.09, , , , ,,, 228,1873,Granite porphyry,Selenge complex granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",243 - 249 Ma,,246,3,NI,NI,NI,From figure,72.2,0.38,14.3,1.01,1.41,,,0.07,0.28,0.85,5.6,3.24,0.06,0.43,99.83, , , , , , , ,, , , , ,19,32,,15,3.6,0.81,1.95, ,1.6, ,,, ,,0.85, , , , ,,, 229,14ER16-4,,,53.14972222,121.8716667,GPS,Li et al. (2017a),256 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,70.2,0.41,15.15,,,,2.4,0.04,0.81,2.36,3.29,3.97,0.09,0.98,99.7,2.75,16,5.34,3.02,1.89,127,359,14.9,165,11,3.7,721,19.7,36.6,4.17,16.6,3.85,0.95,3.35,0.49,2.76,19.9,0.51,1.37,0.21,1.24,0.19,4.72,1.02,7.6,1.46,,, 230,14ER9-1,,,52.4025,123.6091667,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,57.37,0.92,17.21,,,,6.1,0.09,3.62,5.76,4,3.1,0.3,1.42,99.89,13.2,128,78.9,17.6,36.7,110,1017,19.3,230,13.2,3.08,1035,42.1,80.2,9,35.9,6.4,1.79,4.99,0.69,3.73,21.1,0.69,1.96,0.29,1.87,0.28,5.98,0.91,9.4,3.2,,, 231,14ER9-2,,,52.4025,123.6091667,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,56.69,0.95,16.91,,,,6.24,0.09,3.76,5.99,3.82,3.18,0.32,1.72,99.67,13.4,130,81.6,18,38.7,117,977,19.5,149,11,2.8,1098,44.4,86.6,9.58,38,7.06,1.82,5.09,0.69,3.92,20.9,0.71,1.98,0.28,1.82,0.27,4.04,0.75,10.3,2.46,,, 232,14ER9-3,,,52.4025,123.6091667,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,56.44,0.96,17.26,,,,6.13,0.09,3.8,5.85,3.79,3.08,0.3,2.14,99.84,13.1,129,84.6,18.2,40,113,967,18.7,129,10.5,2.17,1004,40.5,79.1,8.87,35.9,6.79,1.79,4.82,0.67,3.74,21,0.67,1.86,0.27,1.61,0.23,3.54,0.69,10.3,2.46,,, 233,15ER9-2,,,51.87888889,120.9194444,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,62.06,0.7,18.68,,,,3.63,0.05,1.64,4.1,4.58,2.77,0.24,1.26,99.71,5.64,53.1,16.8,7.13,5.23,69.2,807,12.4,241,10,1.86,1157,32.2,66.2,7.83,29.9,5.52,1.4,3.94,0.5,2.5,25,0.45,1.11,0.16,1.02,0.14,5.82,0.74,5.22,2.23,,, 234,15ER9-3,,,51.87888889,120.9194444,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,62.18,0.77,18.35,,,,3.83,0.05,1.72,4.11,4.58,2.89,0.25,1.22,99.95,6.22,55.3,18.1,7.36,5.19,68.1,774,13.9,249,11.4,1.83,1177,43.5,80.6,9.48,35.5,6.47,1.51,4.55,0.57,2.94,24.7,0.51,1.26,0.19,1.14,0.16,6.15,0.87,7.24,2.28,,, 235,15ER9-5,,,51.87888889,120.9194444,GPS,Li et al. (2017a),246 Ma,,246,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,61.54,0.82,18.3,,,,4.09,0.06,1.81,4.24,4.48,2.83,0.27,1.26,99.7,6.83,60.7,19,7.94,6.26,73.9,784,15.1,256,12,2.05,1126,40.1,80.8,9.56,36.3,6.49,1.61,4.76,0.61,3.24,25.5,0.53,1.41,0.2,1.26,0.17,6.12,0.93,6.85,2.51,,, 236,1040b,Monzogabbros,Shivota,49.110064,104.285654,Figure-Polygon,"Berzinga et al., (2009)",239 - 250 Ma,,244.5,5.5,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,45.35,2.38,15.23,,,,17.28,0.25,6.04,8.79,2.94,1.14,0.1,0.94,100.45,60,621,174,49,28,21,744,18.9,50,2.3, ,278,5.5,13.7,2.4,11.7,3.1,1.09,3.4,0.57,3.4, ,0.7,1.92,0.27,1.66,0.23,1.62,0.21,0.64,0.21,,, 237,1040v,Monzogabbros,Shivota,49.110064,104.285654,Figure-Polygon,"Berzinga et al., (2009)",239 - 250 Ma,,244.5,5.5,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,49.59,1.27,19.32,,,,10.64,0.14,3.72,8.74,4.22,0.96,0.34,1.13,100.07,8.6,93,10.5,14.8,19.2,47,1647,12.3,133,3.5, ,715,17.9,38,5.1,20,3.6,1.15,2.9,0.38,2.2, ,0.38,1.15,0.17,1.15,0.16,3.2,0.33,3.2,1.21,,, 238,1040,Monzogabbros,Shivota,49.110064,104.285654,Figure-Polygon,"Berzinga et al., (2009)",239 - 250 Ma,,244.5,5.5,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,51.75,0.97,16.63,,,,8.34,0.17,6.36,7.49,4.67,1.88,0.2,1.58,100.04,26,213,324,33,66,34,1284,19.5,107,4, ,630,17.8,44,6.8,27,5.2,1.41,4.5,0.64,3.7, ,0.7,2,0.34,2.1,0.32,3.4,0.37,2.5,0.72,,, 239,1040a,Monzogabbros,Shivota,49.110064,104.285654,Figure-Polygon,"Berzinga et al., (2009)",239 - 250 Ma,,244.5,5.5,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,53.2,1.17,17.58,,,,8.98,0.15,4.45,6.53,4.6,1.71,0.29,1.34,99.99,21,197,147,23,30,32,1443,15.8,167,3.5, ,686,17,38,5.7,23,4.6,1.41,4,0.58,3.2, ,0.58,1.54,0.23,1.54,0.22,4.6,0.27,4.4,1.36,,, 240,MH-N1,,,53.242047,121.850782,Figure-Point,"Li et al., (2016)",246 - 243 Ma,,244.5,1.5,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.16,0.21,15.45,,,,1.963577,0.06,0.45,0.56,3.49,3.89,0.09,1.28,99.47,,13.6,,,,163,372,5.23,194,6.98,4.17,951,14.8,30.8,2.77,10.34,1.75,0.44,1.41,0.19,1.07,32.3,0.19,0.58,0.09,0.6,0.09,3.79,0.45,6.54,1.63,,, 241,MH-N1,,,53.242047,121.850782,Figure-Point,"Li et al., (2016)",246 - 243 Ma,,244.5,1.5,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.8,0.21,15.03,,,,1.584639,0.08,0.34,0.77,3.67,3.77,0.07,1.18,99.39,,12.5,,,,153,390,5.61,201,6.94,3.08,976,19.2,37,3.42,12.66,2.05,0.6,1.61,0.21,1.12,32.5,0.19,0.58,0.09,0.61,0.1,3.81,0.49,7.4,1.58,,, 242,MH-N1,,,53.242047,121.850782,Figure-Point,"Li et al., (2016)",246 - 243 Ma,,244.5,1.5,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.98,0.21,15.12,,,,1.781317,0.1,0.48,0.92,3.81,3.54,0.07,1.11,100,,13.7,,,,125,394,6.43,192,6.22,2.87,887,15.8,31.8,3.01,11.53,2.06,0.59,1.65,0.23,1.3,31.3,0.23,0.69,0.1,0.72,0.11,3.83,0.54,6.37,1.43,,, 243,MH-N1,,,53.242047,121.850782,Figure-Point,"Li et al., (2016)",246 - 243 Ma,,244.5,1.5,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,73.34,0.18,15.46,,,,1.456814,0.04,0.24,0.37,3.45,4.28,0.05,1.08,99.85,,10.3,,,,157,296,9.34,169,6.75,3.88,995,20.9,38.7,3.73,14.32,2.48,0.6,2.13,0.3,1.72,31.6,0.32,0.93,0.13,0.81,0.12,3.47,0.36,7.67,1.97,,, 244,MH-N1,,,53.242047,121.850782,Figure-Point,"Li et al., (2016)",246 - 243 Ma,,244.5,1.5,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.12,0.21,15.27,,,,1.862447,0.08,0.51,0.97,3.87,3.81,0.05,0.82,99.43,,15,,,,119,392,7.23,172,6.09,2.43,958,17.5,33,3.4,13.23,2.37,0.67,1.89,0.27,1.46,32.5,0.26,0.76,0.11,0.77,0.12,3.55,0.3,6.18,1.43,,, 245,O-1/02 ,Granitoids,Khangai,47.634761,101.246835,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,66.94,0.76,14.69,2.01,1.51,,,0.08,1.23,2.35,5.27,4.58,0.24,0.32,99.98,6.2,58.03,128,7.5,9.35,163,449.33,23.65,89.33,23.6,5.9,1042,63,132, ,55,10.7,1.57,9.2,1.21, ,25.03, , , ,2.58,0.36,7.4,2.7,28,3.8,,, 246,O-2/02 ,Monzogranite,Khangai,47.559897,100.748286,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,71.41,0.34,13.9,1.62,0.35,,,0.06,0.45,1.2,5.11,5.07,0.08,0.4,99.99,2.07,10.5,169,3.03,6.6,254,163,13.2,136,16,15.9,378,30,52, ,21,3.89,0.54,2.8,0.39, ,23, , , ,0.82,0.1,3.9,1.67,30,3.6,,, 247,O-3/02 ,Granosyenite,Khangai,47.387455,100.239663,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,65.48,0.54,15.63,3.34,0.8,,,0.08,2.16,4.13,4.31,2.71,0.12,0.44,99.74,9.9,49.93,211,12.4,43.67,95,336.33,12.3,103.33,4.98,4.5,748,25,50, ,18,3.7,0.85,3.4,0.53, ,19, , , ,1.33,0.17,5.1,0.69,11.9,2.7,,, 248,O-7/02 ,Quartz monzodiorite,Khangai,47.421539,100.124376,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,73.63,0.2,13.77,1.33,0.17,,,0.04,0.32,0.82,3.65,5.23,0.03,0.46,99.65,4,19.33,182,1.8,9.58,407,97.33,50.85,79,18.4,12.1,313,44,90, ,42,10.7,0.4,11.5,1.83, ,27.5, , , ,5.27,0.75,5.8,2.62,45,2.7,,, 249,O-11/02 ,Granosyenite,Khangai,47.349678,100.417046,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,69.17,0.31,15.35,1.15,0.14,,,0.04,0.43,1.61,4.63,6.39,0.09,0.34,99.65,2.46,18.9,116,2.94,5.8,172,465,14.9,249,8.1,3.32,784,73,135, ,55,10.1,0.78,6.7,0.91, ,19.7, , , ,1.28,0.18,6.8,0.82,46,2.8,,, 250,O-13/02 ,Granosyenite,Khangai,47.433521,100.227642,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,64.72,0.52,15.33,3.16,1.02,,,0.08,2.17,4.03,5.12,3.22,0.12,0.44,99.93,9.8,38.67,244,12.7,42.23,103,345.33,13.65,122,5.51,4.5,658,24,48, ,19,3.7,0.8,2.9,0.5, ,19.3, , , ,1.36,0.19,4.2,0.69,12.8,2.3,,, 251,O-14/02 ,Granodiorite,Khangai,47.479396,100.090694,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,72.72,0.24,14.25,0.9,0.72,,,0.02,0.21,0.73,3.53,5.78,0.08,0.42,99.6,4.02,10.3,152,1.55,4.2,430,170,38.2,167,22.5,11.5,301,47,90, ,41,8.4,0.41,7.9,1.28, ,24.7, , , ,4.3,0.62,5.03,3.12,42,3.4,,, 252,O-17/02 ,Granosyenite,Khangai,47.587516,100.448153,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,63.82,0.63,15.02,3.27,1.5,,,0.08,1.4,3.35,5.2,4.19,0.12,0.5,99.08,5.9,30.3,170,9.72,9.9,85,412,14,95,9.8,2.4,895,30,51, ,25,5.19,1.09,3.9,0.59, ,16.7, , , ,1.05,0.15,3.8,0.82,10,1.8,,, 253,O-19/02 ,Monzogranite,Khangai,47.365516,101.073158,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,70.26,0.29,14.81,1.29,0.33,,,0.04,0.43,1.4,5.14,4.87,0.08,0.32,99.26,2.48,16.3,116,2.31,3.8,213,229,11.5,179,12.4,11.3,685,44,85, ,27,4.6,0.66,3.3,0.45, ,19.8, , , ,0.92,0.13,4.94,1.43,32,4.3,,, 254,O-23/02 ,Granosyenite,Khangai,47.398099,101.185203,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,67.37,0.44,14.97,2.41,0.54,,,0.06,1.17,2.79,5.63,3.76,0.1,0.4,99.64,5.08,18.3,148,6,10.7,125,327,15.3,114,8.8,7,650,18,34, ,15.8,3.54,0.77,3.5,0.52, ,19.7, , , ,1.5,0.19,3.35,1.01,14.7,2.2,,, 255,O-25/02 ,Quartz monzonite,Khangai,46.823607,102.389158,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,73.52,0.16,13.78,1.15,0.14,,,0.04,0.22,1,4.24,5.16,0.03,0.38,99.82,3.2,11.58,209,1.52,11.09,318,81,33.9,71,20.35,36,267,36,71, ,32,6.6,0.31,8,1.22, ,28.97, , , ,3.9,0.53,3.8,4.38,37,6.9,,, 256,O-28/02 ,Granosyenite,Khangai,46.750879,102.716473,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,64.93,0.52,15.33,3.02,0.76,,,0.07,1.97,3.52,5.63,3.22,0.13,0.77,99.87,7.7,28.1,208,10.2,26.1,74,414,10.5,135,7,5.71,604,19.8,37, ,15,2.94,0.8,2.2,0.34, ,18.3, , , ,0.95,0.14,3.8,0.55,8.6,1.3,,, 257,O-30/02 ,Granodiorite,Khangai,46.309081,102.788639,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,67.86,0.43,14.8,2.48,0.46,,,0.05,1.78,2.96,3.94,3.58,0.12,0.4,98.86,7.3,33.13,230,10.1,56.67,144,426,11.75,134.67,5.18,11.6,633,25,47, ,21,4.08,0.78,3.6,0.52, ,22.73, , , ,1.28,0.2,4.3,0.92,17,3.5,,, 258,O-49/02 ,Granodiorite,Khangai,46.547167,102.06281,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,70.97,0.29,14.24,1.51,0.03,,,0.04,0.42,1.31,5.12,5.28,0.05,0.48,99.74,3.11,9.8,180,1.95,5.1,292,174,18,182,22.4,6.19,487,57,102, ,41,6.9,0.53,5.1,0.69, ,20.9, , , ,1.12,0.14,5,1.66,48,3.2,,, 259,O-50/02 ,Granosyenite,Khangai,46.464483,101.878411,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,67.42,0.38,15.33,1.76,1.05,,,0.04,1.24,3.15,5.49,3.26,0.09,0.36,99.57,4.4,29.83,199,4.9,14.97,90,543,6.31,100.33,3.41,6.6,765,11.2,22.5, ,10.5,2.34,0.56,1.9,0.27, ,24.1, , , ,0.47,0.06,3.1,0.36,4.4,1.5,,, 260,O-52/02,Granodiorite,Khangai,46.525808,102.674683,Figure-Point,"Orolmaa et al., (2008)",228-260 Ma,,244,16,"XRF for major oxides and Sr, Nb, Zr, Y, Ga, V, Ni, Cu, Zn, Pb, and Mo. INAA for Rb, Ba, Sc, Cs, Ta, Hf, Y, Th, U, Cr, Co, and REE",Whole rock,Share Analytical Center IGM SB RAS (Novosibirsk),location from figure,64.25,0.63,15.06,3.23,0.9,,,0.08,2.06,3.5,5.18,3.67,0.18,0.76,99.5,8.6,22.3,240,10,18.5,147,467,16.1,128,9.1,5.75,672,26,51, ,24,4.89,1.05,3.8,0.6, ,19.8, , , ,1.36,0.18,4.36,0.93,12.5,1.7,,, 261,T2-120,Granitoid,zavgiin khyar,45.90989,106.1668,GPS,"Gerel et al., (2017)",244 ± 6 Ma,,244,6,NI,NI,NI,GPS,73.32,0.17,14.42,,,,0.95,0.057,0.22,0.71,4.47,3.94,<0.01,,98.257,3,8, , , ,117.9, ,11.6, ,6, , ,23.3,41.7,4.2,13,2.2,0.3,1.8,0.3,1.7,18.1,0.4,1.2,0.2,1.5,0.2,3,0.6, ,1.3,,, 262,11ER5-1,,,50.79138889,120.0933333,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,66.42,0.49,16.45,,,,2.69,0.38,1.09,2.6,3.92,3.33,0.16,1.34,98.87,4.56,36.5,6.11,5.15,2.41,98.6,547,10.8,202,7.9,,1065,33.1,57.3,7.07,26,4.25,1.14,3.32,0.41,2.23,21.1,0.38,0.93,0.13,0.93,0.14,5.11,0.57,8.36,1.59,,, 263,11ER5-4,,,50.79138889,120.0933333,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,66.46,0.52,15.94,,,,2.76,0.04,1.21,2.87,3.82,3.56,0.16,1.25,98.58,4.71,37.1,5.97,5.32,2.47,100,535,11.6,179,9.23,,1192,40,69.8,8.22,29.4,4.69,1.24,3.42,0.42,2.11,20.9,0.38,1.02,0.14,0.89,0.13,4.55,0.67,11.6,1.62,,, 264,11ER5-5,,,50.79138889,120.0933333,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,67.01,0.43,16.85,,,,2.33,0.03,1,2.56,4,3.75,0.14,1.01,99.1,3.92,32.2,5.1,4.72,2.19,101,554,11.4,158,6.97,,1256,33.2,52.7,7.22,26.3,4.33,1.21,3.23,0.42,2.13,20.4,0.38,0.99,0.14,0.85,0.12,4.03,0.51,7.03,1.58,,, 265,11ER5-6,,,50.79138889,120.0933333,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,65.83,0.5,16.28,,,,3.24,0.06,1.05,2.64,3.85,3.6,0.15,1.37,98.56,4.14,33.5,5.67,4.81,2.54,98.5,534,13.6,187,8.79,,1271,40.8,67.6,8.34,31,5.11,1.35,3.74,0.47,2.27,20.8,0.43,1.14,0.14,0.98,0.14,4.7,0.62,11.4,1.61,,, 266,11ER15-3,,,50.98333333,119.6761111,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,64.09,0.87,16.04,,,,3.88,0.05,1.81,4.12,3.48,2.93,0.19,1.52,98.97,7.89,64.5,33.5,4.42,8.72,110,661,22.8,195,10.7,,814,33.5,79.9,10.4,38.4,7.27,1.61,5.55,0.75,3.97,22,0.71,2.05,0.3,1.9,0.28,5.24,1.17,8.56,3.37,,, 267,11ER16-1,,,50.97722222,119.6847222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,62.92,0.74,16.54,,,,4.37,0.06,2.2,4.35,3.53,3.13,0.19,0.8,98.82,9.14,71.5,43.6,10.2,11,115,539,14.8,186,6.02,,738,27.6,53.5,6.25,23.7,4.77,1.11,3.76,0.52,2.74,22,0.47,1.33,0.22,1.21,0.17,5,0.47,6.58,2.08,,, 268,11ER16-3,,,50.97722222,119.6847222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,63.56,0.83,16.32,,,,4.17,0.05,2.07,4.13,3.63,3.27,0.19,0.77,98.98,8.34,70,42.7,9.47,10.8,166,551,19.1,168,8.74,,870,31.5,65,7.75,28.9,5.28,1.41,4.29,0.6,3.08,22.3,0.6,1.65,0.24,1.47,0.21,4.65,0.63,8.44,3.06,,, 269,11ER16-4,,,50.97722222,119.6847222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,63.71,0.77,16.66,,,,4.23,0.05,2.13,4.31,3.56,2.84,0.18,0.82,99.27,8.74,71.2,41.7,10.1,11.1,121,566,17.4,160,6.76,,741,29.8,58.3,7.15,27.6,5.37,1.24,4.36,0.61,3.07,22.7,0.59,1.55,0.2,1.26,0.19,4.36,0.55,6.55,2.48,,, 270,11ER16-5,,,50.97722222,119.6847222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,62.45,0.9,16.19,,,,4.82,0.06,2.55,4.85,3.57,2.97,0.2,0.64,99.21,10.5,79.1,47.6,10.9,12.3,204,525,23.4,201,9.04,,786,33.8,73.7,9.21,35.9,6.98,1.54,5.84,0.81,4.36,22.8,0.77,2.09,0.29,1.86,0.25,5.38,0.79,7.66,2.95,,, 271,11ER16-9,,,50.97722222,119.6847222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,54.65,1.46,15.11,,,,8.58,0.15,4.71,6.37,3.52,2.03,0.59,1.59,98.75,15.8,181,181,26.1,42.9,145,712,26.8,205,14.7,,484,41.4,87.8,11.3,45.3,8.6,2.11,7.03,0.96,4.87,21.8,0.86,2.28,0.32,2.07,0.28,5.15,0.9,10.7,4.53,,, 272,11ER28-1,,,51.33,120.5797222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,61.84,0.71,17.23,,,,4.31,0.07,2.33,3.76,4.15,2.61,0.22,1.82,99.05,8.77,77.1,37.7,9.8,8.58,72.4,673,12.7,184,7.58,,1098,28.3,51.9,5.87,22,3.64,1.21,2.98,0.4,2.13,21.3,0.43,1.23,0.16,1,0.17,4.41,0.47,3.43,0.9,,, 273,11ER28-3,,,51.33,120.5797222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,57.71,1.2,16.63,,,,6.58,0.1,3.64,5.62,3.32,2.39,0.28,1.57,99.03,14.7,126,52.7,16.8,15,81.1,622,24.4,250,11.3,,734,34.3,69.1,8.46,32.6,6.24,1.82,5.2,0.77,4.23,21.5,0.76,2.24,0.32,1.93,0.31,5.9,0.82,7.87,2.91,,, 274,11ER28-4,,,51.33,120.5797222,GPS,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,61.68,0.78,17.11,,,,4.39,0.07,2.36,3.89,4.25,2.66,0.22,1.44,98.86,9.54,79.4,38.4,10.1,9.18,71.9,673,16.6,188,9.98,,1103,36.6,70.3,8.33,30.6,5.28,1.48,4.26,0.57,3.1,21.6,0.56,1.56,0.24,1.47,0.22,4.68,0.7,4.41,1.03,,, 275,12ER10-1,,,51.003181,119.976424,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,71.71,0.25,14.86,,,,1.61,0.02,0.24,1.12,3.48,5,0.08,0.98,99.35,1.78,10.6,0.7,1.55,0.54,77.6,207,12,195,6.51,,730,35.9,61.5,6.19,20.6,3.07,1.01,2.29,0.32,1.89,14.4,0.38,1.15,0.19,1.24,0.21,4.77,0.42,9.59,1.1,,, 276,12ER10-2,,,51.003181,119.976424,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,72.48,0.29,14.46,,,,1.58,0.02,0.25,1.13,3.48,4.88,0.09,0.82,99.48,1.96,11.9,0.67,1.64,0.48,80.6,211,14.7,200,7.65,,709,54.8,94.1,9.13,28.7,4.13,1.05,2.71,0.39,2.19,15.1,0.44,1.3,0.21,1.42,0.24,4.95,0.49,13.4,1.25,,, 277,12ER10-3,,,51.003181,119.976424,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,72.86,0.22,14.27,,,,1.58,0.02,0.19,0.97,3.28,4.91,0.07,1,99.36,1.47,9.12,0.71,1.41,0.45,80,194,11,149,6.33,,690,35.1,59.4,5.98,19.8,3.06,0.92,2.04,0.3,1.68,14.2,0.36,1.04,0.17,1.16,0.2,3.98,0.48,9.86,1.6,,, 278,12ER10-4,,,51.003181,119.976424,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,72.81,0.24,14.36,,,,1.57,0.02,0.2,0.97,3.28,4.86,0.07,0.96,99.34,1.5,8.81,0.44,1.56,0.44,77.1,201,10.9,151,6.15,,704,24.8,42,4.32,14.5,2.39,0.92,1.78,0.28,1.7,13.7,0.33,0.99,0.16,1.07,0.19,3.83,0.42,7.09,1.25,,, 279,12ER11-1,,,51.192018,120.041496,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,70.84,0.27,15.22,,,,1.74,0.04,0.73,1.46,4.08,4.36,0.07,0.78,99.59,2.72,11.6,1.89,1.85,1.25,170,346,12,163,13.2,,927,26.2,48.2,5.2,18.5,2.99,0.69,2.21,0.32,1.85,20.2,0.35,1.03,0.17,1.13,0.19,4.58,0.87,15.3,2.78,,, 280,12ER11-2,,,51.192018,120.041496,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,71.81,0.27,14.85,,,,1.78,0.04,0.42,1.71,4.28,3.47,0.08,0.8,99.5,2.89,12.4,1.72,1.74,0.63,143,319,19.5,174,14.2,,655,34.1,62,7.17,25.8,4.69,0.84,3.51,0.54,3.06,20.1,0.58,1.71,0.28,1.78,0.25,4.92,1.24,21,3.9,,, 281,12ER11-3,,,51.192018,120.041496,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,70.73,0.27,15.34,,,,1.77,0.04,0.37,1.54,3.95,4.73,0.07,0.66,99.47,2.3,11.7,2.03,1.57,1.29,171,321,16.1,158,13.7,,1049,36.6,64.3,7.28,25.3,4.29,0.83,3.13,0.44,2.53,19.4,0.48,1.4,0.22,1.46,0.24,4.59,1.05,16.1,2.26,,, 282,12ER11-4,,,51.192018,120.041496,Figure-Point,"Tang et al., (2014)",247 - 241 Ma,,244,3,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",General location from figure,72.33,0.3,14.46,,,,1.96,0.04,0.37,1.37,3.74,4.32,0.07,0.6,99.57,2.56,11.7,3.11,1.64,1.03,148,294,15.4,179,14.8,,853,37.6,74,7.67,26.7,4.31,0.78,2.94,0.44,2.35,18.1,0.47,1.36,0.2,1.42,0.22,5.22,1.09,24.4,4.93,,, 283,13HSW4-9,,,49.94166667,127.0830556,GPS,Li et al. (2017b),242 Ma,,242,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,52.54,0.22,15.63,,,,9.6,0.1,5.57,9.79,2.74,0.5,0.22,2.66,99.57,32.2,234,62.9,29.9,34.6,4.3,610,22.9,54.4,1.66,0.1,66.6,7.87,18.6,2.61,12.3,3.45,1.18,3.75,0.62,3.98,16.2,0.83,2.27,0.34,2.37,0.35,1.58,0.09,0.9,0.37,,, 284,13HSW4-10,,,49.94166667,127.0830556,GPS,Li et al. (2017b),242 Ma,,242,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,52.27,0.09,16.09,,,,9.58,0.09,5.11,10.42,2.59,0.4,0.09,2.6,99.32,32,241,58.6,29,32.4,3.32,685,19.2,52.8,1.65,0.082,51.4,6.64,15,2.01,9.69,2.86,1.02,2.97,0.5,3.38,17.3,0.68,1.96,0.31,2.14,0.31,1.61,0.09,0.77,0.34,,, 285,HSW11-3,,,49.94166667,127.0830556,GPS,Li et al. (2017b),242 Ma,,242,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,48.77,0.17,17.61,,,,9.6,0.12,7.41,6.69,3.15,2.21,0.17,3.74,99.64,34.3,264,13.7,40,33.4,49.5,241,16,33.8,1.06,0.55,88.9,6.11,13.6,2,9,2.36,0.91,2.73,0.41,2.86,14.6,0.59,1.59,0.24,1.59,0.25,1.08,0.06,0.6,0.31,,, 286,GS6137,Monzogranite,Daqiao monzogranite,47.374259,120.229161,Figure-Point,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,242,5,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from figure,73.54,0.27,13.66,0.46,1.21,,,0.07,0.26,0.44,3.14,5.58,0.05,0.93,99.61,,64.3,56.5,6.61,10.5,291,111,27.7,395,18,,338,46.1,116,10,33,5.49,0.65,4.73,0.79,4.32, ,0.84,2.83,0.44,2.88,0.45,12.2,,,3.14,,, 287,GS40,Monzogranite,Daqiao monzogranite,47.374259,120.229161,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,242,5,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6137 in figure,76.11,0.29,12.37,0.17,1.39,,,0.05,0.07,0.24,3.44,5.29,0.03,0.54,99.99,,8.02,2.32,0.42,1.43,144,28.5,33.5,285,17.2,,78.9,30.3,75,10.8,41.3,9.2,0.5,7.89,1.36,7.96, ,1.47,4.06,0.55,3.1,0.39,8.04,,,2.14,,, 288,GS3367,Monzogranite,Daqiao monzogranite,47.374259,120.229161,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,242,5,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6137 in figure,78.02,0.22,11.34,0.12,1.2,,,0.14,0.082,0.14,3.18,4.92,0.032,0.37,99.76,,6,33.7,0.8,12.5,151,18.9,40.8,234,19.8,,42.4,25.2,80.3,8.69,30.8,6.76,0.4,6.32,1.14,7.02, ,1.41,5.09,0.81,4.72,0.62,,,,3.2,,, 289,GS3368,Monzogranite,Daqiao monzogranite,47.374259,120.229161,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,242,5,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6137 in figure,77.69,0.2,11.69,0.35,0.78,,,0.034,0.05,0.13,3.19,4.95,0.008,0.31,99.38,,5,28.1,0.59,9.24,153,16.2,39.7,203,17.7,,39.1,30.9,103,9.85,36.7,8.13,0.56,7.7,1.33,7.46, ,1.44,5.12,0.82,4.82,0.6,,,,2.52,,, 290,GS3377,Monzogranite,Daqiao monzogranite,47.374259,120.229161,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,242,5,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6137 in figure,77.43,0.22,11.96,0.36,0.82,,,0.041,0.055,0.24,3.19,5.1,0.031,0.26,99.71,,6,30.4,0.77,10.9,156,18.8,46.9,242,22.4,,69.7,34.2,108,11.4,43.3,9.92,0.62,9.2,1.6,8.89, ,1.67,5.75,0.9,5.17,0.62,,,,3.05,,, 291,D1742,Monzogranite,Delgerkhaan Complex,46.67053,104.62325,GPS,"Gambat et al., (2021)",240 Ma,,240,3,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,69.546,0.341,15.002,2.193827049,,,,0.044,1.219,2.107,4.282,3.779,0.119,0.244172951,98.877,5.081, ,26.16,1.751,10.38,154.9,248,15.24,78.67,8.642,4.347,447,13.13,30.45,3.186,11.75,2.731,0.593,3.216,0.295,2.447,22.01,0.349,1.414,,1.494,,3.398,,15.76,4.437,,, 292,15ER2-1,,,51.00888889,120.0516667,GPS,Li et al. (2017a),240 Ma,,240,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,61.97,0.8,17.86,,,,5.15,0.12,1.38,3.48,4.3,3.81,0.31,0.72,99.9,5.39,37.6,1.11,7.94,1.06,76.4,604,31.2,591,16.6,2.03,2726,40.1,74.3,8.86,34.8,6.84,3.13,6.09,0.91,5.49,18.2,1.1,3.01,0.44,3.08,0.45,11.1,0.96,6.14,2.08,,, 293,15ER2-3,,,51.00888889,120.0516667,GPS,Li et al. (2017a),240 Ma,,240,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,61,0.83,18.43,,,,4.94,0.09,1.38,3.59,4.53,3.97,0.29,0.76,99.81,5.98,41.8,1.16,7.52,1.09,83,572,29.9,719,14.3,2.23,2401,39.5,71.3,8.46,33,6.62,3.01,5.81,0.87,5.24,19.2,1.02,2.96,0.45,3.04,0.46,13.8,0.84,5.88,2.18,,, 294,ER25-4,,,51.00888889,120.0516667,GPS,Li et al. (2017a),239 Ma,,239,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,60.24,0.81,18.39,,,,5.31,0.07,1.28,3.4,4.81,3.08,0.27,2.35,100.02,9.06,33.8,0.92,6.24,0.98,103,511,34.9,655,15.4,2.35,1355,63.5,118,12.2,45.2,7.88,2.72,6.93,1.03,5.97,21.3,1.2,3.33,0.49,3.2,0.47,13.7,0.88,13,2.05,,, 295,ER25-5,,,51.00888889,120.0516667,GPS,Li et al. (2017a),239 Ma,,239,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,59.36,0.75,17.98,,,,5.22,0.1,1.23,3.21,4.51,4.21,0.28,3.18,100.02,7.57,35.2,0.99,6.18,0.88,112,486,29.2,521,13.4,2.47,1944,64.1,107,12.1,43.2,6.96,2.89,6.08,0.85,4.75,21.3,0.97,2.84,0.43,2.84,0.45,11,0.77,8.14,1.99,,, 296,15ER4-1,,,51.54916667,120.7483333,GPS,Li et al. (2017a),239 Ma,,239,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,76,0.04,12.82,,,,1.02,0.04,0.06,0.62,3.57,4.55,0.03,0.7,99.45,4.13,1.8,0.8,0.35,0.42,167,40.4,37.9,76.6,9.26,4.9,720,22.7,48,5.7,21.5,5.17,0.47,5.24,0.97,6.01,18.6,1.22,3.66,0.56,3.77,0.54,3.2,0.9,10.5,2.41,,, 297,15ER4-3,,,51.54916667,120.7483333,GPS,Li et al. (2017a),239 Ma,,239,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,76.21,0.05,12.82,,,,0.98,0.03,0.05,0.6,3.37,4.63,0.04,0.74,99.51,4.4,2.06,0.7,0.35,0.48,170,40.9,33.9,74.5,9.88,3.97,757,21.2,45.4,5.42,20.5,4.93,0.49,4.95,0.88,5.44,18,1.09,3.16,0.51,3.34,0.47,3.21,0.94,9.8,3.34,,, 298,D0815,Granodiorite,Delgerkhaan Complex,46.93911,104.50844,GPS,"Gambat et al., (2021)",238 Ma,,238,2.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,68.38,0.5006,15.08,2.852515072,,,,0.05,1.92,2.7,4.0643,3.949,0.1531,0.317484928,99.967,6.186, ,70.215,8.208,31.986,165.361,415,14.12,207.17,10.282,8.453,815,37.272,74.8,8.432,29.553,4.855,1.079,3.916,0.558,2.75,19.679,0.527,1.499,0.234,1.522,0.24,5.583,0.917,36.396,7.122,,, 299,15ER12-1,,,49.79222222,119.9269444,GPS,Li et al. (2017a),238 Ma,,238,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,71.53,0.35,14.24,,,,2.43,0.06,0.81,1.73,3.87,3.53,0.1,0.96,99.6,5.15,33.2,2.01,2.68,1.17,141,219,18.8,128,9.61,4.4,480,32.1,56.8,6.4,21.9,3.87,0.77,3.36,0.49,2.99,17.3,0.6,1.78,0.27,2,0.32,3.79,0.71,16,3.45,,, 300,15ER12-3,,,49.79222222,119.9269444,GPS,Li et al. (2017a),238 Ma,,238,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,71.04,0.33,14.79,,,,2.2,0.06,0.8,2.02,4.04,3.46,0.1,0.8,99.6,4.33,30.9,1.3,2.8,1.14,131,245,16.1,132,8.56,3.57,501,29.1,54.8,5.76,19.5,3.5,0.74,2.91,0.44,2.66,17.1,0.55,1.6,0.26,1.82,0.29,3.74,0.65,13,2.59,,, 301,15ER12-6,,,49.79222222,119.9269444,GPS,Li et al. (2017a),238 Ma,,238,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan),",GPS location,71.25,0.35,14.47,,,,2.3,0.06,0.78,1.81,3.87,3.88,0.1,0.76,99.6,4.31,30.9,1.59,3.62,1.12,153,223,16,152,9.52,4.45,679,30.9,57,5.87,19.7,3.36,0.69,2.9,0.42,2.65,16.9,0.53,1.67,0.26,1.96,0.31,4.53,0.71,15.2,3.39,,, 302,M99-06,Granite,Mongolian granitoid rocks,46.8225,100.0501667,GPS,"Jahn et al., (2004)",237 Ma,,237,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,71.95,0.25,14.9,,,,1.65,,0.43,1.59,3.96,4.59,0.07,0.46,99.85, ,15.5,35.7,2.3,,203,215.4,4.94,151,9.93,11.6,612.8,32.64,66.25,6.43,21.17,3.6,0.65,2,0.28,1.31,22.6,0.17,0.43,0.05,0.35,0.06,4.8,1.64,34.31,9.57,,, 303,M99-08,Granite,Mongolian granitoid rocks,46.8225,100.0501667,GPS,"Jahn et al., (2004)",237 Ma,,237,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,71.57,0.26,15.05,,,,1.73,,0.43,1.34,3.9,4.7,0.11,0.75,99.84, ,13.2,8.9,2.1,,171,202.5,4.24,126,8.87,15.8,614.3,31.09,61.62,6.07,19.62,3.17,0.6,1.92,0.27,1.02,19.3,0.15,0.37,0.05,0.33,0.05,3.8,1.42,30.56,5.7,,, 304,M99-10,Granite dike,Mongolian granitoid rocks,46.82316667,99.971,GPS,"Jahn et al., (2004)",237 Ma,,237,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,74.71,,13.97,,,,0.88,0.03,,0.96,3.84,4.87,,0.38,99.64, ,,21,0.3,,251,72.6,10.27,60,16.99,9.7,168.7,7.54,15.59,1.7,6.87,1.74,0.29,1.83,0.26,1.55,26.7,0.29,0.9,0.14,0.9,0.13,2.8,1.81,17.21,5.32,,, 305,13HH13-1,,Xingan Massif,50.30083333,125.7008333,GPS,"Li et al., (2018)",237 ± 1 Ma,,237,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,70.76,0.2,16.21,,,,1.34,0.03,0.28,1.66,5.41,2.6,0.08,1.22,99.79,2.03,13.8,1.4,1.62,2.33,26.4,945,8.03,105,3.86,0.87,887,14.7,27.7,3.34,12.7,2.23,0.68,1.62,0.22,1.34,19.1,0.23,0.6,0.1,0.61,0.09,2.73,0.41,1.92,0.53,,, 306,13HH13-2,,Xingan Massif,50.30083333,125.7008333,GPS,"Li et al., (2018)",237 Ma (?),,237,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,71.58,0.19,15.72,,,,1.42,0.04,0.35,1.58,5.26,2.7,0.07,1,99.9,1.87,14.5,1.04,1.8,1.61,23.3,903,5.24,101,3.44,0.44,788,12,24.2,2.85,10.3,1.91,0.54,1.37,0.18,1.01,18.5,0.17,0.44,0.07,0.44,0.06,2.71,0.16,1.43,0.31,,, 307,13HH13-5,,Xingan Massif,50.30083333,125.7008333,GPS,"Li et al., (2018)",237 Ma (?),,237,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,71.12,0.19,16.17,,,,1.4,0.04,0.36,1.69,5.35,2.61,0.07,0.88,99.87,1.8,13.9,1.05,1.91,1.61,26,1010,5.45,110,3.45,0.6,877,12.6,24,2.84,10.6,1.89,0.59,1.31,0.17,0.94,19,0.17,0.41,0.06,0.42,0.07,2.77,0.22,1.41,0.38,,, 308,13HH13-6,,Xingan Massif,50.30083333,125.7008333,GPS,"Li et al., (2018)",237 Ma (?),,237,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,71.34,0.2,15.96,,,,1.44,0.03,0.36,1.83,5.31,2.52,0.12,0.72,99.83,1.81,14.3,1.04,2.14,1.86,23.3,1045,5.87,111,3.26,0.44,941,14.2,27.1,3.21,12.3,2.12,0.65,1.48,0.19,1.01,18.2,0.19,0.53,0.08,0.48,0.08,2.81,0.19,1.47,0.41,,, 309,13HH13-7,,Xingan Massif,50.30083333,125.7008333,GPS,"Li et al., (2018)",237 Ma (?),,237,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,70.76,0.19,15.97,,,,1.42,0.03,0.36,2.09,5.34,2.44,0.13,0.98,99.71,1.79,14.3,1.26,1.89,1.45,22.9,1078,5.86,107,3.11,0.46,927,11.8,22.8,2.71,10.2,1.84,0.62,1.32,0.19,1.02,18.5,0.18,0.5,0.08,0.47,0.07,2.67,0.19,1.31,0.4,,, 310,D0817,Granodiorite,Delgerkhaan Complex,46.97219,104.46247,GPS,"Gambat et al., (2021)",236 Ma,,236,2,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,71.78,0.2768,15.14,1.529739944,,,,0.03,0.83,1.79,4.3445,3.9848,0.0883,0.170260056,99.9644,3.161, ,21.612,3.397,21.186,112.295,449,6.965,121.875,5.804,4.378,973.96,24.679,42.31,5.116,17.883,2.771,0.844,2.145,0.293,1.4,19.596,0.267,0.749,0.115,0.766,0.125,3.462,0.498,24.913,1.952,,, 311,13XA19-1,,Xingan Massif,49.59583333,121.3086111,GPS,"Li et al., (2018)",236 ± 1 Ma,,236,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,67.75,0.56,14.86,,,,3.67,0.06,1.81,2.86,3.68,4,0.14,0.72,100.11,7.12,67.3,17.9,8.86,16.3,128.6,396,14.8,179,9.34,5.86,559,22.1,43.8,4.9,17.6,3.47,0.86,2.81,0.41,2.41,17.9,0.47,1.35,0.21,1.46,0.22,5.15,0.99,23.9,3.64,,, 312,13XA19-2,,Xingan Massif,49.59583333,121.3086111,GPS,"Li et al., (2018)",236 Ma (?),,236,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,67.53,0.53,15.13,,,,3.73,0.06,1.71,2.64,3.8,3.84,0.14,1.06,100.17,7.46,68.7,19.3,8.13,15.3,116.9,386,16.6,188,10,7.27,468,36.2,70.5,7.16,25,4.4,0.89,3.28,0.49,2.8,18.1,0.55,1.53,0.24,1.73,0.26,5.47,1.18,25.4,3.56,,, 313,13XA19-3,,Xingan Massif,49.59583333,121.3086111,GPS,"Li et al., (2018)",236 Ma (?),,236,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,67.68,0.54,14.96,,,,3.81,0.07,1.82,2.36,3.64,4.08,0.14,1.02,100.12,7.55,74.2,19.9,8.04,15.2,130.8,364,17.7,199,10,8.3,513,32.9,63.2,6.88,23.8,4.26,0.89,3.23,0.48,2.72,18,0.53,1.51,0.23,1.56,0.24,5.54,1.06,27.8,4.11,,, 314,D0808,Granite,Delgerkhaan Complex,47.09528,104.39917,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,71.17,0.2887,16.35,0.899847026,,,,0.01,0.59,1.84,4.5576,3.8326,0.0862,0.100152974,99.7251,2.651, ,38.478,2.684,11.659,106.931,460,5.484,124.208,5.181,2.509,948.6,18.488,31.154,3.639,12.486,2.065,0.874,1.645,0.231,1.114,19.148,0.215,0.571,0.087,0.563,0.091,3.225,0.393,15.394,2.737,,, 315,D0812,Granodiorite,Delgerkhaan Complex,46.90383,104.54139,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,64.52,0.31,14.46,2.339602268,,,,0.05,1.35,4.4,4.4393,3.2866,0.0998,0.260397732,95.5157,4.079, ,48.362,5.709,20.608,87.085,378,9.068,128.7,6.676,1.558,790.21,16.474,29.538,3.671,13.566,2.616,0.773,2.215,0.335,1.806,14.64,0.354,0.973,0.15,0.978,0.155,3.366,0.545,56.707,2.345,,, 316,D0818,Granodiorite,Delgerkhaan Complex,46.98722,104.49553,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.43,0.5463,15.3,3.788355979,,,,0.06,3.01,3.51,4.0614,3.0362,0.1718,0.421644021,99.3357,9.107, ,122.188,12.312,56.529,100.243,482,12.925,170.334,6.926,3.257,803.7,23.514,49.203,6.44,24.602,4.709,1.164,3.606,0.519,2.452,18.859,0.474,1.38,0.21,1.382,0.217,4.423,0.762,22.574,2.45,,, 317,D0819,Monzodiorite,Delgerkhaan Complex,46.98081,104.52158,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.01,0.5702,14.87,3.824349861,,,,0.07,3.11,3.52,3.8852,3.518,0.1626,0.425650139,98.966,9.62, ,144.282,13.095,60.653,113.397,492,11.464,173.207,6.205,4.644,906.28,26.396,51.554,6.462,24.79,4.276,1.187,3.469,0.488,2.48,18.469,0.483,1.267,0.188,1.232,0.203,4.616,0.496,23.272,1.873,,, 318,D0831,Granite,Delgerkhaan Complex,46.98081,104.52158,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,70.63,0.2518,15.42,1.331773598,,,,0.02,0.75,1.79,4.4035,4.3121,0.0767,0.148226402,99.1341,2.807, ,20.683,3.083,7.029,121.434,485,6.145,119.905,5.042,4.097,1392,21.071,34.887,4.354,15.093,2.45,0.689,1.823,0.254,1.282,19.839,0.24,0.636,0.097,0.643,0.109,3.296,0.432,21.964,1.775,,, 319,D1001,Granite,Delgerkhaan Complex,46.82692,104.61294,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,62.52,0.644,15.18,4.265274903,,,,0.07,3.29,4.05,3.9668,3.2177,0.1899,0.474725097,97.8684,10.404, ,145.272,14.355,61.149,111.903,591,13.205,217.312,6.781,7.03,852,35.75,68.973,8.155,29.675,5.143,1.291,4.055,0.562,2.728,21.027,0.522,1.428,0.21,1.373,0.216,5.416,0.34,19.377,2.148,,, 320,D1003,Porphyritic granite,Delgerkhaan Complex,46.799,104.59908,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,66.15,0.5364,15.62,3.185458472,,,,0.05,2.61,3.34,4.3075,3.2141,0.163,0.354541528,99.531,9.618, ,107.381,14.385,46.744,110.382,576,12.789,189.432,6.088,6.566,805.27,27.894,52.462,6.401,23.262,4.214,1.027,3.136,0.439,2.174,19.494,0.435,1.188,0.188,1.276,0.199,4.656,0.377,12.518,1.542,,, 321,D1006,Granodiorite,Delgerkhaan Complex,46.74483,104.55986,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,70.84,0.3298,14.63,2.141635922,,,,0.04,1.23,2.25,4.3714,3.3174,0.1708,0.238364078,99.5594,5.103, ,45.737,6.331,15.541,132.108,439,17.063,209.488,9.144,16.685,652,29.99,55.486,6.333,23.412,4.001,0.665,3.18,0.476,2.762,20.045,0.572,1.722,0.269,1.925,0.318,5.683,1.268,17.216,2.476,,, 322,D1008,Granodiorite,Delgerkhaan Complex,46.73469,104.56978,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,71.43,0.1847,16.03,1.448753712,,,,0.05,0.42,1.61,4.969,3.7951,0.1351,0.161246288,100.2339,2.369, ,5.712,1.136,4.221,119.746,463,10.943,152.262,7.761,9.65,1024.95,55.167,97.285,10.638,35.815,4.868,0.85,3.392,0.401,1.986,18.762,0.389,1.082,0.157,1.091,0.17,4.197,0.597,21.193,1.825,,, 323,D1009,Granodiorite,Delgerkhaan Complex,46.72194,104.58061,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,70.54,0.2973,15.16,1.754701701,,,,0.02,0.89,1.77,4.4508,4.1455,0.095,0.195298299,99.3186,4.2, ,24.531,3.831,10.287,138.266,478,8.117,159.532,5.949,7.443,1112.75,24.973,48.996,5.307,18.957,3.14,0.562,2.343,0.302,1.552,19.168,0.297,0.807,0.111,0.735,0.117,4.244,0.502,18.283,2.333,,, 324,D1011,Granodiorite,Delgerkhaan Complex,46.64194,104.55217,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,68.11,0.3822,15.33,2.303608387,,,,0.05,1.63,2.44,4.378,3.5735,0.1164,0.256391613,98.5701,5.989, ,58.916,8.009,21.012,131.46,498,10.653,213.207,7.81,8.042,810.1,32.937,59.854,6.437,22.354,3.586,0.855,2.77,0.366,1.985,20.078,0.371,1.022,0.164,1.102,0.18,5.87,0.902,19.754,2.995,,, 325,D1012,Monzogranite,Delgerkhaan Complex,46.81128,104.48506,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,64.58,0.555,15.28,3.527400342,,,,0.06,3.08,3.63,4.1053,3.4394,0.1607,0.392599658,98.8104,10.359, ,123.328,13.845,60.658,108.516,598,14.731,169.713,6.913,5.765,806.72,29.461,61.601,7.439,28.183,5.015,1.122,3.796,0.531,2.617,19.435,0.507,1.419,0.229,1.44,0.225,4.595,0.549,16.181,1.328,,, 326,D1024,Granodiorite,Delgerkhaan Complex,46.77197,104.56,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,67.44,0.3689,16.6,2.357599208,,,,0.04,1.71,3.18,4.7449,3.2196,0.1388,0.262400792,100.0622,5.785, ,63.074,8.021,22.56,77.333,653,6.551,168.713,4.307,4.481,1059.49,25.23,39.641,4.563,15.994,2.363,0.711,1.944,0.243,1.144,20.384,0.224,0.597,0.093,0.634,0.099,4.397,0.201,7.102,1.611,,, 327,D1031,Granite,Delgerkhaan Complex,46.64194,104.55217,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,69.5,0.2879,15.61,1.73670476,,,,0.04,1.25,2.39,4.65,3.322,0.0954,0.19329524,99.0753,4.371, ,42.491,5.793,15.84,112.799,529,7.02,108.073,5.443,6.886,831.05,21.78,38.609,4.229,14.818,2.437,0.807,1.868,0.253,1.29,19.567,0.267,0.722,0.102,0.683,0.109,3.089,0.434,16.284,2.427,,, 328,D0931,Granite,Delgerkhaan Complex,46.37944,104.50806,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.636,0.135,12.947,1.890578602,,,,0.017,0.014,0.228,4.529,4.42,0.021,0.210421398,99.048,4.249, ,25.507,3.949,17.387,149.693,489,8.312,162.626,6.08,7.657,1148.61, ,49.441,5.409,19.204,,,,,1.596,20.125,0.311,0.837,0.116,0.761,0.122,4.305,0.52,18.885,2.358,,, 329,D0933,Granite,Delgerkhaan Complex,46.37944,104.50806,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,63.767,0.789,15.343,4.53252947,,,,0.061,3.822,3.299,4.352,3.783,0.231,0.50447053,100.484,9.107, ,122.188,12.312,56.529,100.243,482,12.925,170.334,6.926,3.257,803.7, ,49.203,6.44,24.602,,,,,2.452,18.859,0.474,1.38,0.21,1.382,0.217,4.423,0.762,22.574,2.45,,, 330,D1729,Quartz-diorite,Delgerkhaan Complex,46.91308,104.81389,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,61.671,0.372,15.118,4.775488167,,,,0.086,3.912,3.432,4.34,4.223,0.243,0.531511833,98.704,9.62, ,144.282,13.095,60.653,113.397,497,11.464,173.207,6.205,4.644,906.28, ,51.554,6.462,24.79,,,,,2.48,18.469,0.483,1.267,0.188,1.232,0.203,4.616,0.496,23.272,1.873,,, 331,D1730,Granite,Delgerkhaan Complex,46.90961,104.60556,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,71.02,0.33,14.66,2.006658868,,,,0.04,1.14,2.23,4.18,3.26,0.09,0.43,99.38665887,, ,,,,119,399,13.7,189,8.1,6,455,26,46,5.4,19.6,3.6,0.66,2.9,0.43,2.5,,0.45,1.28,0.21,1.35,0.2,4.7,1.31,15.6,1.87,,, 332,D1742-1,Monzogranite,Delgerkhaan Complex,46.67053,104.62325,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,64.369,0.569,15.083,3.63988122,,,,0.07,3.184,3.784,4.032,3.073,0.179,0.40511878,98.388,, ,236,18,84,202,495,22,551,13,,642,,,,,,,,,,,,,,,,,,,,,, 333,D1746,Monzogranite,Delgerkhaan Complex,46.77703,104.74367,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,67.44,0.711,14.07,6.109961307,,,,0.075,0.5,1.68,4.24,3.01,0.21,2.754038693,100.8,15, ,20,5,20,89,174,35.9,321,6.2,4,702,15.4,56.6,5.03,20.2,5.28,1.24,6.1,1.1,6.67,20,1.4,4.03,0.598,4.17,0.656,7.6,0.6,10,3.09,,, 334,D1747,Granodiorite,Delgerkhaan Complex,46.85147,104.70006,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.751,0.484,15.875,3.072977594,,,,0.052,2.488,3.268,4.32,3.226,0.155,0.342022406,99.034,, ,140,6,18,144,438,13,140,7,,680,,,,,,,,,,,,,,,,,,,,,, 335,D1724,Granite,Zambalkhudag Complex,46.94197,104.29411,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,75.31,0.029,13.443,0.796364618,,,,0.023,0.03,0.751,4.477,3.912,0.017,0.088635382,98.877,, ,230,11,80,221,488,20,301,12,,613,,,,,,,,,,,,,,,,,,,,,, 336,D1725,Granite,Zambalkhudag Complex,46.93872,104.35222,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,74.468,0.147,14.288,1.221092414,,,,0.038,0.309,1.2,3.883,4.271,0.034,0.135907586,99.995,, ,4,2,3,131,258,19,101,6,,696,,,,,,,,,,,,,,,,,,,,,, 337,D1727,Granite,Zambalkhudag Complex,46.9385,104.31525,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,71.33,0.326,13.24,2.177629803,,,,0.055,0.89,3.28,3.21,3.19,0.09,2.15,99.9386298,4, ,20,2,20,113,156,8.3,97,5.7,1.5,459,15.2,36.1,3.7,13.5,2.85,0.676,2.24,0.32,1.65,16,0.31,0.85,0.122,0.74,0.118,3,0.67,13.1,1.51,,, 338,D1728,Granite,Zambalkhudag Complex,46.9385,104.31525,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,75.38,0.136,13.11,1.340772069,,,,0.04,0.3,1.49,3.25,3.95,0.05,1.3,100.3467721,3, ,20,1,20,119,251,16.5,70,3.5,2.6,677,13.9,28.7,3.19,12.2,3.24,0.635,3.15,0.5,2.82,15,0.57,1.64,0.277,2.02,0.352,2.5,0.87,15.1,5.36,,, 339,D0930,Granite,Zambalkhudag Complex,46.26278,104.7275,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,61.42,0.697,14.88,4.787186178,,,,0.059,3.36,3.54,4.43,3.34,0.21,3.03,99.75318618,10, ,220,11,70,180,477,17.3,237,8.1,5.6,643,69.4,142,14.5,47.4,7.58,,5.2,0.66,3.35,20,0.6,1.62,0.213,1.47,0.231,5.9,0.84,31.9,7.79,,, 340,D0932,Granite,Zambalkhudag Complex,46.37944,104.50806,GPS,"Gambat et al., (2021)",218-243 Ma,,230.5,12.5,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,61.76,0.817,15.2,4.625213714,,,,0.082,3.65,3.41,3.8,4.26,0.24,2.2,100.0442137,11, ,230,17,80,185,503,19.6,343,9.5,6.6,768,47.7,98.3,11,38.8,7.1,1.34,5.13,0.68,3.74,19,0.7,1.87,0.263,1.71,0.268,8.4,1.03,30.4,3.06,,, 341,830,Monzogabbros,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",,49.89,1.63,17.95,,,,10.48,0.12,4.98,7.08,4.44,1.47,0.59,1.41,100.04,24,201,58,21,42,30,1985,23,73,3.6, ,568,19.5,49,8.4,39,8.4,2.3,6.8,0.9,4.5, ,0.83,2.1,0.29,1.73,0.23,2.4,0.23,2.4,0.64,,, 342,1058d,Monzogabbros,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,51.39,1.23,18.9,,,,8.13,0.24,4.29,7.55,4.71,1.63,0.31,1.34,99.71,16.3,144,278,18.2,23,50,1320,18.1,109,3.2, ,464,12,28,4.4,20,4.6,1.46,4.4,0.63,3.4, ,0.63,1.84,0.27,1.65,0.24,3.4,0.16,1.2,0.5,,, 343,0749b,Monzodiorites I,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,54.34,1.22,17.9,,,,8.44,0.12,5.47,3.36,5.08,2.2,0.32,1.87,100.31,18.5,158,20,15.1,27,58,1239,13.4,161,4.9, ,867,18.7,38,5.3,21,4.1,1.26,3.4,0.5,2.5, ,0.5,1.32,0.19,1.26,0.18,4.1,0.35,2.1,1.05,,, 344,0797a,Monzodiorites I,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,56.21,1.01,18.23,,,,7.82,0.12,5.84,2.8,4.84,1.74,0.38,0.93,99.93,12.8,110,8.8,16.1,16.7,29,1026,17.5,137,4.6, ,699,26,53,6.8,26,4.6,1.42,4.1,0.58,3.2, ,0.64,1.8,0.26,1.67,0.25,3.5,0.24,1.66,0.5,,, 345,0797g,Monzodiorite II,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,54.25,1.63,15.85,,,,10.43,0.19,5.38,3.81,4.18,2.77,0.33,1.06,99.89,40,323,34,35,23,33,439,41,479,13.8, ,599,25,65,10.2,45,9.9,1.2,9.1,1.32,7.6, ,1.51,4.1,0.6,3.9,0.56,12.4,0.68,4.2,1.48,,, 346,0797b,Monzodiorite II,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,54.14,1.79,13.78,,,,12.47,0.2,6,4.66,3.42,1.88,0.37,1.37,100.1,26,234,27,25,28,35,685,30,345,8.6, ,782,23,54,7.9,33,7,1.09,6.2,0.96,5.2, ,1.02,2.9,0.45,2.9,0.42,8.9,0.63,4.4,2.1,,, 347,0748a,Monzodiorite II,Selenga Complex,48.935086,104.151413,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,56.15,1.68,14.43,,,,11.15,0.14,5.37,3.83,4.05,1.45,0.34,1.58,100.17,24,161,20,18.1,17.6,28,692,28,477,10.9, ,496,23,55,8.1,34,7.2,1,6.6,0.94,5.5, ,1.07,3,0.47,3.1,0.46,13.2,0.65,6.6,2.3,,, 348,1036g,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,53.71,1.02,18.42,,,,8.58,0.14,2.29,4.02,5.48,3.27,0.35,2.2,99.47,15.4,146,45,15.9,11.7,88,1523,17,166,6.4, ,763,23,50,6.5,25,4.8,1.32,4.1,0.56,3.2, ,0.63,1.63,0.23,1.57,0.22,4.3,0.39,3,1.26,,, 349,0964j,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,54.81,1.04,18.79,,,,7.52,0.14,2.34,4.1,5.6,3.33,0.36,2.25,100.27,6.06,105,246,16.3,42,70,1089,12.8,120,2.1, ,938,20,39,5,19.6,3.5,0.9,2.8,0.38,1.98, ,0.38,0.96,0.13,0.83,0.13,2.6,0.2,1.32,0.74,,, 350,0964z,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,55.37,1.05,18.98,,,,7.14,0.14,2.36,4.14,5.65,3.37,0.36,2.27,100.83,5.38,98,240,16.8,50,59,1282,9.3,103,2.1, ,903,17.9,34,4.3,16.3,2.8,0.77,2.2,0.32,1.66, ,0.32,0.83,0.11,0.77,0.11,2.5,0.15,1.13,0.61,,, 351,0964z,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,56.42,1.12,19.09,,,,4.25,0.03,3.71,5.26,4.94,2.74,0.29,1.86,99.71,7.54,119,33,8.1,19.3,79,928,10.5,125,4.8, ,629,20,43,5.8,22,4,0.97,2.9,0.4,2.3, ,0.4,1.07,0.15,0.96,0.13,4.2,0.27,3.9,2,,, 352,0906b,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,57.28,1.12,16.93,,,,7.07,0.03,4.15,5.17,3.54,2.94,0.25,1.35,99.82,4.44,68,25,7.3,10.9,46,644,5.1,65,1.8, ,360,6.1,12.9,1.8,7.5,1.47,0.45,1.27,0.2,0.93, ,0.2,0.47,0.073,0.4,0.062,2.1,0.1,2.2,0.85,,, 353,0906a,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,58.67,1,16.89,,,,7.43,0.04,3.72,4.67,3.26,2.42,0.24,1.52,99.86,6.25,115,352,17.4,59,76,1345,18.4,123,2.7, ,813,33,70,9.4,36,6.4,1.21,4.6,0.7,3.6, ,0.64,1.72,0.22,1.28,0.17,3,0.27,3.2,1.22,,, 354,0410v,Monzodiorite-porphyries,Porphyry,49.022458,104.131884,Figure-Polygon,"Berzinga et al., (2009)",200 - 260 Ma,,230,30,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,56.57,0.72,19.31,,,,6.4,0.09,2.85,5.45,5.11,2.08,0.25,1.66,100.49,19.98,208,252,21,34,15.6,1053,16.8,105,3.5, ,436,15.1,33,4.9,20,4.2,1.33,3.6,0.59,3.5, ,0.65,1.83,0.26,1.7,0.23,3.5,0.2,2.4,0.58,,, 355,M99-15,Granite,Mongolian granitoid rocks,45.95516667,101.429,GPS,"Jahn et al., (2004)",230 Ma,,230,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,73.99,0.1,13.85,,,,0.99,,0.2,1.19,3.33,5.36,0.05,0.74,99.8, ,7.5,18.6,1.1,,217,206.1,3.79,140,3.72,2.04,416.4,41.42,81.92,8.49,28.43,4.12,0.5,1.85,0.23,0.94,20.3,0.14,0.46,0.05,0.41,0.05,4,0.35,69.29,4.65,,, 356,M99-16,Granite,Mongolian granitoid rocks,45.94722222,101.5280556,GPS,"Jahn et al., (2004)",230 Ma,,230,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,70.79,0.45,14.38,,,,2.44,0.03,0.6,1.1,3.76,5.04,0.16,1.12,99.87, ,21.7,14.4,3.1,,236,297,23.69,269,16.92,2.99,630.8,55.75,133.27,13.73,49.83,8.99,1,6.25,0.84,4.69,21.5,0.77,2.14,0.3,1.88,0.28,7.7,2.69,54.21,4.55,,, 357,D1718,Granite,Delgerkhaan Complex,47.14294,104.04311,GPS,"Gambat et al., (2021)",230 Ma,,230,1.6,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,76.46,0.066,12.91,1.331773598,,,,0.019,0.06,0.61,3.86,3.94,0.04,1.24,100.5367736,1, ,20,1,20,89,263,3.6,71,0.8,1.5,999,12.8,23.7,2.41,7.79,1.22,0.418,0.85,0.12,0.67,13,0.14,0.34,0.048,0.39,0.068,2.1,0.2,9.14,0.82,,, 358,TCS 59.2,Adakitic Lava,,46.27777778,107.7602778,Figure-Point,"Sheldrick et al., (2020)",229.8 ± 0.6 Ma,,229.8,0.6,XRF and ICP-MS,Whole rock,"University of Leicester by X-ray fluorescence (XRF) spectrometry. Trace and rare earth element concentrations were analysed by ICP-MS at the University of Leicester, on a Thermo iCAP-q quadrapole mass spectrometer",High Silica adakite,65.26,0.73,16.19,,,,4.27,0.058,0.96,3.71,4.39,3.84,0.26,0.77,100.44, ,87.4,20,10,9.9,139.6,809.41,13.59,297.5,10.38, ,1262.6,46.43,88.09,9.67,34.37,5.75,1.51,4.73,0.53,2.91, ,0.53,1.33,0.21,1.22,0.17,6.96,0.56,11.43,2.03,,, 359,TCS 59.3,Adakitic Lava,,46.27777778,107.7602778,Figure-Point,"Sheldrick et al., (2020)",229.8 ± 0.6 Ma,,229.8,0.6,XRF and ICP-MS,Whole rock,"University of Leicester by X-ray fluorescence (XRF) spectrometry. Trace and rare earth element concentrations were analysed by ICP-MS at the University of Leicester, on a Thermo iCAP-q quadrapole mass spectrometer",High Silica adakite,63.85,0.71,15.81,,,,4.26,0.075,2.08,4.08,4.63,3.1,0.25,1.84,100.69, ,86,22.8,12.9,11.8,144.5,775.78,16.37,277.3,9.87, ,1189.5,47.86,92.15,9.6,35.62,5.8,1.53,5.05,0.53,3.09, ,0.57,1.6,0.21,1.33,0.21,6.88,0.57,10.97,1.96,,, 360,TCS 59.4,Adakitic Lava,,46.27777778,107.7602778,Figure-Point,"Sheldrick et al., (2020)",229.8 ± 0.6 Ma,,229.8,0.6,XRF and ICP-MS,Whole rock,"University of Leicester by X-ray fluorescence (XRF) spectrometry. Trace and rare earth element concentrations were analysed by ICP-MS at the University of Leicester, on a Thermo iCAP-q quadrapole mass spectrometer",High Silica adakite,64.2,0.72,16,,,,4.24,0.076,2.01,4.01,4.15,3.04,0.25,1.85,100.55, ,86.1,23.5,12.4,9.7,148.9,799.62,15.36,277.2,10.41, ,1209.7,46.45,89.45,9.92,34.8,5.83,1.56,4.36,0.55,3.11, ,0.56,1.46,0.22,1.28,0.21,6.69,0.57,11.16,2,,, 361,871,Alkali-feldspar syenite,Kharitonovo,51.20944444,106.9805556,GPS,"Reichow et al., (2010)",229 - 230 Ma,,229.5,0.5,XRF and liquid chromatography (LC) ICP-MS analyses (Sciex,Bulk rock,"Department of Geology at the University of Leicester, UK and CNRS Service d'Analyse des Roches et des Min√©raux (SARM), Nancy, France",GPS location,63.44,0.67,18.36,2.18,0.44,,,0.1,0.61,0.83, ,6.27,0.16,0.69,99.18, , , , , ,82,93,23,224,12, ,810,30,55, ,23,6.8,2.1,8.1,,6.6, ,,,0.67,3.2,0.5, , ,, ,,, 362,A92-a,Peralkaline,Kharitonovo,51.19055556,107.0236111,GPS,"Reichow et al., (2010)",229 - 230 Ma,,229.5,0.5,XRF and liquid chromatography (LC) ICP-MS analyses (Sciex,Bulk rock,"Department of Geology at the University of Leicester, UK and CNRS Service d'Analyse des Roches et des Min√©raux (SARM), Nancy, France",GPS location,63.2,1.11,16.6,2.76,0.55,,,0.17,0.71,0.51, ,5.98,0.24,1.28,99.2, , , , , ,90,28,53,570,22, ,81,61,112, ,56,7.54,1.49,7.68,,5.34, ,,,0.41,2.25,0.33, , ,, ,,, 363,ER12-1,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,73.63,0.15,13.46,,,,1.14,0.03,0.09,0.71,3.34,4.6,0.05,2.81,100.01,2.48,5.43,0.41,0.75,0.44,132,106,10.8,140,10.4,2.3,460,17.1,69.3,4.02,13,2.41,0.64,2.18,0.32,1.86,14.9,0.37,1.14,0.19,1.27,0.2,4.35,0.99,18.3,1.99,,, 364,ER22-2,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.34,0.15,13.47,,,,0.78,0.02,0.11,0.8,3.77,4.47,0.05,2.06,100.02,2.52,5.42,0.49,0.52,0.18,140,110,13.8,150,11.6,2.76,411,15.2,47.1,4.17,14.1,3.08,0.61,2.57,0.41,2.33,15.2,0.49,1.46,0.22,1.51,0.23,4.84,0.94,18.9,6.36,,, 365,ER22-4,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,73.44,0.15,13.69,,,,0.95,0.02,0.12,0.81,3.79,4.69,0.05,2.28,99.99,2.6,5.43,0.55,0.6,0.27,142,108,10.4,154,12.6,4.87,423,17.3,12.5,4.57,14.8,2.48,0.6,1.94,0.31,1.8,15.1,0.37,1.14,0.19,1.24,0.2,4.86,0.96,17.8,3.58,,, 366,ER22-7,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,72.86,0.16,14,,,,0.96,0.02,0.1,0.83,3.77,4.64,0.05,2.55,99.93,2.53,5.84,0.69,0.72,0.26,144,112,13.8,149,12.9,2.45,431,7.62,52.7,2.19,7.7,1.93,0.58,2,0.35,2.23,15.8,0.47,1.46,0.23,1.6,0.24,4.71,1.25,22.5,3.27,,, 367,13ER42-1,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.79,0.14,13.79,,,,1.14,0.03,0.15,0.66,3.72,5.02,0.04,0.64,99.93,1.95,4.97,0.48,0.66,0.4,156,112,13.1,134,12.8,2.85,398,26.5,56.5,5.54,18.8,3.43,0.59,2.38,0.39,2.22,15.4,0.42,1.24,0.18,1.17,0.17,3.96,0.62,22.1,2.13,,, 368,13ER42-2,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.72,0.15,13.66,,,,1.28,0.04,0.15,0.73,3.64,4.89,0.04,0.66,99.93,2.08,6.24,0.45,0.69,0.35,150,107,14.3,153,14,3.5,407,28.7,67.9,6.09,20.6,3.56,0.63,2.82,0.41,2.4,15.4,0.44,1.29,0.17,1.3,0.19,4.36,0.59,23.2,2.57,,, 369,13ER42-3,,,50.86083333,120.0252778,GPS,"Tang et al., (2016)",229 Ma,,229,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.14,0.16,13.94,,,,1.42,0.04,0.17,0.67,3.72,4.87,0.04,0.92,99.93,2.45,5.75,0.48,0.87,0.36,153,110,14.1,149,15.6,3.88,414,29.2,64.3,6.04,20.7,3.5,0.61,2.73,0.4,2.33,16.3,0.44,1.24,0.18,1.24,0.17,4.38,0.72,21,2.33,,, 370,805**,,Ermakovka Massif,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",225-232 Ma,,228.5,3.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,54.26,1.18,16.52,,,7.83,,0.05,2.95,5.58,5.4,2.93,0.24,3.1,100.04, , , , , ,94,650,22,146.74,7.88, ,813,26.7,54.2,6.5,24.8,4.8,1.39,4.54,0.74,4.04, ,0.79,2.16,0.29,1.79,0.26,4.4,0.46,5.1,1.2,,, 371,400**,,Ermakovka Massif,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",225-232 Ma,,228.5,3.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,75.16,0.28,11.9,,,2.47,,0.02,0.2,0.35,4.25,4.66,0.03,0.56,99.88, , , , , ,335,43,,712,38, ,58,60.3,91.7,7.2,19.1,2.7,0.25,2.2,0.42,3.3, ,0.9,3.61,0.68,5.31,0.92,38,4.89,39.7,8.3,,, 372,Oro-1***,,Orot Massif,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",225-232 Ma,,228.5,3.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,75.7,0.34,11.62,,,4.37,,0.15,0.35,0.51,2.21,4.71,0.01,,99.97, , , , , ,235,13,66,1102,77.5, ,63,57,117.4,11.6,36.7,7.4,0.8,7.02,1.41,9.32, ,3.26,7.91,1.43,10.07,1.54,29.28,4.4,29.6,5.4,,, 373,Oro-9***,,Orot Massif,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",225-232 Ma,,228.5,3.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,73.28,0.38,15.42,,,1.36,,0.03,0.21,0.52,2.98,5.65,0.02,,99.85, , , , , ,271,30,84,714,97.85, ,121,123.2,252.1,30.1,103.5,18.6,1.88,13.98,2.33,13.25, ,2.93,8.9,1.56,9.81,1.49,20.12,6.02,33,8.4,,, 374,1020,Metabasalts and metaandesite basalts,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),50.38,1.48,17.42,,,,9.33,0.16,4.64,7.12,4.68,2.56,0.76,1.8,100.33,25,140,74,23,45,53.1,1464.2,21.1,118.8,8.7, ,1253.5,36.59,83.95,11.65,40.12,8.09,2.01,6.54,0.72,3.76, ,0.65,1.61,0.22,1.17,0.19,2.84, ,4.35,1.01,,, 375,1034,Metabasalts and metaandesite basalts,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),49.96,1.34,18.29,,,,8.86,0.19,4.18,10.13,3.47,1.28,0.67,1.01,99.38,29,190,65,31,57,13.8,1412,16.5,111.8,4.2, ,1082,29,60.22,7.91,34.58,6.74,1.71,4.33,0.53,2.87, ,0.52,1.24,0.17,1.04,0.18,2.78, ,0.96,,,, 376,1057,Metabasalts and metaandesite basalts,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),50.36,1.48,17.39,,,,9.25,0.13,4.42,7.04,3.44,2.36,0.72,3.39,99.98,21,170,95,25,71,51.6,1713.1,20.3,102.6,7.5, ,1280.3,29.45,69.35,9.65,33.71,6.61,1.48,4.84,0.7,3.06, ,0.55,1.53,0.22,1.38,0.2,2.84, ,3.16,0.96,,, 377,1092,Metabasalts and metaandesite basalts,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),52.17,1.41,18.02,,,,9,0.2,3.73,5.91,5.02,1.99,0.82,1.67,99.94,40,230,21,19,19,49.4,1317.7,26.2,227.7,9.2, ,1226.7,49.94,99.66,13.84,52.66,8.44,2.31,6.58,0.92,4.71, ,0.91,2.41,0.34,2.2,0.36,4.59, ,2.21,0.85,,, 378,1098,Metaandesites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),52.09,1.31,17.72,,,,8.77,0.18,3.69,7.58,3.29,1.84,0.82,1.9,99.19,37,220,35,28,30,30.3,1126,24.1,212.2,7.6, ,1215,45.49,95.47,11.4,47.48,9,2.15,5.96,0.77,4.13, ,0.74,1.91,0.29,1.71,0.28,4.65, ,2.38,,,, 379,1002,Metaandesites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),60.45,1.24,16.65,,,,6.43,0.13,1.84,4.07,5.26,2.1,0.63,1.23,100.02,20,130,<6,5,4,48.9,724.1,29.9,251.1,11.9, ,1089.1,42.14,93.11,11.99,42.49,7.62,1.44,6.15,0.76,4.77, ,0.96,2.64,0.39,2.01,0.34,7.05, ,11.72,2.5,,, 380,1007,Metaandesites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),59.59,1.12,18.11,,,,5.73,0.19,2.04,3.27,3.39,3.4,0.32,2.42,99.57,13,100,28,13,22,91.9,978.7,27.7,236.3,10.4, ,1135.1,37.48,82.99,11.18,37.83,6.6,1.22,5.48,0.83,4.26, ,0.87,2.38,0.36,2.1,0.33,6.57, ,13.77,4.17,,, 381,1053,Metaandesites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),59.19,0.97,17.88,,,,5.69,0.14,2.23,3.32,5.81,2.49,0.34,1.64,99.7,14,110,<6,9,6,58.4,771.5,28.2,146.9,8.1, ,1270.3,29.83,61.8,8.13,29.54,5.88,1.61,5.23,0.68,4.5, ,0.95,2.64,0.38,2.39,0.38,3.9, ,8.24,2.21,,, 382,1018,Metadacites and metarhyolites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),74.08,0.28,13.67,,,,1.76,0.04,0.1,1.06,5.14,3.12,0.05,0.76,100.05,3,33,<6,2,5,63.7,471.2,15.8,166.1,11.5, ,619.2,37.98,66.42,7.84,23.4,4.77,0.72,2.7,0.4,2.41, ,0.51,1.6,0.25,1.68,0.29,5.08, ,24.51,5.29,,, 383,1019,Metadacites and metarhyolites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),73.74,0.26,13.57,,,,1.67,0.03,0.12,0.6,4.37,5.2,0.04,0.4,100,2,30,<6,2,6,105.4,168.4,16.3,101.4,13, ,344.6,26.01,48.78,6.15,17.78,2.94,0.29,2.24,0.34,1.93, ,0.41,1.39,0.24,1.61,0.25,4.33, ,34.62,3.89,,, 384,1042,Metadacites and metarhyolites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),73.57,0.19,13.08,,,,1.92,0.03,0.23,0.81,4.66,4.69,0.03,1.03,100.24,<2,13,<6,2,3,94.6,280.5,8.8,149,8.4, ,636.5,30.38,49.27,4.98,14.22,2.61,0.42,1.54,0.19,1.22, ,0.23,0.81,0.12,0.83,0.18,4.6, ,20.41,1.4,,, 385,1078,Metadacites and metarhyolites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),64.6,0.63,16.05,,,,4.16,0.08,1.66,2.91,5.22,3.08,0.21,1.18,99.78,9,58,25,10,23,63.1,589.9,13.5,201.9,5.7, ,1131,31.84,59.36,6.8,26.07,4.91,1.15,2.59,0.35,1.82, ,0.36,1.02,0.16,1.02,0.18,4.96, ,12.91,3.22,,, 386,1096,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),70.71,0.3,15.16,,,,1.92,0.05,0.35,1.34,3.93,4.93,0.03,1.22,99.94,2,15,<6,<2,2,102,447.2,21.3,212.7,12.3, ,1155,31.41,61.38,7.37,21.63,3.63,0.42,2.52,0.37,2.2, ,0.44,1.37,0.25,1.9,0.36,5.57, ,22.28,2.63,,, 387,5153,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),73.99,0.23,13.45,0.93,0.88,,,0.03,0.23,0.42,4.26,4.47,0.05,0.62,99.56,2,8,,<2,4,126.8,148.5,17.8,112.9,13.6, ,406.1,31.18,57.02,6.97,19.92,2.87,0.27,2.28,0.27,1.73, ,0.37,1.22,0.2,1.41,0.24,3.98, ,40.47,4.86,,, 388,1046,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),66.79,0.44,16.11,,,,3.65,0.03,0.52,1.74,5.83,3.93,0.1,1.02,100.17,2,33,<6,3,3,53.5,588,12.8,348,6.8, ,1148.9,31.34,52.59,6.31,20.83,3.69,0.8,2.52,0.32,2.06, ,0.39,1.19,0.18,1.51,0.25,8.29, ,15.02,2.12,,, 389,1072,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),71.07,0.28,15.42,,,,2.08,0.05,0.1,0.91,4.05,5.09,0.07,0.9,100.01,3,15,<6,<2,2,96.1,490.5,16.5,242.4,7.3, ,1618.7,46.2,87.64,10.47,34.97,6.27,1.54,4,0.51,2.99, ,0.56,1.58,0.24,1.6,0.28,5.9, ,12.41,1.39,,, 390,6525,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),71.67,0.27,14.95,0.42,1.03,,,0.01,0.13,0.26,4.89,5.38,0.05,0.53,99.59,,,,,,99.4,169.3,16.4,115.4,10.5, ,794.4,34.04,80.52,7.27,23.51,5.31,0.66,2.72,0.37,2.28, ,0.46,1.25,0.22,1.47,0.24,3.42, ,15.96,1.36,,, 391,6527,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),69.87,0.29,15.75,0.54,1.24,,,0.03,0.32,0.64,4.89,5.25,0.07,0.7,99.59,,,,,,86.5,300.7,9,230.7,9.1, ,1345.1,53.73,105.16,10.01,28.65,3.89,0.7,1.6,0.24,1.31, ,0.27,0.74,0.13,0.86,0.14,4.86, ,16.35,2.34,,, 392,6529,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),70.15,0.28,15.4,0.91,1.18,,,0.02,0.58,0.9,5.76,4.07,0.12,0.63,100,,,,,,64.7,507,18.8,255.5,11.3, ,1111.2,57.75,95.76,10.69,36.51,5.16,1.12,2.89,0.38,2.39, ,0.46,1.28,0.2,1.34,0.25,5.68, ,15.12,2.26,,, 393,6530,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),70.22,0.27,15.25,0.56,1.39,,,0.03,0.4,0.75,4.96,5.03,0.1,0.61,99.57,,,,,,86.7,277,16.4,185.9,10, ,998,51.87,90.63,11.21,35.48,5.47,0.99,2.47,0.42,2.34, ,0.45,1.13,0.17,1.06,0.22,3.83, ,18.34,2.36,,, 394,5154,Granites,Kataev Formation,50.493363,106.615288,Figure-Polygon,"Donskaya et al., (2012)",226 - 230 Ma,,228,2,"Silicate analysis, XRF, spectral analysis, and ICP-MS",NI,"silicate analysis at the Institute of the Earth‚Äôs Crust, Irkutsk ,XRF at the Analytical Center of the UIGGM, Novosibirsk, spectral analysis at the Institute of the Earth‚Äôs Crust, Irkutsk, and ICP MS on VG Plasmaquad PQ-2 at the Center of Collective Use of the Irkutsk Science Center.",General location from figure (Center o corresponding polygon in the map),69.49,0.33,14.7,1.4,1.21,,,0.04,0.44,1.7,4.46,4.91,0.14,0.82,99.64,3,14,8,2,10,82.1,416.1,14.8,124.4,8.6, ,820.5,27.68,52.85,6.42,17.46,3.02,0.45,2.24,0.31,1.71, ,0.36,1.15,0.19,1.18,0.2,3.94, ,25.16,4.57,,, 395,14DX1-1,,,47.51638889,120.4277778,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,56.17,0.94,16.94,,,,6.55,0.08,3.64,2.23,4.19,4.42,0.37,3.78,99.31,12.1,130,53.8,19.9,51.3,66.2,1937,13.4,211,4.83,1.51,2030,35.7,73.8,9.12,37.2,6.5,1.76,4.52,0.56,2.7,19.4,0.48,1.24,0.17,1.08,0.16,5.29,0.28,6.52,1.31,,, 396,14DX1-2,,,47.51638889,120.4277778,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,56.51,0.94,17.16,,,,6.46,0.08,3.48,2.03,3.96,4.96,0.39,3.42,99.39,12.3,130,54.5,19.6,50,73.6,1771,14,212,4.94,1.64,2424,37.2,77.5,9.77,39.7,7.09,1.95,4.84,0.58,2.74,19,0.5,1.3,0.19,1.14,0.16,5.26,0.28,6.53,1.3,,, 397,14DX1-4,,,47.51638889,120.4277778,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,56,0.95,17.05,,,,6.5,0.08,3.72,2.44,4.4,4.16,0.43,3.78,99.51,12.9,131,58.4,20.7,51.7,65.3,1590,14.9,214,4.94,1.46,1859,41.5,86.3,10.83,44.2,7.76,2.16,5.31,0.64,2.98,20.7,0.52,1.33,0.19,1.19,0.17,5.28,0.28,6.59,1.3,,, 398,14DX1-5,,,47.51638889,120.4277778,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,55.29,0.95,17.45,,,,6.46,0.09,3.9,2.79,5.76,2.96,0.42,3.46,99.53,12.9,117,68.7,26.5,74,32.8,2209,14.6,209,5,0.51,1260,36.1,79.6,10.43,43.5,7.81,2.16,5.03,0.63,2.97,20.3,0.53,1.26,0.19,1.15,0.16,5.32,0.28,6.61,1.67,,, 399,14DX7-1,,,48.11444444,122.4533333,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,52.45,1.25,16.69,,,,8.5,0.15,6.92,6.57,3.21,1.2,0.39,2.7,100.03,17.8,162,265,34.3,154,20.1,919,17.7,171,6.36,2.47,502,21.7,50.2,6.44,26.7,5.45,1.67,4.75,0.66,3.61,19.3,0.69,1.86,0.26,1.59,0.24,3.95,0.38,2.79,0.77,,, 400,14DX7-2,,,48.11444444,122.4533333,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,52.99,1.23,16.64,,,,8.38,0.15,6.7,6.38,3.15,1.27,0.37,2.6,99.86,18.1,161,267,33.5,152,21,935,17.3,169,6.17,2.47,653,21.4,49.5,6.27,26.2,5.37,1.67,4.57,0.63,3.47,19.3,0.65,1.74,0.26,1.56,0.22,3.85,0.37,2.74,0.76,,, 401,14DX7-3,,,48.11444444,122.4533333,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,52.25,1.31,17.18,,,,8.39,0.14,6.36,6,3.4,1.7,0.4,2.76,99.89,18,158,286,34.2,160,31.9,978,18.2,174,6.43,3.39,534,21.6,49.9,6.45,27.5,5.59,1.7,4.82,0.67,3.86,19.2,0.72,1.85,0.26,1.72,0.24,4.08,0.37,2.81,0.83,,, 402,14DX7-6,,,48.11444444,122.4533333,GPS,Li et al. (2017b),228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,54.85,1.18,17.27,,,,7.15,0.14,5.77,4.95,3.8,1.12,0.38,3.02,99.63,16.6,151,146,27.4,89.2,18.1,994,16.3,179,6.32,3.05,489,24.8,54.2,6.73,28,5.39,1.61,4.42,0.63,3.44,19.7,0.61,1.68,0.26,1.42,0.21,4.1,0.38,3.7,0.99,,, 403,13ER46-1,,,49.98388889,119.1397222,GPS,"Tang et al., (2016)",228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,67.61,0.35,14.97,,,,2.52,0.1,0.83,4.05,4.64,1.94,0.15,2.22,99.38,4.12,30.1,1.73,3.64,1.24,61,658,12.1,124,5.6,7.18,317,20.2,41.3,4.62,17.5,3.18,0.93,2.51,0.35,2.02,16.8,0.36,1.01,0.14,0.88,0.14,3.3,0.38,4.24,1.26,,, 404,13ER46-4,,,49.98388889,119.1397222,GPS,"Tang et al., (2016)",228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,66.72,0.45,16.05,,,,3.35,0.04,0.93,4.1,4.32,1.3,0.17,2.18,99.61,5.08,35.7,2.57,3.9,1.85,34.7,1061,13.8,147,7.02,1.23,285,22,45.4,5.19,20.3,3.72,0.98,2.86,0.41,2.21,20,0.41,1.13,0.16,1.03,0.15,4.03,0.43,4.55,2.75,,, 405,13ER46-5,,,49.98388889,119.1397222,GPS,"Tang et al., (2016)",228 Ma,,228,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,67.51,0.44,15.92,,,,3.14,0.04,0.88,4.24,4.42,1.02,0.17,1.82,99.6,4.74,33.5,2.39,3.68,1.83,26.9,1179,13.8,151,7.13,1,228,29.5,59.9,6.56,24.6,4.26,1.06,3.14,0.43,2.3,20.2,0.41,1.14,0.18,1.1,0.15,3.94,0.41,5.15,2.85,,, 406,13ER13-6,,,52.05722222,122.0925,GPS,"Tang et al., (2016)",227 Ma,,227,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.26,1.04,15.84,,,,7.89,0.12,6.72,7.45,3.21,1.65,0.19,3.24,99.61,22.3,142,288,31.9,114,49,365,23.6,176,9.88,5.23,377,21.7,45.7,5.51,22.3,4.74,1.42,4.37,0.7,4.07,17.6,0.78,2.19,0.33,2.12,0.31,4.12,0.57,4.04,0.87,,, 407,13ER13-7,,,52.05722222,122.0925,GPS,"Tang et al., (2016)",227 Ma,,227,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,51.85,1.08,15.34,,,,8.39,0.12,6.93,7.6,3,2.06,0.2,3,99.57,22,185,276,34.4,117,68.1,339,25.2,176,9.65,6.26,354,22.8,46.6,5.51,22.2,4.5,1.38,4.16,0.66,4.04,17.6,0.75,2.12,0.32,1.99,0.3,4.14,0.58,4.19,0.92,,, 408,13ER13-8,,,52.05722222,122.0925,GPS,"Tang et al., (2016)",227 Ma,,227,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.74,1.1,15.92,,,,8.04,0.12,6.75,7.12,3.2,1.67,0.19,2.88,99.73,21.8,151,285,32,116,49.3,370,23.2,167,9.77,4.91,406,22.8,46.8,5.59,21.9,4.49,1.36,4.23,0.65,3.98,17.4,0.79,2.26,0.33,2.1,0.3,4.11,0.57,4.08,0.82,,, 409,13ER13-9,,,52.05722222,122.0925,GPS,"Tang et al., (2016)",227 Ma,,227,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.8,0.96,16.24,,,,7.79,0.11,6.43,6.85,3.32,1.77,0.21,3.16,99.64,20.1,136,271,30.7,110,53.8,362,22.1,171,9.28,5.43,397,21.7,45.1,5.33,21.9,4.34,1.32,4.31,0.67,3.82,17.5,0.74,2.19,0.34,2.24,0.29,4.2,0.55,4.25,0.89,,, 410,D1734,Trachyandesite,Triassic volcanic,46.99808,104.18811,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,60.185,0.924,16.205,6.199046162,,,,0.054,2.831,3.736,3.79,3.677,0.291,0.689953838,98.582,10.359, ,123.328,13.845,60.658,108.516,598,14.731,169.713,6.913,5.765,806,41.3,61.601,7.439,28.183,2.065,0.874,1.745,0.331,2.617,19.435,0.507,1.419,0.097,1.44,0.225,4.595,0.549,16.181,1.328,,, 411,D1735,Trachyandesite,Triassic volcanic,46.68242,104.21703,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.858,0.71,15.297,4.158193107,,,,0.04,2.148,2.148,3.262,5.323,0.205,0.462806893,99.612,3.729, ,21.44,4.103,11.635,115.725,481,8.234,138.514,5.949,5.15,785,37.3,46.661,5.47,19.38,5.33,1.23,3.02,0.69,1.573,19.161,0.308,0.857,0.26,0.809,0.128,3.902,0.473,19.977,1.874,,, 412,D1736,Trachyandesite,Triassic volcanic,46.68106,104.22589,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,59.112,0.953,15.112,5.720327544,,,,0.095,5.614,5.239,3.28,3.275,0.298,0.636672456,99.335,2.369, ,5.712,1.136,4.221,119.746,463,10.943,152.262,7.761,9.65,1024,45.7,97.285,10.638,35.815,2.616,0.91,2.215,0.335,1.986,18.762,0.389,1.082,0.21,1.091,0.17,4.197,0.597,21.193,1.825,,, 413,D1737,Andesite,Triassic volcanic,46.67989,104.22358,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,59.5,0.921,15.2,5.489066859,,,,0.08,4.614,5.312,3.789,3.665,0.299,0.610933141,99.48,2.41, ,5.45,1.32,4.16,118.98,476,11.943,159.6,7.2,8.79,1022,59,77.285,8.78,28.95,3.82,0.82,3.89,0.55,2.012,18.87,0.41,1.21,0.26,1.223,0.21,4.45,0.59,23.4,1.56,,, 414,D1738,Trachyandesite,Triassic volcanic,46.68997,104.25106,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,65.35,0.689,14.84,4.436245838,,,,0.041,1.19,2.35,2.94,5.31,0.19,2.35,99.68624584,8, ,70,9,30,169,586,13.7,170,5,7.3,1211,39.5,75.9,8.25,28.3,4.86,1.18,3.72,0.5,2.7,18,0.572,1.36,0.178,1.21,0.182,4.2,0.67,20.7,5.54,,, 415,D1739,Dacite,Triassic volcanic,46.70097,104.08722,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,58.55,0.919,14.79,5.55205615,,,,0.107,3.74,5.66,2.82,2.31,0.3,3.68,98.42805615,14, ,120,18,70,67,789,19.7,206,7.2,3.2,813,43.5,85.8,9.68,36.5,6.6,1.63,5.08,0.7,3.7,20,0.572,1.92,0.262,1.71,0.268,6.3,0.53,17.1,3.84,,, 416,D1743,Trachyandesite,Triassic volcanic,46.68339,104.66761,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,68.11,0.697,13.55,6.172950598,,,,0.08,0.5,1.76,3.9,2.78,0.2,1.71,99.4599506,14, ,20,2,20,94,168,35.6,298,7.7,4.1,642,16.2,58.3,5.06,20.5,5.65,1.3,6.22,1.13,6.94,21,0.572,4.08,0.625,4.04,0.652,8.6,0.62,10.1,3.1,,, 417,D1744,Trachyandesite,Triassic volcanic,46.72567,104.56889,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,59.814,1.001,15.457,6.70206065,,,,0.151,7.28,2.379,3.79,1.409,0.246,0.74593935,98.975,5.34, ,39.75,5.32,14.7,121.434,485,6.145,119.905,5.042,6.2,701,41.7,47.8,7.56,21.5,4.29,1.59,2.89,0.63,3.33,20.02,0.49,1.23,0.19,1.84,0.23,4.23,0.59,22.77,1.99,,, 418,D1745,Andesite,Triassic volcanic,46.72567,104.56889,GPS,"Gambat et al., (2021)",201-251 Ma,,226,25,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,60.266,0.788,14.809,5.673535499,,,,0.107,4.461,4.086,3.36,4.113,0.113,0.631464501,98.408,5.103, ,45.737,6.331,15.541,132.108,439,17.063,209.488,9.144,16.685,652,49.2,55.486,6.333,23.412,5.65,1.3,6.22,1.13,2.762,20.045,0.572,1.722,0.25,1.925,0.318,5.683,1.268,17.216,2.476,,, 419,727,PA syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,66.56,0.89,15.04,1.41,2.07,,,0.17,0.62,0.59,6.49,5.45,0.1,0.46,99.85, , , , , ,76,31,61,990,26, ,225,53,119,14.1,56,10.9,1.98,10.1,1.8,10.7,31,2.28,6.5,1.02,6.64,1.01,17.6,1.77,11,,,, 420,728,PA syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,64.94,0.91,16.18,1.1,2.01,,,0.14,0.75,0.56,6.71,5.72,0.11,0.28,99.41, , , , , ,51,6,31,290,16, ,27,43,91,12.8,53,9.6,1.56,8.2,1.2,6.4,30,1.26,3.48,0.49,3.17,0.49,5.7,0.72,2.19,0.83,,, 421,A516a,PA syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,66.1,0.56,16.3,2.88,0.2,,,0.1,0.36,0.14,6.5,5.5,0.09,1.02,99.75, , , , , ,86,54,38,890,27, ,250,,,,,,,,,,,,,,,,,,,,,, 422,KH14,PA syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,63.3,1.27,16.23,1.68,2.61,,,0.15,0.72,1.43,5.46,6.09,0.28,1.08,100.3, , , , , ,120,65,50,520,25, ,540,96,210,,90,15,3.5,,2.2,,,,,,4.9,0.73,,,19,4,,, 423,866,PA syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,66.06,0.73,15.73,4.29,,,,0.1,0.44,0.45,5.9,5.65,0.06,0.3,99.71, , , , , ,177,10,37,228,18.3, ,65,48,101,,49,8.4,1.3,7.4,,5,27,,,0.33,2.11,0.3,,0.98,,,,, 424,870,AFS syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,62.42,0.88,18.59,2.93,,,,0.12,0.77,1.21,5.35,6.2,0.19,0.56,99.22, , , , , ,,,,,, ,,30,55,,23,6.8,2.1,8.1,,6.6,,,,0.57,3.2,0.5,,,,,,, 425,3008,AFS syenite,Kharitonovo Complex,51.244376,107.332606,Figure-Polygon,"Jahn et al., (2009)",230 - 221 Ma,,225.5,4.5,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Kharinotovo Complex from figure,71.15,0.34,14.56,2.64,,,,0.08,0.14,0.3,4.62,5.33,0.06,1,100.22, , , , , ,377,36,56,503,46, ,120,62,132,,50,8.3,0.51,5.2,,3.6,29,,,0.28,1.62,0.23,,1.34,,,,, 426,15DX5-1,,,47.52833333,122.3219444,GPS,Li et al. (2017b),225 Ma,,225,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,72.37,0.19,14.38,,,,1.48,0.03,0.23,0.76,6.38,1.84,0.06,1.86,99.57,3,14.8,3.38,1.58,1.78,65.4,124,13.6,162,9.47,0.81,441,38.4,72.5,7.18,24.4,3.95,0.8,2.9,0.42,2.38,16.1,0.41,1.33,0.18,1.26,0.18,4.61,0.86,14,3.93,,, 427,15DX5-2,,,47.52833333,122.3219444,GPS,Li et al. (2017b),225 Ma,,225,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,73.13,0.2,14.42,,,,1.48,0.03,0.23,0.6,6.34,2.23,0.06,1.42,100.13,2.95,14.3,3.47,1.5,2.27,78.1,121,13.9,165,9.84,0.83,548,39.6,72.4,7.54,25.4,4.27,0.74,3.02,0.43,2.3,16.1,0.43,1.18,0.19,1.2,0.19,4.68,0.88,14.1,3.77,,, 428,15DX5-3,,,47.52833333,122.3219444,GPS,Li et al. (2017b),225 Ma,,225,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,73.39,0.2,14.5,,,,1.54,0.02,0.21,0.41,6.84,1.6,0.06,1.2,99.97,3.03,17.6,3.59,1.62,1.78,57.2,107,14.2,175,9.82,0.74,385,40.9,77.5,7.73,26.3,4.14,0.76,2.94,0.44,2.38,17.2,0.44,1.2,0.2,1.36,0.19,4.94,0.92,14.7,4.26,,, 429,13ER45-1,,,50.70694444,119.5691667,GPS,"Tang et al., (2016)",224 Ma,,224,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,72.6,0.25,15.33,,,,1.06,0.01,0.2,1.06,3.94,4.48,0.07,1.02,100.02,2.76,10.2,1.17,0.89,0.45,185,301,16.4,167,14.2,3.64,1051,24.6,56.6,5.17,18.6,3.63,0.73,2.9,0.48,2.76,20.8,0.53,1.46,0.22,1.62,0.24,4.37,1.17,15.9,1.59,,, 430,13ER45-3,,,50.70694444,119.5691667,GPS,"Tang et al., (2016)",224 Ma,,224,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.22,0.26,15.91,,,,1.52,0.01,0.25,1.08,4.02,4.67,0.07,1.04,100.05,2.83,10.7,1.07,0.84,0.22,197,279,17.4,171,14.3,4.34,887,27.3,61.8,5.67,20.4,3.74,0.65,3.23,0.51,2.85,21.2,0.55,1.61,0.24,1.74,0.25,4.79,1.13,19.7,1.64,,, 431,13HH19-3,,,50.11111111,126.0669444,GPS,Li et al. (2017b),223 Ma,,223,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,59.5,0.61,17.11,,,,4.84,0.05,3.3,3.92,4.19,1.4,0.24,4.46,99.62,10.7,98.9,97.5,15.9,61.3,19.4,1339,12.2,140,4.17,3.28,526,22.8,47.7,5.94,23.6,4.37,1.36,3.3,0.44,2.39,19.8,0.43,1.18,0.17,1.06,0.15,3.57,0.24,3.17,1.15,,, 432,13HH19-9,,,50.11111111,126.0669444,GPS,Li et al. (2017b),223 Ma,,223,,XRF and ICP-MS,Whole Rock,"State Key Lab- oratory ofGeological Processes andMineral Resources, ChinaUniversity of Geosciences, Wuhan. For",GPS location,63,0.6,16.75,,,,4.6,0.02,3.2,1.38,4.46,1.41,0.17,4.22,99.81,10.4,102,96.8,14.1,55.5,21.1,807,10.9,141,4.12,3.6,349,21.4,45.3,5.37,20.8,3.92,1.12,2.73,0.37,2.02,18.6,0.38,1.07,0.15,1,0.15,3.47,0.24,3.2,1.07,,, 433,13HH8-1,,Xingan Massif,50.24666667,125.7869444,GPS,"Li et al., (2018)",223 ± 1 Ma,,223,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,64.46,0.32,17.24,,,,2.37,0.1,0.73,2.54,4.88,3.25,0.15,3.46,99.5,1.71,16.4,1.52,2.47,2.51,38.3,497,15.1,232,7.26,0.92,720,34.9,73.2,8.19,29.3,4.65,1.32,3,0.43,2.51,19.9,0.49,1.43,0.23,1.63,0.26,5.19,0.44,6.41,1.42,,, 434,16DX6-2,,Xingan Massif,47.88416667,122.5780556,GPS,"Li et al., (2018)",221 Ma (?),,221,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,74.56,0.24,13.48,,,,1.48,0.04,0.31,0.86,3.44,4.73,0.03,1.04,100.21,3.48,16.9,4.26,1.71,2.22,122,203,15.9,173,10.2,1.11,722,30.2,58.2,6.24,22.2,3.8,0.69,2.83,0.41,2.38,14.7,0.49,1.47,0.23,1.67,0.26,4.64,0.9,11.7,1.96,,, 435,MOG-1/4,volcanic rocks,Orkhon depression,48.263642,100.673963,Figure-Polygon,"Voronstsov et al., (2007)",220 Ma,,220,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Orkh. General location from image,54.34,0.89,17.61,,,7.28,,0.11,3.83,7.59,4.19,2.38,0.39,1.32,99.93, , , , , ,30,1707,12,132,3.98, ,842,45.7,100.8,11.6,45.2,7.1,2.06,5.51,0.19,0.67, ,2.81,0.54,1.36,1.28,0.17,4.05,0.21,12.8,3.6,,, 436,MOG-1/8,volcanic rocks,Orkhon depression,48.263642,100.673963,Figure-Polygon,"Voronstsov et al., (2007)",220 Ma,,220,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Orkh. General location from image,51.47,1.2,16.22,,,7.24,,0.1,4.58,8.16,4.82,2.57,1.03,2.08,99.47, , , , , ,48,2975,28,333,7.11, ,2152,77,181.3,24,100.5,20,5.37,14.85,0.26,1.72, ,6.82,0.99,2.22,1.51,0.23,8.9,0.33,9.5,2.7,,, 437,BTs-7/3,volcanic rocks,Bat-Tsengel depression,48.152649,99.693488,Figure-Polygon,"Voronstsov et al., (2007)",220 Ma,,220,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",BTs. General location from image,51.24,1.9,16.31,,,9.39,,0.1,4.27,5.7,3.94,3.04,1.21,2.55,99.67, , , , , ,63,1040,22,319,25.6, ,1510,81.5,169,18.6,77,12.2,3.48,9.75,0.29,1.18, ,5.08,0.91,1.99,1.65,0.23,7.21,1.44,4.9,1.5,,, 438,BTs-7/6,volcanic rocks,Bat-Tsengel depression,48.152649,99.693488,Figure-Polygon,"Voronstsov et al., (2007)",220 Ma,,220,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",BTs. General location from image,51.78,1.94,15.14,,,9.3,,0.15,2.31,7.38,3.53,2.85,1.22,4.03,99.63, , , , , ,71,957,39,589,31.5, ,1490,105,208,23,96.8,16.5,3.7,12.6,0.56,1.74, ,7.86,1.46,3.98,3.2,0.48,11.5,1.48,4.1,1.3,,, 439,BTs-7/7,volcanic rocks,Bat-Tsengel depression,48.152649,99.693488,Figure-Polygon,"Voronstsov et al., (2007)",220 Ma,,220,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",BTs. General location from image,55.06,1.25,16.28,,,7.33,,0.1,3.05,6.16,3.41,2.69,0.57,3.8,99.7, , , , , ,66,800,24,380,18.2, ,1170,59.4,122,13,53.9,8.9,2.06,7.33,0.35,1.07, ,4.67,0.89,2.3,2,0.28,8.1,1.06,6.2,1.7,,, 440,D1726,Granodiorite,Zambalkhudag Complex,46.93847,104.33722,GPS,"Gambat et al., (2022)",220 Ma,,220,1,"Fusion inductively coupled plasma optical emission spectrometry (FUS-ICPOES) for major elements and inductively coupled plasma mass spectroscopy (FUS-ICPMS) for trace elements; and X-ray fluorescence for major elements, Inductively Coupled Plasma Mass Spectrometer (ICPMS) for trace and REE elements for the samples analyzed in China and Russia",whole rock,"Activation Laboratories Ltd., Canada; Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Science; and Analytical Center for Multi- Element and Isotope Studies of the Institute of Geology and Mineralogy, Novosibirsk, Russia.",Laboratory for each sample not specified,66.31,0.64,16.07,2.960496716,,,,0.05,1.45,2.59,3.9,4.09,0.23,0.93,99.22049672,, ,,,,164,425,19.5,261,14,7.1,694,36,74,8.6,32,5.8,1.27,4.7,0.68,3.5,,0.68,2,0.31,1.85,0.27,5.8,1.24,24,1.74,,, 441,A127,Comendite,Malo-Khamardaban,50.453455,104.458891,Figure-Polygon,"Jahn et al., (2009)",219 Ma,,219,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Malo-khamardaban complex from figure,72.3,0.13,13.52,1.25,1.44,,,0.15,0.09,0.43,5.33,4.52,0.03,0.58,99.77, , , , , ,336,34.2,25.1,468,107.4, ,59.4,49,86,8.8,24,3.8,0.3,3.7,0.57,3.4,33,0.72,2.24,0.37,2.64,0.39,17.9,6.3,36.24,8.31,,, 442,M77,Comendite,Malo-Khamardaban,50.453455,104.458891,Figure-Polygon,"Jahn et al., (2009)",219 Ma,,219,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Malo-khamardaban complex from figure,73,0.12,13.25,1.18,1.71,,,0.14,0.12,1.12,5.5,4,0.08,0.36,100.58, , , , , ,370,21,33,470,120, ,430,71,157,19.1,68,12.4,0.73,10.4,1.73,10.1,29,2.01,5.65,0.81,5.09,0.72,11.8,3.77,22,5.49,,, 443,A516,Peralkaline,Malo-Kunali,50.41305556,108.1511111,GPS,"Reichow et al., (2010)",219 Ma,,219,,XRF and liquid chromatography (LC) ICP-MS analyses (Sciex,Bulk rock,"Department of Geology at the University of Leicester, UK and CNRS Service d'Analyse des Roches et des Min√©raux (SARM), Nancy, France",GPS location,66.1,0.56,16.3,2.88,0.2,,,0.1,0.36,0.14, ,5.5,0.09,1.02,99.75, , , , , ,86,54,38,890,27, ,250,43,83, ,45.7,8.9,1.42,8.61,1.32,8.22, ,1.6,4.87,0.78,4.84,0.74, , ,, ,,, 444,GS6136,Porphyry,Daqiao syenite-porphyry,47.349426,120.229748,Figure-Point,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,219,18,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from figure,69.29,0.57,14.38,0.82,1.72,,,0.11,0.46,0.78,4.54,5.94,0.09,0.65,99.35,,59,57.1,6.21,8,151,113,53.2,504,22.1,,310,101,229,24.9,90.9,14.1,2.27,11.5,1.84,9.5, ,1.78,5.77,0.81,4.93,0.76,15.6,,,2.96,,, 445,GS48,Porphyry,Daqiao syenite-porphyry,47.349426,120.229748,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,219,18,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6136 in figure,67.89,0.64,15.71,0.81,2.27,,,0.09,0.64,0.73,4.56,5.52,0.16,0.89,99.91,,30.5,7.27,2.3,4.05,128,208,44,547,19.5,,1110,76.9,136,20.4,79.8,13.7,2.91,12.7,1.87,8.98, ,1.76,4.9,0.7,4.61,0.69,12.4,,,3.32,,, 446,GS6396,Porphyry,Daqiao syenite-porphyry,47.349426,120.229748,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,219,18,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6136 in figure,72.08,0.47,14.03,0.44,2.09,,,0.069,0.36,0.29,3.3,5.49,0.13,1.21,99.96,,24,30.2,1.74,14.1,162,78.6,32.8,596,20.9,,972,48.3,173,13,47,7.93,1.26,8.31,1.17,6.06, ,1.2,4.3,0.71,4.48,0.62,,,,3.67,,, 447,GS11,Porphyry,Daqiao syenite-porphyry,47.349426,120.229748,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,219,18,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6136 in figure,70.34,0.53,15.04,0.46,1.9,,,0.055,0.26,0.42,3.68,6.14,0.12,0.91,99.86,,21,41.8,1.78,12.6,163,69,48.9,559,22.4,,644,83.4,197,22.5,82,14.1,1.9,13.8,1.88,9.06, ,1.67,5.95,0.93,5.79,0.8,,,,4.32,,, 448,GS12,Porphyry,Daqiao syenite-porphyry,47.349426,120.229748,Figure-Polygon,"Liu et al., (2018)",Late Triassic (~201-237 Ma),,219,18,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6136 in figure,71.08,0.46,14.16,0.84,1.49,,,0.091,0.22,0.64,3.43,6.15,0.14,1.09,99.79,,23,41.9,2.06,13.1,165,74.9,55.2,558,24,,656,84.1,195,23.2,88.3,15.4,2.09,15.6,2.13,10.2, ,1.88,6.5,1.01,6.24,0.85,,,,5.14,,, 449,Baga K51,fine-grained granite,fine-grained granite,46.17722222,106.0870278,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,75.73,0.058,12.58,,,,1.17,0.025,0.03,0.51,3.6,4.61, ,0.89,99.2,3, , ,99, ,505,9,134,100,54,13,10,34.6,97.8,10.8,39.3,11.9,0.08,12.9,2.9,19.7,24,4.2,13.8,2.38,17,2.73,7.4,8.2,38.7,3.4,,, 450,Baga W78,fine-grained granite,fine-grained granite,46.21080556,105.9720278,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,75.92,0.069,12.49,,,,1.1,0.03,0.03,0.48,3.39,4.61, ,0.74,98.9,5, , ,77, ,534,7,134,143,73,"21,7",21,54.7,119,12.7,43,10.9,0.06,11.8,2.6,18.4,26,4.1,13.8,2.51,17.6,2.8,9.3,9.4,45.8,9.6,,, 451,Baga M51,medium-grained granite,medium-grained granite,46.24158333,107.0268056,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.84,0.07,12.15,,,,0.95,0.022,0.04,0.52,3.54,4.84,0.17,0.74,99.9,4, , ,83, ,402,22,126,147,40,21,71,37,88.7,10.3,38,9.7,0.15,10.2,2.2,15.3,25,3.4,11.1,1.95,13.4,2.16,7.1,5.2,36.3,5.2,,, 452,Baga K15,medium-grained granite,medium-grained granite,46.22733333,106.0907222,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,77.86,0.068,11,,,,0.96,0.021,0.04,0.26,3.14,4.45,0.03,0.79,98.6,3, , ,85, ,400,10,69,129,34,16,25,34.8,74,7.72,25.7,6.1,0.11,6.4,1.4,9.4,20,2.1,6.7,1.18,8.1,1.27,7,4.2,26.5,6.1,,, 453,Baga M28,coarse-grained granite,coarse-grained granite,46.22366667,106.0194722,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.7,0.096,11.64,,,,1.03,0.015,0.05,0.45,3.01,4.96, ,0.79,98.7,4, , ,83, ,403,22,112,175,50,11.4,52,58.8,124,14.9,49.9,12.1,0.15,11.4,2.3,16.4,26,3.5,11.2,1.99,14.4,2.34,9.9,6.3,47.1,14.4,,, 454,Baga M25,coarse-grained granite,coarse-grained granite,46.21552778,106.0133611,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.02,0.063,12.17,,,,0.89,0.017,0.04,0.38,3.35,4.7, ,0.95,98.6,3, , ,67, ,385,12,92,130,40,13.1,58,34.7,78.5,9.14,31,8.1,0.18,8.1,1.8,13,26,2.8,8.8,1.48,10.6,1.77,7.7,4.9,40.5,4.8,,, 455,Baga M31,coarse-grained granite,coarse-grained granite,46.23330556,105.9891667,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.13,0.048,13.01,,,,0.84,0.012,0.03,0.37,3.86,4.54,0.02,0.96,99.82,3, , ,86, ,461,13,96,152,51,14.3,56,42.2,98.1,11.6,39.4,10.4,0.11,9.4,2,14.5,29,3.2,10.7,1.89,14,2.28,10.1,6.2,58.4,7.1,,, 456,Baga K3,coarse-grained granite,coarse-grained granite,46.20402778,106.0391111,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.79,0.115,12.25,,,,1.21,0.019,0.08,0.39,3.09,5.18,0.02,0.73,99.87,5, , ,70, ,316,24,69,166,29,15.8,156,63.4,145,13.7,47.1,9.5,0.28,8.9,1.7,11.1,22,2.4,7.7,1.32,9.1,1.45,8.1,4.6,27.1,11.6,,, 457,Baga M20,medium-grained granite,medium-grained granite,46.23183333,106.0784444,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.87,0.083,11.63,,,,1.09,0.019,0.06,0.4,3.19,4.75, ,0.58,98.67,3, , ,80, ,325,14,70,144,35,8.8,67,40.9,89.7,10.4,35.1,8.4,0.19,7.8,1.6,10.9,26,2.3,7.6,1.23,8.8,1.44,7.6,5.3,37.2,4.4,,, 458,Baga M32,fine-grained granite,fine-grained granite,46.23055556,105.9983056,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,76.48,0.08,11.83,,,,1,0.013,0.03,0.47,3.25,4.79, ,0.71,98.66,3, ,,92, ,456,10,110,147,48,11.4,37,52.8,114,13.5,44.2,10.8,0.18,10.3,2.2,15.7,27,3.5,11.4,1.98,14.3,2.28,8.7,6.5,46.1,7.3,,, 459,KW5,"gray greisen, fine-grained, with prevalent quartz, white mica and accessory chlorite","gray greisen, fine-grained, with prevalent quartz, white mica and accessory chlorite",46.21472222,106.0585278,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,75.35,1.64,13.57,,,,4.56,0.072,0.06,0.98,0.03,1.64,0.04,2.33,98.74,4, , ,100, ,506,12,99,195,37,39.5,39,59.2,138,14.2,49.4,11.7,0.27,11.1,2.3,14.7,29,3.1,9.9,1.69,11.9,1.93,8.1,3.9,38,15.8,,, 460,KW15,"clear quartz-white mica greisen, fine-grained","clear quartz-white mica greisen, fine-grained",46.17358333,106.0073056,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,89.66,0.069,9.55,,,,0.16,0.003,0.01,0.05,0.03,0.1,0.03,1.25,100.9,2, , ,122, ,14,3,24,159,45,0.7,5,14.8,37.8,4.03,13.7,3,0.09,2.4,0.5,3.5,5,0.8,2.7,0.49,3.5,0.56,7.1,4.8,37,32.7,,, 461,MW31,"black biotite greisen, fine-grained","black biotite greisen, fine-grained",46.22372222,106.0125,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,55.77,0.276,17.03,,,,13.21,0.564,0.19,0.61,0.05,7.39,0.07,3.27,98.43,22,14, ,24, ,>1000,31,58,199,90,123,102,170,374,43,137,23.5,0.3,12.7,1.8,10.2,69,2.2,7.3,1.18,7.9,1.23,9.6,7.9,165,16.7,,, 462,MW39,trachyandesite,trachyandesite,46.23930556,106.0298889,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,54.02,1.549,17.71,,,,8.75,0.13,2.26,5.76,3.21,2.58,0.64,1.93,98.6,22,209, ,30,40,218,596,48,371,15,40,770,34.6,70.4,10.1,42.8,9.9,1.88,8.8,1.4,8.5,23,1.7,5.2,0.76,4.9,0.78,10.1,0.8,13.4,4.6,,, 463,M43z,trachyandesite,trachyandesite,46.25208333,106.1595556,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,54.85,1.495,17.56,,,,8.41,0.118,2.34,5.5,3.53,2.74,0.64,2.79,99.9,19,207, ,27, ,78,799,39,346,14,4.1,896,41.6,90.8,11.2,43.6,9.2,1.86,7.9,1.3,7.1,21,1.4,3.9,0.57,3.8,0.63,10.5,0.7,13.5,4.3,,, 464,M44,trachyandesite,trachyandesite,46.25208333,106.1595556,GPS,"Machowiak et al., (2012)",Late Triassic (~201-237 Ma),,219,18,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,55.19,1.497,16.22,,,,8.87,0.139,2.78,2.76,4.31,3.07,0.68,3.12,98.6,19,189, ,27, ,108,359,42,385,13,5,1279,39.1,92.8,11.3,46.8,9.9,1.87,8.8,1.4,7.8,18,1.5,4.3,0.64,4.2,0.68,10.4,0.7,13.2,4.3,,, 465,864-1,Alkaline granite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",73.26,0.29,11.28,,,,4.41,0.08,0.18,0.3,3.98,5.25,0.03,0.59,99.65, , , , , ,244,4,59,1751,63, ,17,33.2,60.2,,18.4,3.7,0.34,3.28,,3.74, ,,,0.3,1.73,0.25,,3.01,, ,,, 466,865,Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.66,0.54,17.01,,,,3.29,0.06,0.39,0.36,6.36,6.09,0.09,0.73,100.58, , , , , ,190,9,32,336,19, ,42,36.3,88.2,,36.8,5.6,0.87,5.71,,4.48, ,,,0.36,2.24,0.33,,2.89,, ,,, 467,A 143,Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",64.62,0.75,17.12,,,,2.75,0.1,0.49,0.49,6.71,6.29,0.12,0.34,99.78, , , , , ,118,15,53,570,22, ,96,61.3,112.8,,56.1,7.5,1.49,7.68,,5.34, ,,,0.41,2.25,0.33,,,8, ,,, 468,A 145-2,Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.78,0.71,16.36,,,,2.74,0.18,0.44,0.28,6.6,5.91,0.18,0.55,99.73, , , , , ,174,17,81,511,36, ,93,53.1,128.1,,52.4,7.9,1.06,7.82,,6.24, ,,,0.57,3.09,0.45,,2.42,, ,,, 469,A 145a,Alkaline granite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",67.2,0.77,15.25,,,,4.28,0.17,0.43,0.08,5.88,5.17,0.13,0.51,99.87, , , , , ,322,13,72,777,40, ,32,84.2,175.1,,73.9,9.7,1.31,9.77,,7.98, ,,,0.68,4.28,0.62,,3.97,, ,,, 470,A 149,Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",64.84,0.33,17.12,,,,3.36,0.16,0.51,1.18,5.41,6.83,0.12,0.27,100.13, , , , , ,80,41,33,114,43, ,148,29.7,65.3,,38.1,6,1.74,5.74,,3.81, ,,,0.29,1.62,0.25,,4.09,, ,,, 471,A 163/11,Basalt,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",49.1,2.44,16.01,,,,10.7,0.14,4.87,7.49,3.63,2.13,0.62,2.3,#REF!, , , , , ,32,845,41,370,16, ,1200,30,65,,34,7.1,2.2,,,1.2, ,,,,3.6,0.52,,,8, ,,, 472,B 275,Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.7,0.87,16.2,,,,2.49,0.1,0.43,0.25,6.2,5.89,0.1,0.97,99.2, , , , , ,153,20,44,458,38, ,131,,,,,,,,,, ,,,,,,,,9, ,,, 473,B 318-1 (864),Alkaline syenite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",65.14,0.82,16.64,,,,4.09,0.09,0.36,0.78,6.17,6.33,0.09,0.12,100.63, , , , , ,100,19,33,161,22, ,39,31.9,64.8,,38.9,6,1.12,5.94,,4.6, ,,,0.28,1.72,0.25,,2.06,, ,,, 474,B 336-1,Basalt,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-231 Ma,"Donskaya et al., (2013)",218.5,12.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",48.6,2.13,16.9,,,,11.33,0.13,6.17,6.64,3.66,1.75,0.75,1.52,347.73, , , , , ,23,910,30,230,11, ,720,26,58,,30,6.4,2.1,,,1.1, ,,,,2.5,0.34,,,2, ,,, 475,421,Trachydolerites,Post-ore dike,49.015881,104.229637,Figure-Polygon,"Berzinga et al., (2009)",199.6 - 235 Ma,,217.3,17.7,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,48.58,1.61,18.23,,,,10.3,0.14,6.68,5.23,3.82,3.2,0.61,1.64,100.02,8.56,162,158,28,82,76,1282,15.3,134,6.8, ,1098,32,72,10.4,41,7.4,1.99,4.9,0.73,3.3, ,0.53,1.33,0.19,1.13,0.15,4.1,0.34,4.4,1.19,,, 476,0896z,Trachydolerites,Post-ore dike,49.015881,104.229637,Figure-Polygon,"Berzinga et al., (2009)",199.6 - 235 Ma,,217.3,17.7,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,48.94,1.64,18.25,,,,9.6,0.19,4.46,5.55,5.17,3.49,0.65,1.98,99.93,8.36,139,46,20,27,49,1545,18.8,180,7.7, ,1753,42,87,12.8,52,9.6,2.5,6.9,0.99,4.6, ,0.73,1.86,0.28,1.46,0.22,6,0.54,5.7,1.69,,, 477,0888d,Trachyadesite-basalt-porphyry,Post-ore dike,49.015881,104.229637,Figure-Polygon,"Berzinga et al., (2009)",199.6 - 235 Ma,,217.3,17.7,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,50.63,1.74,17.98,,,,8.9,0.13,4.86,7.82,3.81,2.05,0.68,1.39,99.98,11.12,145,89,22,34,18.8,1294,24,226,12.9, ,931,42,87,11.6,44,7.6,2,5.7,0.86,4.6, ,0.86,2.4,0.36,2.1,0.32,6.6,0.81,4.1,1.27,,, 478,897,Trachyadesite-basalt-porphyry,Post-ore dike,49.015881,104.229637,Figure-Polygon,"Berzinga et al., (2009)",199.6 - 235 Ma,,217.3,17.7,X-ray fluorescent method (XRF) for rock-forming minerals and ICP MS on an ELEMENT (Finnigan Mat) high-resolution mass spectrometer with a U-5000AT+ ultrasonic atomizer for trace elements,NI,"Analytical Center of the Institute of Geology and Mineralogy, Novosibirsk.",General location in the center of corresponding polygon,51.42,1.66,17.5,,,,8.82,0.16,4.78,7.45,4.05,2.14,0.66,1.65,100.28,10.89,133,77,22,33,19,1225,23,230,13.1, ,947,38,81,11,42,7.1,1.91,5.8,0.79,4.6, ,0.86,2.3,0.32,2,0.3,6.7,0.67,4.5,1.26,,, 479,M99-05,Monzogranite,Mongolian granitoid rocks,46.484,100.023,GPS,"Jahn et al., (2004)",250 Ma,,217,,"ICP-AES (major elements) and ICP-MS (trace elements)",NI,Analytical Center of the CRPG at Nancy (France).,GPS,67.98,0.37,15.93,,,,3.19,0.04,0.97,2.46,3.83,3.9,0.14,1.11,99.92, ,28.6,19.7,5,5.1,115,479,7.57,155,7.39,3.36,1022,30.55,58.23,6.27,22.41,3.57,0.96,2.28,0.31,1.64,18.8,0.27,0.69,0.11,0.61,0.1,4.7,0.93,16.32,2.77,,, 480,TG 1/1,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,67.94,0.49,16.34,,,2.2,,0.05,0.08,0.17,6.04,5.09,0.09,0.54,99.03, , , , , ,145,47,32,770,28.76, ,81,142.8,225.5,33.1,111.4,14.4,1.38,11.81,1.39,7.2, ,1.3,3.94,0.56,3.79,0.56,6.35,3.16,12.3,3.1,,, 481,TG 1/2,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,70.29,0.38,15.09,,,2.05,,0.02,0.15,0.07,4.88,5.63,0.09,0.56,99.21, , , , , ,194,57,41,849,30.97, ,126,90.1,177.1,22.5,76.6,12.8,1.29,11.28,1.45,8.53, ,1.63,5.06,0.78,5.36,0.78,11.81,2.35,17.9,2.7,,, 482,TG 1/3,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,62.25,0.71,17.69,,,3.67,,0.12,0.73,0.85,5.95,6.55,0.23,0.38,99.13, , , , , ,140,75,28,510,30.09, ,380,100.5,200,25.2,101.5,16.9,3.33,11.83,1.55,8.01, ,1.45,4.19,0.62,3.68,0.61,41.19,3.6,18.2,3.4,,, 483,TG 1/4,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,70.15,0.48,15.23,,,2.45,,0.07,0.16,0.07,5.93,3.88,0.16,0.74,99.32, , , , , ,128,33,24,840,19, ,84,131.5,227.2,30.1,100.3,14.2,1.4,11.37,1.19,6.03, ,0.99,2.96,0.39,2.73,0.37,5.58,1.49,12.1,2.2,,, 484,TG 1/5,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,69.14,0.38,15.33,,,1.66,,0.18,0.19,0.25,6.11,5.28,0.04,0.32,98.88, , , , , ,202,12,56,915,29.01, ,25,108.8,205,26.8,99.5,16.4,1.6,13.74,2.24,13.14, ,2.74,7.99,1.35,8.59,1.39,35.28,3.39,33.5,4.8,,, 485,TG 1/7,volcanic rocks,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,68.87,0.38,15.24,,,1.27,,0.15,0.2,0.3,6.2,5.34,0.04,0.29,98.28, , , , , ,218,10,58,848,32.21, ,27,110.4,229.6,26.3,101.3,17.8,1.71,14.06,2.23,14.01, ,2.82,8.64,1.34,8.32,1.31,36.47,4.16,35,4.9,,, 486,TG 16/2,sill,Ust Sukharinskii and Ulantui fields,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",209-215 Ma,,217,8,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,48.18,1.71,16.83,,,11.41,,0.16,7.47,8.29,3.72,1.35,0.46,0.36,99.93, , , , , ,16,1049,31,166,6.92, ,647,24.1,57,7.1,32.3,6.9,2.03,6.21,0.9,5.17, ,0.96,2.67,0.41,2.47,0.36,6.92,2.55,1.4,0.3,,, 487,Baga-Khenteii-1,Granitoid,Baga-Khenteii,47.863721,108.378926,Figure-Polygon,"Antipin et al., (2019)",195-230 Ma,,212.5,17.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,63.77,0.78,16.95,2.05,1.77,,,0.12,1.39,3.02,4.94,3.59,0.18,0.5,100.06, , , , , ,81,236,26,284,4.4, ,800,42,72, , , , , , , , , , , ,3, ,3.1,0.4,, ,,, 488,Baga-Khenteii-2,Granitoid,Baga-Khenteii,47.863721,108.378926,Figure-Polygon,"Antipin et al., (2019)",195-230 Ma,,212.5,17.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,68.29,0.4,17.41,1.98,0.46,,,0.09,0.84,1.63,4.33,3.88,0.14,0.41,99.86, , , , , ,88,200,34,175,9.3, ,868,41,67, , , , , , , , , , , ,4, ,3.7,0.8,21.4, ,,, 489,Baga-Khenteii-3,Granitoid,Baga-Khenteii,47.863721,108.378926,Figure-Polygon,"Antipin et al., (2019)",195-230 Ma,,212.5,17.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,74.27,0.22,12.76,1.25,0.72,,,0.08,0.27,0.91,3.56,4.83,0.02,0.42,99.31, , , , , ,119,200,13.4,160,4.5, ,840,37,66, , , , , , , , , , , ,1.8, ,2.7,0.7,9.7, ,,, 490,B440,Comendite,Tsagan-Khurtei Structure,51.733299,111.576722,Figure-Polygon,"Jahn et al., (2009)",212 Ma,,212,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Tsagan Kurtei from figure,74.5,0.29,10.7,,4.08,,,0.06,0.23,0.4,3.22,5.95,0.04,0.64,100.11, , , , , ,207,21,52,1024,42, ,62,91,180,,72,12,1.5,,1.8,,,,,,6.1,0.95,14,,21,,,, 491,B444,Comendite,Tsagan-Khurtei Structure,51.733299,111.576722,Figure-Polygon,"Jahn et al., (2009)",212 Ma,,212,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Tsagan Kurtei from figure,72,0.34,10.95,,6.7,,,0.15,0.2,0.2,5.03,4.17,0.05,0.59,100.38, , , , , ,135,18,110,1450,55, ,110,,,,,,,,,,,,,,,,50,,17,,,, 492,1/7a,Trachybasalt,Tsagan-Khurtei Structure,51.733299,111.576722,Figure-Polygon,"Jahn et al., (2009)",212 Ma,,212,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Tsagan Kurtei from figure,46.93,2.69,16.19,,12.48,,,0.17,6.37,8.12,4.02,1.1,1.02,0.9,99.99, , , , , ,10,1188,30,228,11, ,596,40,94,11.4,54.6,10.4,3.36,8.3,1.26,6.4,,1.27,3.08,0.48,2.85,0.41,5.6,,2.1,,,, 493,B446-1,Trachybasalt,Tsagan-Khurtei Structure,51.733299,111.576722,Figure-Polygon,"Jahn et al., (2009)",212 Ma,,212,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Tsagan Kurtei from figure,45.82,2.7,16.5,,13,,,0.15,6.45,8.02,4.23,0.29,1.05,2.05,100.26, , , , , ,11,1136,22,210,10, ,490,47,100,12.1,56,11.1,3.44,9.2,1.44,7.7,,1.54,3.86,0.63,3.89,0.54,,,,,,, 494,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,70.86,0.24,15.06,,,,2.452515,0.06,0.42,1.45,3.92,4.68,0.05,0.51,99.53,,14.5,,,,132,125,11.2,247,7.31,2.73,715,23.6,45,4.62,16.9,2.86,0.49,2.51,0.37,2.16,27,0.42,1.29,0.2,1.38,0.22,4.48,0.33,11.4,2.49,,, 495,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.44,0.25,14.21,,,,2.542515,0.08,0.44,1.5,3.66,3.85,0.05,0.55,99.4,,14.4,,,,115,122,12.4,254,7.61,2.6,558,21.6,42.1,4.25,15.7,2.74,0.49,2.57,0.38,2.34,23,0.45,1.43,0.22,1.54,0.25,4.63,0.41,9.45,2.53,,, 496,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.08,0.25,14.83,,,,2.309142,0.1,0.43,1.61,3.96,3.71,0.05,0.81,100,,15.7,,,,105,142,9.74,251,6.21,3.1,641,18,34.3,3.42,12.6,2.15,0.52,2.01,0.3,1.84,24.8,0.36,1.13,0.17,1.19,0.19,4.63,0.25,8.74,1.94,,, 497,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.98,0.2,14.02,,,,1.886882,0.12,0.33,1.22,3.81,5.06,0.05,0.47,100.01,,11.2,,,,132,113,8.96,233,6.05,5.7,805,20.7,39.2,3.9,14.4,2.4,0.44,2.12,0.31,1.82,27.9,0.34,1.09,0.17,1.17,0.18,4.33,0.28,8.15,1.64,,, 498,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.54,0.27,13.57,,,,2.60808,0.14,0.6,1.52,4,4.23,0.08,0.52,99.9,,16.1,,,,115,132,12.5,300,7.37,3.87,696,23.8,44.7,4.47,16.6,2.88,0.53,2.62,0.39,2.3,26.1,0.44,1.41,0.22,1.49,0.24,5.29,0.36,10.8,2.13,,, 499,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,72.64,0.19,14.06,,,,1.888012,0.01,0.33,1.25,3.64,4.09,0.04,0.79,99,,20,,,,141,140,11,160,6.6,9.38,779,31.3,54.9,6.06,19.4,3.07,0.56,2.56,0.36,2,19.2,0.41,1.15,0.17,1.25,0.21,4.4,0.4,11.8,1.13,,, 500,MH-N2,,,53.158786,122.073866,Figure-Point,"Li et al., (2016)",212 Ma,,212,,XRF and ICP-MS,Whole Rock,Testing Center of Jilin University,General location from figure,73.1,0.18,14.09,,,,1.372413,0.01,0.28,1.29,3.65,4.05,0.04,0.84,98.97,,15,,,,129,142,10.5,160,6.3,3.22,745,29.8,52.7,5.78,18.3,2.88,0.56,2.38,0.34,1.84,18.8,0.38,1.11,0.16,1.12,0.19,4.2,0.4,11.5,2.52,,, 501,A 13-1,Alkaline granite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",71.4,0.46,12.57,,,,3.55,0.12,0.35,0.34,4.84,5.09,0.04,0.48,99.24, , , , , ,161,18,134,1108,75, ,93,84,213.9,22.8,82.4,16.8,1.84,16.03,3.14,19.45, ,4.06,12.29,2.06,11.9,1.75,29.2,4.5,21, ,,, 502,B 440,Comendite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",74.5,0.29,10.7,,,,4.08,0.06,0.23,0.4,3.22,5.95,0.04,0.64,100.11, , , , , ,207,21,52,1024,42, ,62,91,180,,72,12,1.5,,1.8,, ,,,,6.1,0.95,14,,21, ,,, 503,B 444,Comendite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",72,0.34,10.95,,,,6.7,0.15,0.2,0.2,5.03,4.17,0.05,0.59,100.38, , , , , ,135,18,110,1450,55, ,110,,,,,,,,,, ,,,,,,50,,17, ,,, 504,B 445-1,Comendite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",70.9,0.53,11.9,,,,5.38,0.16,0.36,0.76,4.56,5.15,0.1,0.68,100.48, , , , , ,172,57,190,1500,64, ,170,120,200,,100,17,2.4,,3.1,, ,,,,11,1.7,,,, ,,, 505,B 446-1,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",45.82,2.7,16.5,,,,13,0.15,6.45,8.02,4.23,1.29,1.05,2.05,133.59, , , , , ,11,1136,22,210,10, ,490,47.3,100,12.1,56,11.1,3.44,9.21,1.44,7.68, ,1.54,3.86,0.63,3.89,0.54,10,,9.4, ,,, 506,B 463-3,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",48.6,1.76,16.9,,,,10.33,0.16,4.95,6.05,3.87,3.16,0.84,3.6,133.14, , , , , ,38,1401,27,310,17, ,1400,,,,,,,,,, ,,,,,,,,, ,,, 507,B-278/2,Alkaline granite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",72.9,0.33,12.4,,,,2.61,0.08,0.15,0.26,5.08,4.85,0.01,0.78,99.45, , , , , ,201,35,30,626,26, ,147,53,120,,39,5.7,0.72,,1.1,, ,,,,4.3,0.69,,,24, ,,, 508,B-317 (866-1),Alkaline granite,Kharitonovo volcanoplutonic complex,51.244376,107.332606,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",71.94,0.35,12.68,,,,3.79,0.09,0.22,0.42,4.63,4.79,0.04,0.64,99.59, , , , , ,185,28,45,282,32, ,22,63,114,,43.81,5.94,0.7,5.96,,5.43, ,,,0.37,2.14,0.3,,8.5,, ,,, 509,L 716,Alkaline granite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",74.16,0.23,11.08,,,,3.7,0.1,0.13,0.21,4.74,4.53,0.02,0.76,99.66, , , , , ,132,7,78,733,41, ,44,74.5,155.2,17,58.2,10.5,0.42,9.48,1.64,10.77, ,2.5,7.94,1.34,8.2,1.4,20.6,3.56,14.5, ,,, 510,L 722,Alkaline granite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",73.02,0.42,12.11,,,,3.71,0.13,0.23,0.26,4.98,4.68,0.02,0.57,100.13, , , , , ,140,16,70,916,42, ,60,68.1,167.6,17.5,65.4,12.5,1.52,10.7,1.93,11.09, ,2.29,7.24,1.12,7.49,1.16,20.7,2.38,13.8, ,,, 511,L 725,Alkaline granite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",72.32,0.42,12.47,,,,3.62,0.12,0.3,0.31,5.12,4.94,0.03,0.5,100.15, , , , , ,130,9,56,652,35, ,65,81.5,153.6,18.2,64.6,11.3,1.42,10.07,1.75,9.23, ,2.02,5.8,0.91,5.65,0.91,16.7,2.1,11.8, ,,, 512,L 727,Alkaline syenite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",66.56,0.89,15.04,,,,3.62,0.17,0.62,0.59,6.49,5.45,0.1,0.46,99.99, , , , , ,73,27,72,981,31, ,259,53,119.3,14.1,56.2,10.9,1.98,10.14,1.8,10.65, ,2.28,6.5,1.02,6.64,1.01,17.6,1.77,5.5, ,,, 513,L 728,Alkaline syenite,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",64.94,0.91,16.18,,,,3.22,0.14,0.75,0.56,6.71,5.72,0.11,0.28,99.52, , , , , ,55,10,43,284,20, ,57,58,129,14.6,57.5,11,1.84,8.62,1.42,7.13, ,1.4,3.66,0.55,3.5,0.53,6.2,0.82,2.4, ,,, 514,Tskh 1/1,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",49.36,2.11,16.46,,,,10.41,0.17,5.78,7.55,3.81,1.45,0.74,2.07,166.213653, , , , , ,18,811,40,325,11, ,912,33.4,60.4,9.01,42.5,8.67,2.91,7.05,1.08,5.6, ,1.1,2.82,0.42,2.58,0.36,7.1,,2.6, ,,, 515,Tskh 1/5,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",49.03,2.03,16.88,,,,10.62,0.15,5.95,7.66,4.04,1.2,0.77,1.56,188.1597977, , , , , ,16,974,27,188,7, ,747,,,,,,,,,, ,,,,,,4.7,,2.3, ,,, 516,Tskh 1/6,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",48.48,2.02,17.03,,,,10.76,0.14,6.21,8.06,3.98,1.09,0.8,1.36,313.742744, , , , , ,13,988,28,177,5, ,749,34.2,62,9.25,44.3,8.79,3,7.14,1.13,5.92, ,1.17,2.74,0.43,2.72,0.37,3.6,,2, ,,, 517,Tskh 1/7,Basalt,Tsagan-Hurtei volcanic suite,51.747752,111.589884,Figure-Polygon,"Yarmolyuk et al., (2001)",206-217 Ma,"Donskaya et al., (2013)",211.5,5.5,XRF and ICPMS,Bulk rock,"XRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. ICP-MS method at the Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow. Concentrations of trace elements were determined by ICP-MS using an Agilent 7500 s spectrometer. Rock","General location from jahn et al., (2009). Geochemical data and general age-range from Donskaya et al., (2013).",46.93,2.69,16.19,,,,12.48,0.17,6.37,8.12,4.02,1.1,1.02,0.9,341.3074501, , , , , ,10,1188,30,228,11, ,596,39.8,94.3,11.4,54.6,10.4,3.36,8.26,1.26,6.43, ,1.27,3.08,0.48,2.85,0.41,5.6,,2.1, ,,, 518,TsKh 7/2,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,77.23,0.11,11.2,,,2.85,,0.01,0.07,0.09,3.65,4.69,0.03,0.07,99.99, , , , , ,130,40,28,491,13.8, ,100,32.8,59.2,6.7,24.4,4.7,0.12,4.42,0.72,4.22, ,0.87,2.8,,2.86,0.46,6.35,1.13,8.5,1.5,,, 519,TsKh 7/5,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,53.02,1.48,17.73,,,8.88,,0.17,4.51,4.97,4.51,3.85,0.66,0,99.78, , , , , ,68,935,26,258,15, ,1590,43.1,96.9,10.9,42.3,7.4,2.06,6.67,0.89,4.58, ,0.83,2.37,,2.01,0.29,5.42,1.41,3.4,0.7,,, 520,TsKh 7/6,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,75.89,0.12,11.99,,,2.83,,0.03,0.16,0.27,2.97,5.11,0.02,0.61,99.99, , , , , ,160,240,69,426,42, ,140,36,87.1,10.1,36.1,8.1,0.17,8.02,1.5,9.62, ,2.07,6.6,,6.87,1.1,13.3,3.93,19.6,2.1,,, 521,TsKh 7/8,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,51.08,2.15,16.87,,,9.2,,0.17,3.08,6.24,4.7,2.75,1.16,2.62,100.02, , , , , ,46,889,36,437,28.6, ,1150,89.9,162,20.3,81,13.6,3.38,11.4,1.36,6.88, ,1.18,3.08,,2.41,0.37,10.6,2.6,7.9,1.6,,, 522,TsKh 7/9,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,70.2,0.62,13.84,,,3.96,,0.06,0.35,0.22,3.75,6.39,0.09,0.57,100.06, , , , , ,150,65,45,358,26.4, ,120,42.4,97.3,12.2,48.4,9.4,2.27,8.77,1.25,7.39, ,1.41,4.2,,3.6,0.56,7.6,2.32,7,2.2,,, 523,TsKh 7/10,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,55.82,1.41,17.64,,,10.31,,0.12,3.13,2.67,4.74,1.88,0.33,2.11,100.16, , , , , ,60,548,20,139,6.1, ,520,18.3,34.6,5.5,23.3,4.6,1.2,4.4,0.62,3.54, ,0.68,1.88,,1.78,0.23,2.37,1.23,3,0.8,,, 524,TsKh 7/11,volcanic rocks,Zunnemetei field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",211 Ma,,211,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,67.9,0.65,15.05,,,3.38,,0.11,0.39,0.54,5.96,5.31,0.14,0.59,100.02, , , , , ,82,52,42,452,24.9, ,730,64.3,133,14.3,54.6,9,1.71,8.15,1.18,6.81, ,1.33,4.21,,3.96,0.63,7.29,2.76,6.8,0.9,,, 525,Zhanchivlan-1,Granitoid,Khentei,47.255438,107.887494,Figure-Polygon,"Antipin et al., (2019)",195 - 227 Ma,,211,16,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,75.59,0.07,12.29,1.49,0.25,,,0.04,0.15,0.64,3.61,5.03,0.12,0.87,100.15, , , , , ,511,84,30,260,23, ,21,45.3,86.3, , , , , , , , , , , ,11.1, ,9.3,4,50, ,,, 526,Zhanchivlan-2,Granitoid,Khentei,47.255438,107.887494,Figure-Polygon,"Antipin et al., (2019)",195 - 227 Ma,,211,16,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,75.3,0.01,18.78,1.11,0.08,,,0.03,0.09,0.37,4.6,4.46,0.08,0.62,99.53, , , , , ,795,16,14,104,46, ,9,13.8,38.2, , , , , , , , , , , ,15, ,9.6,11.1,21.5, ,,, 527,Zhanchivlan-3,Granitoid,Khentei,47.255438,107.887494,Figure-Polygon,"Antipin et al., (2019)",195 - 227 Ma,,211,16,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,75.44,0.01,12.79,1.02,0.13,,,0.06,0.02,0.27,4.48,4.51,0.02,0.61,99.36, , , , , ,881,14,113,92,46, ,8,13.7,37.8, , , , , , , , , , , ,17.6, ,6.4,15.2,15.5, ,,, 528,J 1,Granites,Janchivlan,47.55,107.5833333,GPS,"Antipin et al., (2016)",195 - 227 Ma,,211,16,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,70.6,0.27,15.11,1.4,0.57,,,0.05,0.32,0.91,3.61,5.96,0.12,0.87,99.79, , , , , ,377,127,30,165,15,,500,25.53,53.64,6.61,22.22,4.42,0.52,3.66,0.57,2.94,21,0.54,1.34,0.2,1.24,0.17,,,,,,, 529,J 2 J 4,Granites,Janchivlan,47.55,107.5833333,GPS,"Antipin et al., (2016)",195 - 227 Ma,,211,16,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,72.44,0.24,14.46,1.33,0.13,,,0.06,0.63,1.21,3.55,4.54,0.08,0.62,99.29, , , , , ,315,108,14,105,11,,303,12.94,31.3,3.59,12.24,2.7,0.34,2.18,0.36,2.02,20,0.36,0.94,0.15,0.92,0.13,,,,,,, 530,J 4479,Granites,Janchivlan,47.55,107.5833333,GPS,"Antipin et al., (2016)",195 - 227 Ma,,211,16,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,77.23,0.08,12.5,0.93,0.24,,,0.03,0.04,0.38,3.88,4.5,0.02,1.98,101.81, , , , , ,870,11,113,155,46,,97,35.48,80.04,9.66,30.23,7.26,0.13,7.09,1.65,11.97,29,2.77,9.33,1.79,12.79,1.8,,,,,,, 531,1605,gabbrodiorite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,49.87,0.68,19.7,,9.32,,,0.14,5.91,9.4,3.03,0.76,0.07,1.1,99.98, , , , , , , ,, , , , ,7.1,13,,8.1,1.9,0.66,1.5, ,1.2, ,0.33,, ,0.77,0.11, , , , ,,, 532,1852,sub-alkaline granodiorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,64.07,0.67,16.35,2.08,3.23,,,0.11,1.65,3.73,4.8,2.12,0.16,0.82,99.79, , , , , , , ,, , , , ,23,45,6,27,6.8,1.2,2.6, ,2.5, ,,, ,1.65,0.42, , , , ,,, 533,2512,sub-alkaline granodiorite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,60.29,0.69,16.4,4.31,1.92,,,0.07,2.4,4.9,4.32,2.4,0.21,1.48,99.39, , , , , , , ,, , , , ,19,37,,25,4.3,1.3,3.6, ,2.8, ,0.94,, ,1.6,, , , , ,,, 534,1604,quartz-syenite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,66.97,0.5,15.8,,4.05,,,0.11,1.07,2.33,5.3,2.68,0.15,0.82,99.78, , , , , , , ,, , , , ,23,44,6.5,21,5.3,1.35,3.2, ,3.1, ,0.86,1.85, ,2.7,0.29, , , , ,,, 535,1870,sub-alkaline granite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,69.32,0.43,14.75,1.83,1.93,,,0.06,0.9,2.05,4.24,3.87,0.08,0.35,99.81, , , , , , , ,, , , , ,17,39,5.1,17,3.1,0.84,3, ,2.9, ,,, ,1.3,0.15, , , , ,,, 536,1863,NI,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,71.17,0.29,14.76,1.29,1.61,,,0.04,0.49,1.84,3.97,3.95,0.07,0.88,100.36, , , , , , , ,, , , , ,21,37,,19,5.4,0.72,3.2, ,2.4, ,0.35,1.4, ,1.6,, , , , ,,, 537,2512/2,leucogranite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,66.22,0.13,18.7,0.72,1,,,0.02,0.3,3.7,5.73,2.76,0.04,0.38,99.7, , , , , , , ,, , , , ,12,18,,7,1.8,1,1, ,, ,,, ,0.38,, , , , ,,, 538,2001,Trachyte,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,58.8,1.02,18.95,1.22,3.66,,,0.06,1.63,4,5.5,3.61,0.25,1.02,99.81, , , , , , , ,, , , , ,30,61,9.5,30,4.3,0.76,3, ,2.5, ,0.45,1.4, ,1.2,0.48, , , , ,,, 539,2003,Trachyte,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,58.6,1.05,17.6,1.15,4.48,,,0.07,2.22,3.82,5.3,3.86,0.28,1.41,99.87, , , , , , , ,, , , , ,33,73,9,25,4.8,3.1,4.8, ,3, ,0.78,1.5, ,1.7,0.14, , , , ,,, 540,2008,Basaltic trachyandesite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,56.7,1.1,17.04,1.36,5.39,,,0.1,3.28,5.05,4.99,3.05,0.3,1.42,99.81, , , , , , , ,, , , , ,31,73,,26,5.9,2,4.4, ,3.3, ,0.74,1.6, ,2,0.2, , , , ,,, 541,1854,trachybasalt,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,50.55,1.61,18.43,3.88,6.86,,,0.18,3.4,6.41,5.05,2.23,0.49,0.5,99.64, , , , , , , ,, , , , ,35,73,11,46,9.7,1.2,7.6, ,7.3, ,1.6,4.9, ,3.6,0.57, , , , ,,, 542,2460/30,trachybasalt,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,49,1.53,17.65,3.95,7.1,,,0.21,4.6,5.2,4.05,0.75,0.42,2.05,99.57, , , , , , , ,, , , , ,27,50,,30,6.7,2,5.4, ,5.4, ,1.2,2.5, ,2.3,0.35, , , , ,,, 543,2460/31,basalt,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,46.4,1.59,18.7,5.25,5.8,,,0.22,5.7,9.8,3.08,0.51,0.44,2.23,99.79, , , , , , , ,, , , , ,20,41,3.9,29,6.4,0.56,6.1, ,5.8, ,1.3,2.4, ,2.4,0.33, , , , ,,, 544,2460/34,basalt,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,51.56,1.05,18.6,5.2,4.45,,,0.23,4.3,8.7,3.65,0.31,0.32,1.65,100.09, , , , , , , ,, , , , ,19,25,,22,3.1,1.4,5.2, ,5.1, ,1.3,, ,1.9,0.4, , , , ,,, 545,2460/36,NI,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,,,,,,,,,,,,,,,, , , , , , , ,, , , , ,23,46,5.1,18,3.3,2.5,3.2, ,2.7, ,0.72,1.5, ,1.4,0.16, , , , ,,, 546,1866,Andesite-dacite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,51.45,1.68,16.3,4.09,7.8,,,0.21,3.03,8.22,4.9,0.42,0.36,0.1,99.46, , , , , , , ,, , , , ,24,54,4,28,8.1,2,6, ,5.8, ,1.6,4.4, ,3.6,0.48, , , , ,,, 547,2462/25,Quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,53.82,1.07,17.5,4.3,5.07,,,0.17,3.49,8.76,3.75,1,0.13,,100.1, , , , , , , ,, , , , ,14,24,,14,3.6,2,3.2, ,3.2, ,0.53,, ,1.8,0.26, , , , ,,, 548,2462/26,Quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,57.9,1.03,16.9,1.61,5.94,,,0.13,2.78,7.05,4.13,1.2,0.17,,99.91, , , , , , , ,, , , , ,24,51,,22,5.5,3,4.9, ,5.1, ,0.84,3.7, ,3.2,0.31, , , , ,,, 549,2020,Granodiortie porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,65.75,0.6,15.16,2.08,3.14,,,0.12,1.82,3.44,4.75,1.95,0.11,0.8,99.72, , , , , , , ,, , , , ,19,35,,14,4.7,1,3.8, ,3.7, ,,, ,2,0.22, , , , ,,, 550,2460/32,Granodiortie porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,66.65,0.58,15.5,1.72,2.3,,,0.05,1.1,2.8,4.8,2.48,2.48,0.19,1.88, , , , , , , ,, , , , ,24,43,3.7,31,5.7,1.3,6.4, ,5.7, ,1.3,3.4, ,2.8,0.34, , , , ,,, 551,2460,Granodiortie porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,68.24,0.6,14.8,2.15,1.53,,,0.05,1.04,2.32,4.64,3.61,0.13,,99.96, , , , , , , ,, , , , ,27,50,,30,6.7,2,5.4, ,5.4, ,1.2,2.5, ,2.3,0.3, , , , ,,, 552,2007,Subalkaline granite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,71.84,0.39,14.14,0.65,1.98,,,0.08,0.42,1.05,5.44,2.85,0.08,1.01,99.93, , , , , , , ,, , , , ,34,57,3.7,31,5.5,1.6,6.6, ,5.4, ,1.5,3.1, ,2.5,0.6, , , , ,,, 553,2006,Granodioritie porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,67.81,0.58,15.32,1.58,2.45,,,0.07,1.31,1.85,4.94,3.58,0.14,0.4,100.03, , , , , , , ,, , , , ,25,53,8.3,24,3.9,0.58,3, ,2.9, ,0.4,, ,2,0.3, , , , ,,, 554,2017,Porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,75.65,0.22,12.95,0.86,1.21,,,0.05,0.12,0.42,4.85,3.1,0.03,0.52,99.98, , , , , , , ,, , , , ,26,52,5.7,24,4.2,0.5,3.8, ,3.8, ,0.77,3, ,2.4,0.3, , , , ,,, 555,1856,Porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,76.73,0.12,12.38,0.72,0.89,,,0.04,,0.74,3.72,4.26,0.01,0.29,99.9, , , , , , , ,, , , , ,23,48,5.8,19,2.3,0.1,2.5, ,2.5, ,0.62,2.3, ,2,0.3, , , , ,,, 556,2500/14,Subalkaline quartz diorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,63.19,0.74,16.18,1.97,2.78,,,0.07,2.07,3.03,4.65,2.88,0.26,1.91,99.73, , , , , , , ,, , , , ,31,51,5.3,24,4.6,0.55,3, ,, ,,, ,1.35,0.17, , , , ,,, 557,2066,Subalkaline quartz diorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,61.92,0.75,16.18,2.41,2.21,,,0.08,2.12,3.13,4.76,3.17,0.23,2.68,99.64, , , , , , , ,, , , , ,88,155,17.5,81,11,4.4,10.5, ,5.7, ,2.6,, ,4.6,0.9, , , , ,,, 558,2065,Rhyolite Porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,76.5,0.13,12.71,0.68,0.63,,,0.08,0.18,0.15,3.11,4.85,0.02,0.86,99.9, , , , , , , ,, , , , ,38,35,2.4,10,1.2,0.15,4.9, ,, ,,, ,1.7,0.22, , , , ,,, 559,2409/10,Subalkaline quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,63.43,0.69,15.95,1.02,2.57,,,0.06,1.62,3.2,5.02,2.2,0.21,3.94,99.94, , , , , , , ,3.8, , , , ,13,23,5.8,13,2.4,0.71,1.2, ,1, ,,, ,0.44,, , , , ,,, 560,2000,Subalkaline quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,63.55,0.78,15,3.94,3.2,,,0.2,1.21,0.71,3.94,3.56,0.17,,98.47, , , , , , , ,7, , , , ,23,44,5.9,21,8.2,1,2.7, ,1.9, ,,, ,0.73,, , , , ,,, 561,2449/12,Subalkaline quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,65.65,0.68,16.85,2.69,1.9,,,0.08,1.65,0.53,5.27,1.97,0.13,,99.19, , , , , , , ,7.4, , , , ,16,30,2.7,15,2.1,0.44,1.6, ,1.3, ,,, ,0.45,, , , , ,,, 562,2449/5,Subalkaline granite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,70.33,0.48,16.9,0.89,1.26,,,0.01,0.38,0.45,4.99,1.61,0.07,,99.62, , , , , , , ,4.1, , , , ,13,21,2.6,16,1.2,0.6,0.82, ,0.9, ,,, ,0.51,0.04, , , , ,,, 563,1860,Subalkaline quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,67.71,0.38,17.14,0.93,1.77,,,0.04,0.77,1.63,6.45,2.06,0.13,0.88,99.89, , , , , , , ,5, , , , ,15,26,,14,1.7,0.48,0.96, ,0.89, ,,, ,0.67,, , , , ,,, 564,1865,Leucogranite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,75.23,0.3,12.67,0.72,1.43,,,0.03,0.21,0.47,3.4,5.29,0.04,0.43,100.22, , , , , , , ,12, , , , ,23,59,4.8,21,4.8,0.25,3.7, ,3.5, ,,, ,1.3,0.25, , , , ,,, 565,1855,porphyrytic andesite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,61.91,0.83,16.39,3.12,3.39,,,0.13,2.29,4.53,4.51,1.63,0.22,0.69,99.64, , , , , , , ,20, , , , ,20,37,3.2,30,4.2,1.1,3.4, ,3.2, ,,2.4, ,2,0.18, , , , ,,, 566,2447,Subalkaline quartz diorite porphyrite,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,59.78,0.78,17.7,2.69,3.42,,,0.12,2.2,5.5,4.96,1.43,0.17,,99.95, , , , , , , ,19, , , , ,18,30,4.5,15,3.4,1.7,3.6, ,3.2, ,,3, ,1.8,0.24, , , , ,,, 567,1609,Quartz diorite porphyryte,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,63.8,0.55,17.95,,4.66,,,0.08,1.52,4.04,6.18,1.26,0.18,0.76,100.98, , , , , , , ,9.4, , , , ,15.5,26,3.6,10.5,4.1,1.55,2.2, ,1.35, ,,0.84, ,0.73,0.11, , , , ,,, 568,1875,Granodiorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,65.8,0.38,16.7,1.29,1.51,,,0.13,1.06,2.67,4.9,2.12,0.13,3.22,99.91, , , , , , , ,2.9, , , , ,17,28,3.3,12,4,0.72,1.2, ,0.93, ,,, ,0.28,, , , , ,,, 569,2513/23,Granodiorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,67.4,0.22,16.7,1.62,1.9,,,0.03,0.9,2.2,5.27,2.58,0.15,1.12,100.09, , , , , , , ,6.1, , , , ,29,45,5.1,17,3.9,0.45,1.5, ,, ,,, ,0.71,, , , , ,,, 570,2513/25,Granodiorite porphyry,Erdenet Granitoids,49.022012,104.125649,Figure-Polygon,"Gerel and Munkhtsengel, (2004)",185 - 235 Ma,,210,25,NI,NI,NI,From figure,66.7,0.3,16.6,1.71,1.8,,,0.02,1.1,2.4,5.74,2.65,0.19,1.5,100.08, , , , , , , ,7.3, , , , ,26,57,7.9,22,3.5,0.73,2.2, ,, ,,, ,0.79,, , , , ,,, 571,A13,PA granite,Atha Pluton,51.737244,111.994092,Figure-Polygon,"Jahn et al., (2009)",210 Ma,,210,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Atha pluton from figure,74.4,0.25,11.38,3.08,1.1,,,0.1,0.14,0.2,4.29,4.44,0.02,0.54,99.94, , , , , ,162,6,70,990,54, ,56,19,82,4.4,15,3.5,0.32,4.4,1.22,9.8,27,2.36,7.64,1.31,9.14,1.44,23.4,3.29,14.99,3.78,,, 572,716,PA granite,Atha Pluton,51.737244,111.994092,Figure-Polygon,"Jahn et al., (2009)",210 Ma,,210,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Atha pluton from figure,74.16,0.23,11.08,2.56,0.88,,,0.1,0.13,0.21,4.74,4.53,0.02,0.76,99.4, , , , , ,133,3,63,910,40, ,46,75,155,17,58,10.5,0.42,9.5,1.64,10.8,27,2.5,7.94,1.34,8.2,1.4,20.6,3.56,15,,,, 573,722,PA granite,Atha Pluton,51.737244,111.994092,Figure-Polygon,"Jahn et al., (2009)",210 Ma,,210,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Atha pluton from figure,73.02,0.42,12.11,1.37,2.2,,,0.13,0.23,0.26,4.98,4.68,0.02,0.57,99.99, , , , , ,133,13,52,820,37, ,44,68,168,17.5,65,12.5,1.52,10.7,1.93,11.1,25,2.29,7.24,1.12,7.49,1.16,20.7,2.38,14,,,, 574,725,PA granite,Atha Pluton,51.737244,111.994092,Figure-Polygon,"Jahn et al., (2009)",210 Ma,,210,,ICP-MS and XRF,whole rock,"ICP-MS at he Department of Geological Sciences, National Taiwan University (NTU), Taipei, and at the Institute of Mineralogy and Geochemistry of Rare Elements, Moscow andXRF at the Geological Institute, Siberian Division of the Russian Academy of Sciences, Ulan-Ude. Rare",Location Atha pluton from figure,72.32,0.42,12.47,1.68,1.77,,,0.12,0.3,0.31,5.12,4.94,0.03,0.5,99.98, , , , , ,133,7,46,725,32, ,53,81,154,18.2,65,11.3,1.42,10.1,1.75,9.2,26,2.02,5.8,0.91,5.65,0.91,16.7,2.1,17,,,, 575,MO-122,Basalt ,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,47.62,1.81,17.35,,,,10.43,0.18,6.52,9.51,1.91,1.84, ,1.8,99.69,23,142, ,27.4,44,39,820.8,33.7,243.5,11.9, ,604,39.7,85.4,10.08,41.3,8.1,2.24,8.01,1.09,6.36,20.3,1.19,3.69,0.49,3.41,0.46,5.6,0.7,4,1,,, 576,MO-125,Andesite,Olzit Bimodal volcanic suite,44.971781,106.297444,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,58.91,1.31,12.66,,,,8.28,0.13,5.68,6.42,2.72,0.99, ,2.2,99.77,17,191, ,24,39,22,475.2,22.6,157.1,7.8, ,447,26.2,57.1,6.78,28,5.35,1.53,5.01,0.74,4.74,14.2,0.83,2.24,0.31,1.85,0.29,3.7,0.4,2.4,1.7,,, 577,MO-127,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,51.58,1.63,15.68,,,,9.83,0.13,5.93,7.94,2,2.4, ,2,99.72,20,126, ,28.4,41,52,550,27.4,197.7,10.5, ,853,33.8,72,8.74,34.7,7.02,1.98,6.74,0.91,5.51,18,1.03,2.8,0.41,2.48,0.38,4.5,0.5,3.1,0.6,,, 578,MO-130,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,48.87,1.69,16.58,,,,9.95,0.18,6.52,8,3.64,1.73, ,1.9,99.69,22,151, ,30.2,41,39,634.6,29.6,205.7,11, ,909,36.7,77.9,9.18,38.3,7.34,2.08,6.79,0.93,5.52,17.8,1.15,2.87,0.46,2.81,0.4,4.8,0.6,3.2,0.8,,, 579,MO-134,Andesite,Olzit Bimodal volcanic suite,44.971781,106.297444,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,55.37,1.67,15.16,,,,9.75,0.19,6.58,3.09,2.71,1.16, ,3.5,99.77,20,161, ,32.4,50,24.6,370.5,28.3,193.8,9.9, ,396,36.9,77.7,9.32,38.6,7.25,1.98,6.94,0.92,5.77,17.3,1.03,2.94,0.39,2.74,0.37,4.4,0.6,3.1,0.7,,, 580,MO-137,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,50.05,1.68,16.12,,,,9.75,0.16,6.12,7.43,3.71,1.71, ,2.3,99.71,21,137, ,26.4,42,41.4,601.5,28.3,198.2,10.3, ,646,34.9,74.6,8.86,34.9,7.1,2.06,6.95,0.9,5.554,16.1,1.03,2.74,0.41,2.81,0.41,4.8,0.6,3.1,0.6,,, 581,MO-139,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,49.52,1.69,16.06,,,,10.05,0.17,6.62,7.61,3.32,1.71, ,2.4,99.73,21,120, ,28.9,44,42.4,603.7,28.3,204.6,10.1, ,615,35.2,73.7,8.84,33.8,6.95,1.95,6.87,0.94,5.54,18,1.04,2.99,0.42,2.38,0.38,5.1,0.6,3.2,0.5,,, 582,MO-164,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,48.2,1.29,15.84,,,,8.83,0.12,4.28,10.58,3.47,1.8, ,4.8,99.77,17,169, ,29.6,74,43.5,420.9,26.6,195.6,11.1, ,483,34.6,69.8,8.51,36.1,6.79,1.79,6.18,0.84,5.35,23.3,0.93,2.5,0.36,2.34,0.35,4.2,0.7,3.1,0.8,,, 583,MO-165,Basalt,Olzit Bimodal volcanic suite,44.962872,106.311506,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,51.85,1.09,16.81,,,,7.62,0.13,7,8.1,4.84,1.09, ,4,99.79,14,191, ,24.5,52,26,397.9,22.4,167.7,8.8, ,294,29.6,63.3,7.45,29.7,5.63,1.72,5.46,0.73,4.45,19.5,0.82,2.13,0.33,2.26,0.28,3.9,0.6,2.6,0.7,,, 584,MO-132,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,72.53,0.29,11.35,,,,5.13,0.02,0.34,0.55,3.46,4.18, ,1.8,99.63,<1,<8, ,1.3,<20,145.8,34.5,158.4,1526,64.9, ,130,156.8,335.8,38.66,141.8,27.48,0.91,26.37,4.15,27.21,28.6,5.63,16.68,2.53,16.15,2.39,35.4,4.4,35.7,9.9,,, 585,MO-133,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,73.4,0.3,12.2,,,,3.08,<0.01,0.23,0.27,3.47,4.63, ,2.1,99.58,<1,<8, ,0.4,<20,160,57.2,146,1541,67.2, ,477,185,357,45.6,161,31.5,1.15,27.2,4.19,27.6,31.5,5.29,15.8,2.44,15.7,2.46,34.7,4.3,36.9,11.2,,, 586,MO-141,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,71.13,0.29,11.86,,,,0.85,0.04,,0.87,3.58,4.62, ,2.2,99.65,<1,16, ,0.8,<20,161,37.4,134,1519,65.8, ,143,80.8,349.5,20.61,79.9,15.33,0.65,15.15,2.99,22.73,28.5,4.96,16.77,2.59,17.09,2.51,33.3,4.5,36,9.1,,, 587,MO-142,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,72.01,0.29,11.48,,,,4.98,0.09,0.14,0.24,4.7,4.7, ,0.8,99.51,<1,<8, ,<0.2,<20,257.8,17.5,188.6,2069,81.6, ,83,201.5,69.9,50.09,185.6,35.45,1.13,33.57,5.31,35.08,30.5,6.95,21.92,3.25,22.21,3.26,46,5.4,48.3,12.1,,, 588,MO-156,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,77.58,0.32,11.55,,,,0.47,<0.01,0.15,0.29,2.43,5.16, ,1.7,99.69,<1,<8, ,0.2,<20,163.7,34.7,157.6,1418,53.3, ,36,138.7,317.8,37.45,140.9,28.2,1.46,27.03,4.18,27.99,27.8,5.68,16.89,2.44,16.26,2.38,34.2,3.5,25.6,2.5,,, 589,MO-157,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,72.6,0.25,10,,,,3.54,0.09,0.05,3.18,2.82,3.55, ,3.6,99.71,<1,19, ,3.5,<20,88.3,78.3,130.1,1178,47.9, ,107,114.4,255.6,29.97,112.4,22.96,0.91,24.05,3.68,24.2,18.8,4.93,15.51,2.24,15.25,2.26,28.3,3.1,20.2,3.5,,, 590,MO-158,Rhyolite,Olzit Bimodal volcanic suite,44.94828,106.321976,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,78.23,0.27,10.13,,,,1.51,<0.0,0.1,0.32,0.18,7.14, ,1.8,99.66,<1,<8, ,<0.2,<20,207.4,27.7,208.6,1547,54.1, ,34,136.8,305.3,35.39,134.1,26.47,1.38,28.12,4.62,31.92,19.9,7.25,21.56,3.51,20.9,3.1,38.3,3.1,25.6,4.9,,, 591,MO-144,Miarolitic Granite,Olzit Bimodal volcanic suite,44.968937,106.277387,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,69.57,0.35,14.28,,,,3.35,0.06,0.06,0.59,4.16,5.54, ,1.8,99.76,2,<8, ,0.4,<20,205.7,28.5,106.5,863.8,43, ,126,124.8,73.3,29.8,104.7,19.3,0.84,18.38,2.86,18.69,27.4,3.63,11.5,1.77,11.43,1.72,20.9,3,29.9,8.3,,, 592,MO-145,Miarolitic Granite,Olzit Bimodal volcanic suite,44.968937,106.277387,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,71.59,0.29,14.53,,,,1,0.01,0.15,0.56,4.68,5.7, ,1.3,99.81,1,<8, ,<0.2,<20,227.5,28.2,103.2,769.2,40.2, ,118,102.6,173.9,24.58,78.5,16.8,0.7,16.8,2.63,16.8,28.7,3.6,10.9,1.68,10.34,1.66,20.6,3.3,30.8,7.2,,, 593,MO-146,Miarolitic Granite,Olzit Bimodal volcanic suite,44.968937,106.277387,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,69.39,0.35,14.64,,,,3.1,0.05,0.09,0.56,4.74,5.71, ,1.1,99.77,2,<8, ,0.3,<20,210.1,33.3,93.2,861.7,42, ,136,119.9,249.7,28.72,102.6,18,0.9,16.4,2.52,17.08,26.5,3.22,10.01,1.64,10.7,1.6,22.5,2.9,30.6,6.1,,, 594,MO-147,Miarolitic Granite,Olzit Bimodal volcanic suite,44.968937,106.277387,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,70.32,0.29,14.33,,,,3.18,0.11,0.04,0.4,4.21,5.39, ,1.4,99.78,2,<8, ,1.4,<20,218.5,25,110.5,853,44.6, ,117,91.2,253.7,22.3,75.6,15.12,0.62,14.79,2.48,18.06,27.6,3.68,11.6,1.92,12.65,1.81,23.2,3.5,32.9,8.1,,, 595,MO-148,Miarolitic Granite,Olzit Bimodal volcanic suite,44.968937,106.277387,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,71.49,0.26,13.87,,,,1.97,0.01,0.13,0.48,4.65,5.28, ,1.6,99.78,1,<8, ,1.3,<20,282.3,20.6,144.9,755.9,49, ,91,134.3,285.8,32.57,120.2,22.8,0.75,23.54,4.05,26.61,28.6,5.53,16.19,2.35,16.72,2.35,22.5,4,46.9,7,,, 596,MO-150,Biotite-bearing granite,Olzit Bimodal volcanic suite,44.969951,106.287053,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,62.37,0.58,15.62,,,,5.76,0.14,0.13,1.89,4.29,5.58, ,3.4,99.82,6,<8, ,1.2,<20,97.6,67.8,50,360,23.3, ,550,73.7,156.8,18.23,67.8,12.52,2.78,11.56,1.65,9.66,24.7,1.97,5.57,0.88,6.12,0.97,9.5,1.3,8.6,4.2,,, 597,MO-152,Biotite-bearing granite,Olzit Bimodal volcanic suite,44.969951,106.287053,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,65.41,0.44,14.41,,,,6.63,0.2,0.07,0.5,5.43,4.77, ,1.8,99.72,5,<8, ,0.3,<20,103.3,23.8,115.4,1164,39, ,195,90.9,216,24.7,92.3,18.85,2.03,19.57,2.98,19.62,26.7,3.77,11.97,1.75,11.79,1.69,27.2,3.1,22.2,5.8,,, 598,MO-153,Biotite-bearing granite,Olzit Bimodal volcanic suite,44.969951,106.287053,Figure-Polygon,"Zhu et al., (2016)",213 - 207 Ma,,210,3,XRF and ICP-M,NI,Acme Analytical Laboratories of Canada,General location from figure,63.87,0.6,15.1,,,,6.88,0.17,0.09,0.6,5.5,, ,1.2,99.83,6,<8, ,0.6,<20,109.7,29.2,63.7,527.7,29.9, ,313,53.8,143.9,16.24,68.5,1,1.81,12.76,1.85,11.55,26,2.37,6.85,1.11,7.62,1.2,11.2,1.5,9.2,2.3,,, 599,Abdar-1,Granitoid,Khentei,47.626198,105.626064,Figure-Polygon,"Antipin et al., (2019)",207-212 Ma,,209.5,2.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,72.33,0.22,13.48,1.48,1.18,,,0.04,0.64,1.28,4.21,4.97,0.07,0.46,100.03, , , , , ,730,17.9,21.8,230,15, ,3,10.3,27.7, , , , , , , , , , , ,13.8, ,8.3,2,38.4, ,,, 600,Abdar-2,Granitoid,Khentei,47.626198,105.626064,Figure-Polygon,"Antipin et al., (2019)",207-212 Ma,,209.5,2.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,75.84,0.02,12.76,0.93,0.7,,,0.04,0.13,0.32,4.46,4.14,0.05,0.43,99.63, , , , , ,753,13.6,67.4,140,78, ,2.5,10.3,25.5, , , , , , , , , , , ,13.7, ,22.4,17.1,36.4, ,,, 601,TsKh 1/2,volcanic rocks,Saranskii field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",209 Ma,,209,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,57.74,1.98,15.07,,,8.73,,0.12,1.79,5.21,4.81,2.72,0.84,0.83,99.83, , , , , ,48,656,53,409,14.7, ,1002,47.2,104,12.9,59.4,13,3.87,10.6,1.78,9.48, ,1.98,5.08,0.82,5.22,0.77,9.66,,6.7,2.2,,, 602,TsKh 1/8,volcanic rocks,Saranskii field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",209 Ma,,209,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,75.38,0.29,10.83,,,4.08,,0.12,0.12,0.16,3.84,4.8,0.03,0.22,99.86, , , , , ,162,15,56,787,28.06, ,19,86,161.5,19.3,70.3,13.4,1.62,10.69,1.64,9.73, ,1.84,5.67,0.89,5.59,0.41,10.45,0.79,17.7,4,,, 603,TsKh 1/14,volcanic rocks,Saranskii field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",209 Ma,,209,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,74.97,0.3,12.09,,,2.97,,0.07,0.17,0.19,3.81,4.82,0.02,0.45,99.85, , , , , ,114,17,44,732,32, ,18,56.4,117.9,14.9,52.7,9.8,1.35,9.29,1.37,8.16, ,1.62,4.94,0.69,4.62,0.64,9.37,2,8.9,2.3,,, 604,TsKh 1/19,volcanic rocks,Saranskii field,52.057485,111.38429,Figure-Polygon,"Voronstsov et al., (2007)",209 Ma,,209,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Tskh. General location from image,61.73,1.13,16.91,,,5.26,,0.12,1.11,2.59,5.73,4.25,0.38,0.59,99.8, , , , , ,107,293,29,424,15, ,686,41.3,83.5,10.9,39.8,7.8,2.11,7.33,1.1,6.07, ,1.17,3.4,0.55,3.22,0.47,6.26,1.85,7.6,2.2,,, 605,2004,Granite,Bogd Uul,47.87203,107.0309,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.22,0.096,12.34,,1.19,,,0.019,0.02,0.555,3.26,5.192,0.011,0.6,99.63,2,5,3,8,3,469,25,99,195,24,15,88,54,111,50,51,50, , , , ,28, , , , , ,8,5,45,8,,, 606,38,Granite,Bogd Uul,47.86131,106.9806,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.78,0.154,12.68,,1.64,,,0.03,0.08,0.682,3.79,4.344,0.029,0.37,99.6,2,11,3,3,3,294,53,63,201,15,11,181,39,101,50,55,50, , , , ,25, , , , , ,5,5,32,7,,, 607,56,Granite,Bogd Uul,47.74389,107.0615,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.11,0.193,13.01,,1.77,,,0.026,0.1,0.468,3.75,4.468,0.025,0.68,99.6,3,13,3,4,3,249,44,31,229,23,6,213,78,88,50,60,50, , , , ,24, , , , , ,10,5,28,5,,, 608,64,Granite,Bogd Uul,47.85306,107.0191,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,73.24,0.14,13.95,,1.65,,,0.033,0.07,0.546,3.94,5.521,0.026,0.64,99.78,2,5,4,3,3,546,37,77,217,32,21,201,70,147,,43,14, , , , ,33, , , , , ,8,7,48,12,,, 609,2003,Granite,Bogd Uul,47.85889,106.9421,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,74.29,0.292,12.77,,2.22,,,0.036,0.22,0.92,3.53,4.639,0.074,0.54,99.61,4,10,3,3,3,233,110,78,355,17,8,354,104,173,50,87,50, , , , ,25, , , , , ,9,5,49,7,,, 610,2005,Granite,Bogd Uul,47.83083,107.0088,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,74.47,0.2,12.94,,1.93,,,0.038,0.13,0.65,3.9,4.526,0.044,0.67,99.63,2,5,3,4,3,326,42,54,264,24,9,189,83,125,50,57,50, , , , ,19, , , , , ,8,5,47,6,,, 611,2028,Granite,Bogd Uul,47.85583,107.0476,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,74.04,0.162,13.16,,1.89,,,0.039,0.07,0.796,3.96,4.694,0.029,0.61,99.68,2,12,3,3,3,440,51,88,250,25,19,193,58,151,50,50,50, , , , ,30, , , , , ,7,5,36,17,,, 612,2030,Granite,Bogd Uul,47.85778,107.0825,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,71.6,0.125,14.6,,1.38,,,0.03,0.08,0.82,4.15,6.11,0.012,0.57,100.4,,,,,,499,16,78,176,27,12,40,44.61,99.35,11.17,39.17,8.48, , , , ,28, , , , , ,,,56,12,,, 613,2051,Granite,Bogd Uul,47.77528,106.9929,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.5,0.212,12.43,,1.9,,,0.038,0.18,0.755,3.82,4.277,0.046,0.47,99.66,2,5,3,3,3,288,59,32,221,19,10,199,71,102,50,55,50, , , , ,21, , , , , ,5,5,40,8,,, 614,2052,Granite,Bogd Uul,47.80861,107.0024,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.53,0.163,12.05,,1.74,,,0.038,0.11,0.466,3.57,4.403,0.027,0.5,99.66,2,5,3,3,3,270,37,14,217,18,12,157,47,90,50,50,50, , , , ,23, , , , , ,9,5,36,7,,, 615,2053,Granite,Bogd Uul,47.79083,107.0024,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,73.97,0.219,13.15,,1.99,,,0.043,0.17,0.882,4.06,4.354,0.05,0.69,99.68,3,5,3,3,3,299,72,32,243,21,10,253,61,118,50,69,50, , , , ,25, , , , , ,10,5,47,11,,, 616,2057,Granite,Bogd Uul,47.51797,106.5881,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,68,0.279,16.3,,2.27,,,0.04,0.3,1.05,4.4,6.83,0.13,0.34,100.2,,,,,,274,120,35,106,15,11,484,46.92,104.95,12.02,45.31,8.97, , , , ,25, , , , , ,,,19,,,, 617,2064,Granite,Bogd Uul,47.8816,106.9763,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,68.4,0.334,14.7,,3.03,,,0.06,0.29,1.63,4.19,6.27,0.145,0.39,100.2,,,,,,284,112,60,178,18,17,388,32.85,90.89,11.67,44.66,10.36, , , , ,25, , , , , ,,,35,,,, 618,29,Granite,Bogd Uul,47.82833,107.089,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.74,0.081,12.33,,1.23,,,0.026,0.01,0.503,3.51,4.461,0.007,0.58,99.58,2,10,3,3,4,522,12,113,224,44,15,32,104,,50,64,50, , , , ,31, , , , , ,6,5,66,15,,, 619,33,Granite,Bogd Uul,47.86872,107.0545,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.02,0.096,12.57,,1.37,,,0.019,0.04,0.465,3.71,4.87,0.01,0.51,99.78,1,5,4,3,2,517,17,99,237,44,17,65,67,134,,45,14, , , , ,33, , , , , ,10,7,57,12,,, 620,34,Granite,Bogd Uul,47.79356,107.1172,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.55,0.092,12.21,,1.41,,,0.031,0.04,0.524,3.42,4.772,0.009,0.64,99.76,1,5,4,3,3,509,24,83,161,32,16,117,62,102,,39,14, , , , ,29, , , , , ,10,7,47,3,,, 621,43,Granite,Bogd Uul,47.82839,106.9432,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.62,0.206,12.38,,2.06,,,0.043,0.15,0.816,3.75,4.043,0.05,0.44,99.62,2,12,3,3,3,279,64,44,201,15,11,202,90,120,50,66,50, , , , ,25, , , , , ,5,7,41,11,,, 622,47,Granite,Bogd Uul,47.79653,106.9691,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.02,0.206,12.76,,1.82,,,0.045,0.21,0.793,3.53,4.734,0.054,0.56,99.78,2,8,5,3,3,336,73,39,181,14,18,238,56,112,,32,14, , , , ,19, , , , , ,7,5,43,6,,, 623,48,Granite,Bogd Uul,47.78833,106.98,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.69,0.15,12.2,,1.47,,,0.027,0.08,0.531,3.66,4.348,0.022,0.42,99.66,2,5,3,4,3,271,31,10,206,10,10,124,87,95,50,80,50, , , , ,25, , , , , ,8,5,47,3,,, 624,65,Granite,Bogd Uul,47.84531,107.0487,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.93,0.089,12.5,,0.6,,,0.007,0.01,0.441,3.56,4.609,0.015,0.79,99.6,2,5,3,3,3,419,39,79,193,27,8,117,61,91,50,56,50, , , , ,28, , , , , ,6,5,51,8,,, 625,2018,Granite,Bogd Uul,47.50028,107.1032,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,77.04,0.097,12.03,,1.28,,,0.022,0.01,0.495,3.62,4.334,0.006,0.54,99.67,2,6,3,3,3,444,6,109,212,27,14,17,63,128,50,83,50, , , , ,28, , , , , ,8,5,49,6,,, 626,2034,Granite,Bogd Uul,47.80028,107.0282,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,77.18,0.063,12.11,,1.18,,,0.014,0.01,0.422,3.69,4.259,0.002,0.63,99.64,2,5,3,3,4,516,4,109,195,47,10,5,55,91,50,63,50, , , , ,34, , , , , ,8,5,45,3,,, 627,2038,Granite,Bogd Uul,47.80306,107.0754,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,77.14,0.082,12.26,,1.01,,,0.025,0.02,0.498,4.02,4.069,0.011,0.43,99.66,2,5,11,3,3,380,14,57,155,26,16,58,29,66,50,50,50, , , , ,24, , , , , ,6,5,54,13,,, 628,2047,Granite,Bogd Uul,47.79306,106.9629,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,75.25,0.219,12.91,,1.69,,,0.033,0.2,0.744,3.25,4.922,0.044,0.34,99.61,2,5,3,3,3,179,112,53,253,19,10,320,71,108,50,57,50, , , , ,22, , , , , ,9,5,28,7,,, 629,38/1,Granite,Bogd Uul,47.86131,106.9806,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,76.57,0.091,12.52,,0.9,,,0.017,0.01,0.602,3.77,4.865,0.005,0.28,99.69,2,5,3,3,3,317,21,69,133,16,7,42,20,35,50,50,50, , , , ,26, , , , , ,5,5,45,6,,, 630,59/1,Granite,Bogd Uul,47.75139,107.044,GPS,"Sodnom et al., (2012)",205.7±4.1 to 208.4±9.1 Ma,"Khishigsuren et al., (2003)",206.7,13.2,XRF and ICPMS,,"X-ray fluorescence (XRF) in geochemical laboratory of Federal Institute for Geosciences and Natural Resources, Germany. The REE element (ICP-MS) and Rb-Sr, Sm-Nd isotopic analyses were performed in the geochemical laboratory of Middle East Technical University of Turkey.",,77.58,0.075,12.29,,0.84,,,0.018,0.01,0.44,3.77,4.183,0.011,0.43,99.65,2,5,3,3,3,261,10,3,78,17,5,17,40,29,50,50,50, , , , ,23, , , , , ,5,5,38,4,,, 631,12ER34-1,,,52.20666667,121.6525,GPS,"Tang et al., (2016)",206 Ma,,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.71,0.31,14.59,,,,2.29,0.04,0.41,1.3,3.77,5.14,0.07,0.46,100.08,5.15,15,0.97,2.74,0.73,147,120,26.9,253,10,1.83,1031,43.6,76.6,8.45,29.5,5.33,0.85,4.49,0.72,4.23,17.4,0.86,2.43,0.34,2.31,0.34,6.15,0.57,11.6,1.79,,, 632,12ER34-2,,,52.20666667,121.6525,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.37,0.3,14.94,,,,2.12,0.04,0.4,1.37,3.98,4.8,0.06,0.6,99.98,5.46,13.8,0.74,2.42,0.69,125,135,25.3,217,9.47,1.05,1072,36,67.9,6.82,25,4.81,0.87,4.17,0.67,4.12,17.2,0.81,2.39,0.35,2.29,0.34,5.34,0.61,10.5,1.74,,, 633,12ER34-3,,,52.20666667,121.6525,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.64,0.29,14.68,,,,2.07,0.05,0.38,1.2,3.76,5.19,0.06,0.62,99.94,5.18,13.5,0.9,2.23,0.58,127,134,29.4,179,10.4,1.06,1008,38,67.4,7.36,26.7,5.13,0.78,4.74,0.77,4.61,16.2,0.96,2.87,0.39,2.73,0.41,4.6,0.76,10.9,1.71,,, 634,11ER26-2,,,51.35388889,120.3077778,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.37,0.3,15.82,,,,2.41,0.52,0.63,2.51,3.84,3.52,0.1,0.44,99.45,4.44,17.9,4.84,3.3,1.78,142,353,25.3,163,13.6,4.01,577,33,61,6.92,23.8,4.53,0.87,4.02,0.66,3.94,20.2,0.8,2.47,0.37,2.39,0.37,4.71,1.2,13.3,2.3,,, 635,11ER26-3,,,51.35388889,120.3077778,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,70.24,0.26,15.37,,,,2.13,0.01,0.54,2.33,3.68,3.74,0.08,0.57,98.95,4.04,16.5,4.18,2.95,1.75,141,346,23.7,154,12.2,3.81,629,27.4,51.1,6.03,21.8,4.16,0.87,3.8,0.61,3.67,19,0.77,2.23,0.33,2.42,0.33,4.33,1.06,12.9,1.67,,, 636,12ER15-1,,,51.35388889,120.3077778,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,70.76,0.27,15.22,,,,2.3,0.05,0.61,2.37,3.9,3.43,0.09,0.4,99.4,3.38,16.6,4.21,3.1,1.76,124,287,20.8,155,11.9,3.37,556,31.6,59.7,6.68,23.8,4.46,0.72,3.54,0.55,3.33,18.3,0.64,1.85,0.28,2.01,0.32,4.49,0.99,14.3,2.43,,, 637,12ER15-2,,,51.35388889,120.3077778,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.25,0.26,14.9,,,,2.2,0.05,0.6,2.44,3.92,3.34,0.08,0.42,99.46,3.56,16.7,4.01,3.01,2.6,134,306,21.2,142,11.5,3.03,599,21.3,38.7,4.68,17.4,3.75,0.71,3.43,0.55,3.32,18.4,0.64,1.91,0.29,1.97,0.31,4.17,0.96,10.4,1.93,,, 638,12ER16-1,,,51.31833333,120.3666667,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.68,0.32,15.63,,,,2.65,0.05,0.78,2.79,3.88,3.05,0.11,0.82,99.76,3.69,17.8,8.99,3.31,6.08,96.7,466,17.1,166,10.7,2.87,881,29.2,55.4,6.25,22.7,4.31,0.92,3.46,0.51,2.81,18.1,0.53,1.54,0.23,1.46,0.23,4.39,0.84,10.6,1.66,,, 639,12ER16-2,,,51.31833333,120.3666667,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.49,0.32,15.44,,,,2.62,0.05,0.78,2.69,3.78,3.44,0.11,0.74,99.46,4.08,18.8,4.45,3.3,1.56,114,481,15.9,165,10.5,3.11,1243,24.8,48.3,5.31,19.2,3.81,0.95,2.92,0.45,2.63,18.4,0.51,1.37,0.22,1.38,0.2,4.31,0.76,7.41,1.47,,, 640,11ER27-1,,,51.31833333,120.3666667,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,66.25,0.34,16.74,,,,2.7,0.06,1.04,3.57,3.86,3.49,0.12,0.82,98.98,4.83,19.5,4.77,3.67,1.73,121,485,22.2,184,11.8,2.99,911,33.2,64.2,7.44,27.1,5.16,1.1,4.32,0.68,3.76,20.9,0.71,2.13,0.29,2.04,0.29,4.78,0.91,12.3,1.78,,, 641,11ER27-2,,,51.31833333,120.3666667,GPS,"Tang et al., (2016)",206 Ma (?),,206,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,67.76,0.34,16.04,,,,2.69,0.55,0.82,2.9,3.8,3.38,0.12,0.84,99.23,4.9,19.3,4.73,3.58,1.99,116,469,21.1,181,12,2.95,904,30.8,60.5,6.82,24.4,4.63,1.05,4.19,0.62,3.47,20.5,0.69,2.07,0.3,2.02,0.29,4.82,0.89,10.9,1.79,,, 642,Egiin 14,"porphyritic medium-grained hornblende-biotite granite (authors: ""quartz monzonite‚Äù)","porphyritic medium-grained hornblende-biotite granite (authors: ""quartz monzonite‚Äù)",47.21194444,102.1441667,GPS,"Machowiak et al., (2012)",Late Triassic - Eraly Jurassic (~174 - 237 Ma),,205.5,31.5,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,66.1,0.55,15.74,,,,3.53,0.07,1.13,2.39,4.2,4.4,0.49,1.1,99.8, ,34,45,5,6.2,210,384,28.6,368,15.9,13.9,823,69,136,14.9,52.6,8.74,1.45,6.33,0.94,4.76,23,0.88,2.68,0.415,2.69,0.395,9.9,1.6,52.6,7.6,,, 643,Egiin 18,fine-grained aplitic granite,fine-grained aplitic granite,47.19722222,102.4455556,GPS,"Machowiak et al., (2012)",Late Triassic - Eraly Jurassic (~174 - 237 Ma),,205.5,31.5,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,75.19,0.11,13.18,,,,1.13,0.02,0.21,0.65,3.59,5.1,0.05,0.64,99.9, ,18,22,3,1.9,137,284,17.2,177,10,7.6,808,38.7,61.5,7.52,25.8,4.16,0.689,3.29,0.49,2.57,19,0.53,1.64,0.274,1.81,0.28,5.2,1.2,20.7,2.7,,, 644,Tsagd 24,fine-grained muscovite-biotite granite,fine-grained muscovite-biotite granite,47.22222222,102.3611111,GPS,"Machowiak et al., (2012)",Late Triassic - Eraly Jurassic (~174 - 237 Ma),,205.5,31.5,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,74.6,0.16,13.85,,,,1.12,0.05,0.2,0.84,3.97,5.04,0.07,0.19,100.1, ,7,39, ,1.3,294,99,21.8,103,21.5,14.5,265,34.9,67,7.01,24.2,4.24,0.523,3.2,0.52,2.92,23,0.6,2,0.36,2.59,0.435,4.2,3.9,33.8,21.8,,, 645,Tsagd 25,very fine-grained aplitic granite,very fine-grained aplitic granite,47.22222222,102.3611111,GPS,"Machowiak et al., (2012)",Late Triassic - Eraly Jurassic (~174 - 237 Ma),,205.5,31.5,NI,NI,"Activation Laboratories Ltd., Ontario, Canada",Location from GPS,77.15,0.02,12.76,,,,0.75,0.02,0.03,0.16,4.18,4.59,0.05,0.19,99.9, , ,12, ,3.8,1.12,2,116,174,65.3,29.5,,16.6,48.7,5.98,25.2,7.05,0.006,7.38,1.97,15.7,47,3.84,14.4,2.99,22.6,3.35,21.6,17.6,37.5,8.3,,, 646,4152/1,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,52.25,1.66,16.9,,,9,,0.05,2.8,4.85,5.85,3.55,1.19,3,102.2, , , , , ,68,1420,26,287,26.98, ,2299,93.6,186.1,20.7,75.9,11.3,2.8,8.99,0.3,1.18, ,5.53,0.93,2.44,2.02,0.28,9.18,1.16,4.2,1.4,,, 647,4152/7,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,54.85,1.42,16.97,,,8.5,,0.06,2.57,4.33,5.4,3.58,0.95,1.34,99.97, , , , , ,101,1000,27,319,34.06, ,1652,91.3,178.5,19.8,70.4,10.8,2.64,8.14,0.33,1.08, ,5.31,0.94,2.34,2.1,0.33,11.3,1.77,7.2,2.2,,, 648,4152/8,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,53.88,1.44,17.11,,,8.72,,0.1,2.48,4.97,5.36,3,0.94,1.66,99.66, , , , , ,74,1219,26,308,32.39, ,1603,87.9,174.8,19.3,69.3,10.6,2.71,7.91,0.33,1.12, ,5.32,0.91,2.32,1.86,0.3,10.94,1.67,6.9,1.7,,, 649,4150/4,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,54.22,1.38,16.9,,,8.15,,0.04,2.75,5.3,5.01,3.75,1.05,1.84,100.39, , , , , ,78,1500,25,410,13, ,2500,72.6,149,16,56.1,8,2.01,6.09,0.24,0.8, ,3.93,0.72,1.97,1.5,0.2,12,1.05,,,,, 650,4150/3,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,54.25,1.47,17.17,,,8.4,,0.11,2.9,5.09,5.28,3.45,1.11,1.44,100.67, , , , , ,72,1700,21,360,12, ,2600,72.9,145,16.1,56.1,8,2.17,6.02,0.26,0.76, ,4.06,0.63,1.95,1.63,0.24,9.5,1.09,,,,, 651,4150/5,volcanic rocks,Verkhnii Khanui depression,47.644857,99.649593,Figure-Polygon,"Voronstsov et al., (2007)",190-220 Ma,,205,15,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",VKh. General location from image,54.65,1.39,17.3,,,8.27,,0.04,2.7,4.61,5.13,3.61,1.1,1.6,100.4, , , , , ,80,1200,22,450,12, ,2800,76.2,148,16.9,59.8,8.5,2.34,6.56,0.27,0.85, ,4.1,0.73,1.94,1.71,0.25,11,1.15,,,,, 652,13ER34-1,,,52.04361111,120.8633333,GPS,"Tang et al., (2016)",205 Ma,,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,46.55,0.18,24.35,,,,4.39,0.07,6.25,15,1.37,0.19,0.02,1.62,99.98,16.9,101,65,26.6,13.7,4.23,486,11,11.2,0.53,0.35,57.5,2.74,5.5,0.7,3.17,0.76,0.48,0.83,0.14,0.95,17.7,0.19,0.49,0.07,0.46,0.06,0.34,0.04,0.18,0.06,,, 653,13ER34-2,,,52.04361111,120.8633333,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,46.54,0.19,23.24,,,,4.85,0.08,6.82,14.73,1.23,0.25,0.02,1.84,99.78,21.1,125,81.4,27.8,12.8,6.99,479,6.68,9.72,0.47,0.53,66.9,2.89,5.98,0.74,3.17,0.89,0.54,0.93,0.15,1.04,16.9,0.24,0.61,0.08,0.51,0.07,0.33,0.04,0.21,0.06,,, 654,13ER34-3,,,52.04361111,120.8633333,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,46.5,0.2,23.2,,,,4.95,0.08,6.96,14.68,1.22,0.21,0.02,1.66,99.67,20.3,123,79.3,27.8,12.6,4.92,460,7.12,10.7,0.5,0.44,57,2.61,5.37,0.72,3.27,0.9,0.53,0.96,0.16,1.07,16.3,0.19,0.58,0.08,0.52,0.07,0.34,0.04,0.16,0.08,,, 655,13ER34-4,,,52.04361111,120.8633333,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,46.16,0.2,23.63,,,,4.79,0.08,6.8,14.73,1.22,0.23,0.02,1.96,99.81,20.2,126,80,28.5,13,6.46,476,7.96,7.93,0.36,0.57,64.3,2.18,4.52,0.58,2.66,0.75,0.53,0.86,0.16,0.94,16.7,0.19,0.51,0.07,0.46,0.08,0.24,0.02,0.08,0.03,,, 656,12ER17-2,,,51.31305556,120.4286111,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,70.5,0.27,14.85,,,,2.35,0.05,0.63,1.95,3.96,3.61,0.08,1.12,99.37,3.32,17.5,6.39,3.18,3.08,134,328,21.3,165,11.8,3.71,616,30.3,57.3,6.55,23,4.47,0.76,3.65,0.58,3.32,18.9,0.65,1.87,0.29,1.92,0.31,4.66,0.92,16.6,5.2,,, 657,12ER17-3,,,51.31305556,120.4286111,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,71.28,0.25,14.76,,,,2.19,0.05,0.6,2.2,4.02,3.15,0.08,0.94,99.52,3.22,15.6,3.64,2.93,1.46,127,316,20.1,138,11.6,3.05,408,19.7,37.5,4.38,16.2,3.62,0.71,3.16,0.53,3.1,18.5,0.63,1.84,0.29,2.01,0.31,3.99,0.96,13.3,3.55,,, 658,12ER17-5,,,51.31305556,120.4286111,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,72.3,0.25,14.25,,,,2.19,0.05,0.6,2.14,3.74,3.24,0.07,0.88,99.71,3.52,15.7,3.4,2.78,1.55,127,306,21.7,144,12.7,2.69,469,32.1,61.3,6.84,24.7,4.52,0.72,3.72,0.6,3.47,18.1,0.67,2.07,0.32,2.17,0.33,4.23,1.12,18.6,6.17,,, 659,12ER19-1,,,51.48916667,120.8130556,GPS,"Tang et al., (2016)",205 Ma,,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.37,0.2,13.55,,,,1.94,0.02,0.34,1.28,3.78,3.74,0.06,0.54,99.81,2.52,8.81,1.29,1.75,0.89,119,128,14.2,153,9.28,1.91,647,23.2,51.9,4.05,13,2.32,0.48,1.85,0.35,2.12,16.2,0.45,1.28,0.2,1.29,0.21,4.11,0.5,9.07,0.96,,, 660,12ER19-2,,,51.48916667,120.8130556,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.41,0.19,13.47,,,,1.81,0.02,0.3,1.3,3.67,3.96,0.06,0.5,99.68,2.44,8.28,1.8,1.68,1.19,122,139,13.8,139,9.12,1.69,724,27.9,57.1,4.84,15.5,2.59,0.54,1.97,0.37,2.26,16.8,0.47,1.34,0.21,1.29,0.2,3.76,0.46,8.62,0.97,,, 661,12ER19-3,,,51.48916667,120.8130556,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,75.11,0.19,13.18,,,,1.77,0.02,0.32,1.18,3.69,3.94,0.05,0.5,99.95,2.88,8.36,1.06,1.64,0.51,123,127,16.1,150,7.56,1.52,625,32.9,57,6.39,21.4,3.59,0.53,2.9,0.45,2.54,15.6,0.53,1.6,0.26,1.83,0.29,4.17,0.55,8.77,1.47,,, 662,12ER19-4,,,51.48916667,120.8130556,GPS,"Tang et al., (2016)",205 Ma (?),,205,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.09,0.18,13.8,,,,1.7,0.02,0.29,1.16,3.82,4.24,0.04,0.5,99.84,2.9,8.4,1.29,1.61,0.78,127,135,15.1,153,6.6,1.36,692,32.1,65,6.12,21,3.53,0.51,2.7,0.43,2.51,16.7,0.5,1.46,0.24,1.65,0.25,4.18,0.44,8.53,1.29,,, 663,B 163/3*,,Kharitonovo Massif,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194-215 Ma,,204.5,10.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,65.6,0.63,16.02,,,2.56,,0.02,0.63,1.55,4.43,7.2,0.11,0.75,99.5, , , , , ,110,180,140,1400,61, ,610,120,420,,190,25,3.5,,,4.8, ,,,,11,1.4,,,199,,,, 664,A 254-2*,,Kharitonovo Massif,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194-215 Ma,,204.5,10.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,73.26,0.26,13.87,,,2.44,,0.01,0,0.45,4.47,5.05,0.01,0.45,100.27, , , , , ,271,49,29,344,43.5, ,106,39.3,70.9,,20,3.2,0.32,2.83,,2.3, ,,0.21,,1.25,0.18,,2.42,,,,, 665,B 163/11*,,Kharitonovo Massif,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194-215 Ma,,204.5,10.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,49.1,2.44,16.01,,,10.7,,0.14,4.87,7.49,3.63,2.13,0.62,2.3,99.43, , , , , ,32,845,41,370,16, ,1200,30,65,,34,7.1,2.2,,,1.2, ,,,,3.6,0.52,,,8,,,, 666,C 336/1*,,Kharitonovo Massif,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194-215 Ma,,204.5,10.5,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,48.6,2.13,16.9,,,11.33,,0.13,6.17,6.64,3.66,1.75,0.75,1.52,99.58, , , , , ,23,910,30,230,11, ,720,26,58,,30,6.4,2.1,,,1.1, ,,,,2.5,0.34,,7.7,2,,,, 667,13ER8-1,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma,,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,51.63,1.38,15.71,,,,10.6,0.16,5.34,7.24,3.65,1.68,0.31,2.04,99.74,37.8,217,93.6,30.1,15,45.4,398,44.6,124,10.6,2.1,478,23.2,58.3,7.97,35.3,8.42,1.86,7.58,1.25,7.95,21.6,1.58,4.12,0.62,3.8,0.59,3.76,0.59,3.28,0.83,,, 668,13ER8-2,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma (?),,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,47.68,1.83,17.45,,,,13.21,0.17,4.93,8.28,3.46,1.12,0.38,1.36,99.87,33.8,316,10.2,35.3,5.67,26.1,438,65.5,186,17.6,1.63,501,32.6,88.2,12.1,53.4,12.5,2.23,11.3,1.83,11.3,26.2,2.25,6.12,0.87,5.7,0.81,4.63,0.71,1.68,0.52,,, 669,13ER8-4,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma (?),,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,47.63,1.88,16.99,,,,13.57,0.18,4.97,8.49,3.44,1.07,0.37,1.28,99.87,37,338,9.25,34.4,5.37,22.2,416,69.7,241,18.1,1.34,415,34,91.9,12.7,56.7,13.6,2.32,11.9,1.98,12.4,25.6,2.44,6.55,0.98,5.97,0.85,5.85,0.79,2.28,0.57,,, 670,13ER8-5,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma (?),,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,48.04,1.86,17.18,,,,13.21,0.17,4.79,8.35,3.53,1.12,0.36,1.26,99.87,34.5,329,8.19,33.7,5.11,24.3,435,67.3,205,17.7,1.49,459,33.8,92.7,12.4,54.6,12.5,2.3,11.5,1.91,12.3,25.8,2.33,6.44,0.91,6,0.84,5.14,0.78,1.75,0.55,,, 671,13ER8-6,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma,,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,56.06,0.89,16.28,,,,8.36,0.12,5.27,7.39,3.12,1.06,0.16,1.38,100.09,23.2,157,90.4,29.9,45.1,27.5,373,28,98.1,7.54,1.75,427,25,47.8,5.81,23.6,4.91,1.3,4.72,0.75,4.68,18.9,0.95,2.62,0.4,2.51,0.35,2.96,0.47,4.39,1.03,,, 672,13ER8-7,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma (?),,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,55.48,0.93,16.14,,,,8.52,0.12,5.34,7.48,3.08,0.94,0.18,1.6,99.81,23.4,161,96.7,30.9,46.8,21.7,360,30,121,7.86,1.46,359,22.9,46.7,5.86,23.8,5.24,1.3,4.97,0.76,4.92,18.9,0.96,2.74,0.43,2.72,0.38,3.51,0.52,4,1.17,,, 673,13ER8-10,,,51.67138889,121.5352778,GPS,"Tang et al., (2016)",204 Ma (?),,204,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.4,1,16.45,,,,9.42,0.13,6.37,8,2.96,1.21,0.2,1.68,99.82,24.7,175,117,34.9,57.4,31.2,367,24.5,111,7.24,2.01,501,17.9,38.5,4.79,19.9,4.26,1.26,4.07,0.69,4.15,18.2,0.84,2.43,0.35,2.29,0.32,3.18,0.5,3.24,1.07,,, 674,A 03-44,Granites,Avdar,47.61666667,105.45,GPS,"Antipin et al., (2016)",202 - 205 Ma,,203.5,1.5,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,73.62,0.2,13.65,0.55,1.39,,,0.04,0.3,0.9,4.12,4.6,0.07,0.36,99.8, , , , , ,160,219,22,298,23,3,648,62.89,121.11,12.38,43.22,7.58,0.92,6.11,0.81,5.33,,0.81,2.13,0.33,2.24,0.3,8.3,2,38.4,2.7,,, 675,A 3260 ,Granites,Avdar,47.61666667,105.45,GPS,"Antipin et al., (2016)",202 - 205 Ma,,203.5,1.5,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,75.96,0.02,13.75,0.65,0.86,,,0.02,< 0.050,0.25,5.31,3.52,0.01,0.3,100.04, , , , , ,1110,4,66,183,66,10.5,11,8.26,29.28,3.23,13.75,4.21,0.01,4.82,0.91,7.74,48,1.62,6.75,1.31,12.36,1.86,22.4,17.1,36.4,5.1,,, 676,A 3267B,Granites,Avdar,47.61666667,105.45,GPS,"Antipin et al., (2016)",202 - 205 Ma,,203.5,1.5,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,76,0.01,13.32,0.5,0.7,,,0.02,< 0.050,0.23,2.86,6.6,0.01,0.26,100.06, , , , , ,1986,3,33,70,161,24.6,11,6.01,17.94,2.35,7.18,2.5,,2.93,0.59,5.15,43,1.1,4.58,0.92,8.31,1.21,9.3,23.2,19.3,10.5,,, 677,A 3267A,Granites,Avdar,47.626198,105.626064,GPS,"Antipin et al., (2016)",202 - 205 Ma,,203.5,1.5,Multi- channel X-Ray Spectrometer SRM-25 and ICP-MS,Whole rock,"Russia at the Center of Isotope-Geochemical Studies, Vinogradov Institute of Geochemistry, Russian Academy of Sciences, Siberian Branch (IGS SB RAS). ICP-MS at ‚ÄúBaikal Nanotechnology Center‚Äù of the Industrial Park at the Irkutsk State Technical University",GPS for pluton,76.64,0.02,13.58,0.5,0.87,,,0.02,< 0.050,0.27,4.86,3.54,0.01,0.28,100.11, , , , , ,1155,19,57,157,132,21.8,763,7.7,24.86,3.51,10.83,3.77,0.01,4.18,0.91,8.32,46,1.76,7.55,1.48,13.6,2.04,22.3,23.1,28,11,,, 678,12ER9-1,,,50.74361111,119.5322222,GPS,"Tang et al., (2016)",202 Ma (?),,202,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,70.88,0.45,13.25,,,,3.11,0.05,0.71,1.9,3.49,2.79,0.12,2.86,99.61,4.52,29.1,2.23,4.38,2.15,130,204,25,218,11.4,4.56,306,37.7,72.1,7.91,27.3,5.01,1,4.12,0.66,3.86,16.8,0.76,2.12,0.35,2.38,0.36,5.99,0.92,16.5,3.15,,, 679,12ER9-2,,,50.74361111,119.5322222,GPS,"Tang et al., (2016)",202 Ma (?),,202,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.35,0.36,13.61,,,,2.48,0.05,0.55,2.77,4.04,2.56,0.1,3.58,99.45,4.03,22.4,1.72,3.54,0.93,137,145,23.6,193,10,4.82,246,35.2,67.6,7.42,26.3,4.85,1.06,3.97,0.64,3.73,15.6,0.73,2.07,0.32,2.3,0.33,5.43,0.94,14.7,3.26,,, 680,12ER30-5,,,52.41916667,122.5666667,GPS,"Tang et al., (2016)",200 Ma,,200,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.14,1.83,15.49,,,,12.03,0.13,4.29,6.6,3.76,1.1,0.25,2.08,99.7,30.9,335,17.1,30.9,9.24,38,640,40.3,115,12.2,2.48,331,26,57.8,7.9,35,7.99,1.9,7.67,1.18,7,20.2,1.38,3.8,0.52,3.44,0.5,3.18,0.92,5.19,1.8,,, 681,12ER30-6,,,52.41916667,122.5666667,GPS,"Tang et al., (2016)",200 Ma (?),,200,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,53.09,1.73,15.77,,,,11.2,0.12,4.13,6.67,3.79,1.09,0.25,2.02,99.86,29.2,292,16,28.1,8.53,36.2,620,37.4,137,11.5,2.38,312,24.4,54.2,7.44,33.4,7.74,1.85,7.5,1.13,6.67,19.7,1.31,3.6,0.51,3.27,0.46,3.62,0.83,4.58,1.7,,, 682,12ER30-8,,,52.41916667,122.5666667,GPS,"Tang et al., (2016)",200 Ma (?),,200,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,53.74,1.81,14.9,,,,10.94,0.13,4.08,6.11,3.74,1.25,0.2,2.8,99.7,29.9,310,14.9,27.4,8.38,46.6,690,39.2,91,13.1,2.48,360,21,48.7,6.82,31.3,7.49,1.71,7.37,1.15,6.68,18.6,1.34,3.72,0.53,3.32,0.5,2.6,1.05,3.8,1.69,,, 683,12ER30-9,,,52.41916667,122.5666667,GPS,"Tang et al., (2016)",200 Ma (?),,200,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,53.97,1.8,15.22,,,,10.95,0.12,4.03,6.42,3.54,1.05,0.22,2.42,99.74,29.3,304,15.3,28.4,8.31,37.4,627,36.9,112,12.3,2.55,318,22,50.8,7.09,32.2,7.55,1.81,7.37,1.12,6.63,19.2,1.32,3.61,0.48,3.29,0.48,3.11,0.95,4.16,1.8,,, 684,Khentei-1,Granitoid,Khentei,47.863721,108.378926,Figure-Polygon,"Antipin et al., (2019)",199-196 Ma,,197.5,1.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,76.44,0.05,12.48,0.77,0.67,,,0.03,0.05,0.13,4.55,4.13,0.05,0.46,99.81, , , , , ,562,19,38.2,158,49.6, ,19.4,3.7,21.9, , , , , , , , , , , ,7, ,11.7,4.3,56.4, ,,, 685,Khentei-2,Granitoid,Khentei,47.863721,108.378926,Figure-Polygon,"Antipin et al., (2019)",199-196 Ma,,197.5,1.5,"flame photometry, fluorine and ICP-MS",NI,Main components determined (wt %) by the classic chemical method; trace alkaline elements (ppm) by the flame photometry technique; fluorine by MAES; other trace elements by ICP-MS.,General location from figure,76.38,0.04,12.62,0.88,0.55,,,0.03,0.05,0.12,4.64,4.03,0.03,0.46,99.83, , , , , ,755,11.2,58.2,447,91.8, ,15.8,7.3,30.2, , , , , , , , , , , ,9.6, ,29.2,8.5,88.8, ,,, 686,12ER27-1,,,51.57861111,121.76,GPS,"Tang et al., (2016)",197 Ma,,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.98,0.38,15.21,,,,3.05,0.05,1.13,2.94,4.3,1.88,0.12,0.96,100,3.2,31.6,0.72,3.75,0.5,38.6,330,9.84,179,3.9,0.5,948,41.6,75,7.02,22.9,3.03,1.09,1.89,0.26,1.42,16.4,0.27,0.78,0.13,0.85,0.14,4.48,0.16,8.45,1.33,,, 687,12ER27-2,,,51.57861111,121.76,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,68.53,0.42,15.86,,,,3.08,0.05,0.93,2.32,4.52,2.7,0.12,1.34,99.87,3.49,33.5,0.83,3.8,0.45,79.9,319,11.3,202,5.14,0.76,1105,51.8,92.9,8.94,28.2,3.71,1.23,2.35,0.33,1.79,17,0.35,1,0.16,1.13,0.18,5.09,0.25,10.6,1.42,,, 688,12ER27-3,,,51.57861111,121.76,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,68.49,0.47,15.67,,,,3.68,0.06,1.03,2.91,4.32,2.08,0.14,1.18,100.03,3.95,37.4,0.87,4.71,0.52,44.5,335,12.9,221,5.55,0.5,1011,45.1,82,7.91,26,3.77,1.21,2.52,0.34,1.88,17.4,0.37,1.09,0.16,1.25,0.19,5.54,0.26,9.92,1.72,,, 689,12ER27-4,,,51.57861111,121.76,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,68.89,0.38,16.21,,,,2.96,0.05,0.86,2.27,4.7,2.2,0.11,1.28,99.91,3.55,31.2,0.81,3.81,0.5,58.1,386,13.1,198,5,0.88,1076,41.1,72.5,7.12,24.2,3.28,1.17,2.22,0.33,1.82,17.1,0.39,1.18,0.18,1.34,0.21,4.9,0.49,7.18,3.42,,, 690,12ER24-1,,,51.365,121.5083333,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,68.76,0.31,15.88,,,,3.32,0.14,0.34,0.86,5.8,3.23,0.08,0.82,99.54,5.44,3.3,0.28,0.82,0.18,123,105,39.2,400,25.3,3.53,1966,117,212,23,78.7,11.8,1.46,7.96,1.17,6.68,22.4,1.29,3.74,0.58,4.09,0.65,10.3,2.79,29.2,3.01,,, 691,12ER24-2,,,51.365,121.5083333,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,69.89,0.24,15.59,,,,2.78,0.12,0.29,0.86,5.76,3.3,0.07,0.56,99.46,4.46,2.58,0.69,0.68,0.59,117,99.5,34.3,365,16.6,3.72,2085,124,223,23.5,80,11.8,1.49,7.55,1.06,5.87,19.9,1.16,3.45,0.5,3.49,0.56,9.42,1.43,30.3,2.6,,, 692,12ER24-3,,,51.365,121.5083333,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,68.61,0.33,15.89,,,,3.68,0.16,0.38,0.99,5.65,3.42,0.08,0.6,99.79,5.46,3.12,0.17,0.88,0.45,132,106,34.6,482,21.8,4.66,2121,134,249,25.9,89.5,12.9,1.44,8.25,1.14,5.99,21.1,1.14,3.44,0.52,3.49,0.58,12.4,1.71,34,2.58,,, 693,12ER23-1,,,51.34361111,121.5036111,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,75.21,0.12,13.34,,,,1.18,0.05,0.15,0.78,4.29,4.2,0.03,0.34,99.69,2.67,2.81,0.33,0.46,0.27,124,59.9,25.6,107,13.9,3.09,871,24.5,50.5,5.46,19.1,4.09,0.43,3.41,0.62,3.91,15.4,0.81,2.52,0.38,2.75,0.41,3.53,1.24,10.6,2.59,,, 694,12ER23-2,,,51.34361111,121.5036111,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,75.37,0.12,13.17,,,,1.19,0.05,0.15,0.54,4.2,4.23,0.03,0.36,99.41,2.66,3.05,0.33,0.44,0.47,128,62.3,29.1,110,14.5,3.15,909,26.7,55.7,6.01,21.1,4.27,0.45,3.77,0.71,4.45,15.8,0.89,2.71,0.45,2.96,0.46,3.53,1.23,12.2,2.16,,, 695,12ER23-3,,,51.34361111,121.5036111,GPS,"Tang et al., (2016)",197 Ma (?),,197,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,75.16,0.12,13.34,,,,1.14,0.05,0.13,0.53,4.23,4.3,0.03,0.38,99.41,3.18,5.16,15.2,1.09,9.43,135,77.6,33.3,117,13.8,3.4,907,23.7,48.5,5.47,18.9,3.98,0.53,4.06,0.74,4.8,16.6,1.04,3.18,0.48,3.36,0.52,3.71,1.13,11.6,2.51,,, 696,13ER21-1,,,51.31166667,120.9661111,GPS,"Tang et al., (2016)",195 Ma,,195,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,64.34,0.56,17.16,,,,4.4,0.06,1.43,3.63,4.47,1.77,0.22,1.34,99.38,5.68,51.7,3.03,6.05,1.51,40.8,525,14.2,294,7.07,2.22,861,60.4,111,10.8,36.6,5.32,1.41,3.81,0.47,2.48,20.5,0.49,1.31,0.19,1.32,0.23,7.11,0.46,11,3.21,,, 697,13ER21-5,,,51.31166667,120.9661111,GPS,"Tang et al., (2016)",195 Ma (?),,195,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,57.13,0.94,17.23,,,,6.85,0.1,3.9,6.58,3.79,1.59,0.19,1.46,99.76,19.6,156,54.6,20.2,13.8,31.9,544,21.2,93.2,9.23,1.65,441,14.4,32.2,4.49,19.4,4.22,1.24,3.87,0.55,3.45,20.2,0.63,1.78,0.29,1.87,0.29,2.58,0.53,5.3,1.7,,, 698,TG 13/5,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,66.5,0.6,17.03,,,3.13,,0.04,0.1,0.2,5.52,6.07,0.08,0.71,99.98, , , , , ,150,22,33,820,19.96, ,45,89.8,211,23.6,92.8,15.1,1.98,10.93,1.62,9.21, ,1.95,5.37,0.85,5.53,0.87,37.11,3.87,22.9,3.5,,, 699,TG 13/6,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,65.98,0.6,16.4,,,3.79,,0.14,0.36,0.32,5.73,5.65,0.09,0.82,99.88, , , , , ,140,20,39,709,21, ,35,99.8,212.1,23,90.4,14.9,2.04,12.27,1.8,10.64, ,2.18,6.48,1.05,6.51,1.06,44.35,1.97,23.6,4.7,,, 700,TG 13/8,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,66,0.73,16.75,,,3.99,,0.11,0.13,0.2,5.69,5.76,0.11,0.46,99.93, , , , , ,140,30,34,648,25.66, ,35,103.1,224.3,24.9,89.5,13.8,1.44,10.33,1.23,6.58, ,1.1,3.36,0.51,2.72,0.46,16.82,2.13,14.9,1.5,,, 701,TG 13/9,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,51.37,1.54,17.57,,,8.08,,0.18,3.41,7.42,3.73,2.44,0.56,3.62,99.92, , , , , ,42,1110,29,302,15.14, ,1190,44.4,96.8,11.2,44.4,8.2,2.34,7.59,0.99,5.32, ,0.99,2.88,0.44,2.74,0.42,6.07,0.76,4.8,1.5,,, 702,TG 13/11,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,50.88,1.8,18.04,,,11.51,,0.11,2.23,4.98,4.03,2.2,0.54,3.64,99.96, , , , , ,40,890,30,263,10.34, ,960,34.9,74,9.3,39.7,7.5,2.28,7.37,1.02,5.85, ,1.12,2.82,0.45,2.41,0.39,5.37,0.49,3.5,0.8,,, 703,TG 13/12,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,50.64,1.75,17.75,,,11.01,,0.12,3.4,5.93,4.26,2.39,0.52,2.09,99.86, , , , , ,52,1070,30,264,11.15, ,1030,35.4,76.1,9.3,38.7,7.4,2.27,7.77,1.03,6.06, ,1.16,2.87,0.41,2.52,0.35,5.23,0.48,3.3,0.7,,, 704,TG 13/13,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,52.39,2.27,16.39,,,9.54,,0.14,2.19,5.63,4.14,3.67,1.55,1.66,99.57, , , , , ,64,1500,30,451,22.44, ,2410,83.5,175.2,23.3,93.6,14.6,4.33,12.89,1.47,6.56, ,1.2,2.73,0.36,2.09,0.34,8.41,1.11,5.5,1.1,,, 705,TG 13/15,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,61.98,0.95,17.52,,,4.48,,0.12,0.87,2.1,5.01,5.6,0.31,0.78,99.72, , , , , ,130,798,23,556,24.5, ,1788,89.3,184.7,20,72.2,10.8,2.72,8.22,0.88,4.48, ,0.78,2.25,0.3,1.75,0.26,22.44,3.53,12.7,2.5,,, 706,TG 13/17,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,65.04,0.7,16.93,,,3.36,,0.06,0.43,1.03,5.13,6.28,0.17,0.68,99.81, , , , , ,160,327,22,642,27.65, ,1182,87.2,180.9,18.9,66.5,9.9,1.98,7.73,0.89,4.38, ,0.77,2.22,0.29,1.84,0.27,20.59,1.83,18.1,3,,, 707,TG 13/19,volcanic rocks,Monostoiskii Area,51.275956,107.766735,Figure-Polygon,"Voronstsov et al., (2007)",194 Ma,,194,,"XRF, flame photometry, neutron activation, and ICP-MS",NI,"Major elements and Zr were determined by XRF. Rb content was analyzed by flame photometry at the Vinogradov Institute of Geochemistry and Analytical Chemistry, Siberian Division, Russian Academy of Sciences. Other elements were measured by neutron activation at the Joint Institute of Geology, Geophysics, and Mineralogy, Siberian Division, Russian Academy of Sciences, and by ICP-MS at the Institute of Precambrian Geology and Geochronology, Russian Academy of Sciences and Analytical Center of Collective Use of the Irkutsk Scientific Center, Siberian Division, Russian Academy of Sciences.",Kht. General location from image,50.55,1.44,16.32,,,9.63,,0.16,3.66,10.02,3.58,1.92,0.59,1.93,99.8, , , , , ,28,1470,21,207,9.94, ,860,39.7,83.2,9.9,40,6.9,2.27,7.31,0.94,4.4, ,0.8,2.06,0.33,1.75,0.26,4.12,0.54,3.6,1,,, 708,ER18-1,,,50.73388889,120.1991667,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.21,1.71,15.84,,,,9.72,0.19,3.22,7.19,2.82,1.37,0.53,4.89,99.4,16.2,218,104,40,79.6,25.4,993,20.6,181,8.9,0.59,654,33.6,72.7,9.39,39.7,7.8,2.07,6.25,0.77,4.12,23.8,0.74,1.87,0.25,1.52,0.22,4.58,0.5,4.4,1.11,,, 709,ER18-3,,,50.73388889,120.1991667,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.78,1.77,16.67,,,,9.14,0.08,2.51,5.89,3.59,1.83,0.57,3.7,98.52,15.5,229,118,22.3,55.2,40.2,1126,18.3,195,9.61,0.62,653,33.8,73,9.39,38.7,7.28,2.07,5.91,0.77,3.82,23.4,0.64,1.64,0.22,1.29,0.19,4.79,0.54,4.42,0.99,,, 710,ER18-4,,,50.73388889,120.1991667,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.71,1.72,16.15,,,,10.06,0.19,2.62,6.89,3.03,1.5,0.54,3.51,98.91,16.6,213,140,28.2,65.1,23.8,963,19.7,182,8.92,0.41,753,31.8,70.9,8.92,36.7,7.27,2.09,5.92,0.74,3.98,22.4,0.69,1.75,0.23,1.4,0.2,4.47,0.48,4.27,1.08,,, 711,ER18-5,,,50.73388889,120.1991667,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,51.23,1.79,16.87,,,,10.1,0.14,2.48,5.89,3.95,1.58,0.57,4.31,98.91,16.3,221,132,27.5,66.3,24.9,1168,21.8,189,9.38,0.4,611,34,43.1,9.58,39.5,7.85,2.21,6.38,0.85,4.33,24.3,0.83,2.11,0.28,1.62,0.25,4.62,0.51,4.39,1.02,,, 712,ER18-6,,,50.73388889,120.1991667,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,49.83,1.76,16.19,,,,10.84,0.15,2.65,7.63,3.42,1.46,0.54,4.47,98.93,16,222,141,30.8,68.6,24.2,1161,22.4,187,9.39,0.41,658,33.2,44.5,9.25,38.9,7.52,2.15,6.17,0.78,4.19,24,0.74,1.89,0.26,1.54,0.24,4.57,0.51,4.33,1.06,,, 713,13ER20-1,,,51.39083333,121.0519444,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,51.86,1.14,18.62,,,,8.89,0.06,5.03,4.23,4.86,1.29,0.26,3.56,99.8,20.3,207,119,31.4,63.8,12.4,1168,17.4,144,4.57,3.96,648,19.8,49.8,5.47,22.6,4.48,1.43,3.66,0.55,3.23,21,0.62,1.7,0.23,1.64,0.25,3.53,0.27,2.61,0.54,,, 714,13ER20-2,,,51.39083333,121.0519444,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,52.3,1.14,18.8,,,,8.16,0.06,5.09,4.59,4.71,1.29,0.26,3.52,99.92,20.7,207,125,30.3,63.7,12.4,1157,16.8,142,4.54,3.5,665,20.1,50.3,5.58,22.9,4.41,1.44,3.67,0.54,3.22,20.9,0.61,1.64,0.22,1.5,0.23,3.5,0.28,2.53,0.53,,, 715,13ER52-5,,,49.5425,119.8530556,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,55.4,1.19,14.52,,,,9.63,0.3,3.47,4.02,4.01,1.53,0.32,4.94,99.33,23,204,2.82,20.1,3.69,33.3,230,35.3,167,7.53,2.48,363,23.8,52.7,6.57,27.3,6.26,1.58,6.15,0.9,5.96,17.3,1.19,3.34,0.47,3.21,0.47,4.34,0.47,5.04,0.96,,, 716,12ER25-1,,,51.43222222,121.5311111,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,63.05,0.81,15.9,,,,6.48,0.11,3.27,4.25,3.18,2.09,0.19,0.72,100.05,14.7,132,33.3,16.6,15,49.3,660,26.8,189,9.28,1.8,425,26.6,57.9,6.86,27.1,5.5,1.38,4.8,0.77,4.48,16.8,0.88,2.62,0.39,2.56,0.38,4.82,0.58,6.45,1.64,,, 717,12ER25-2,,,51.43222222,121.5311111,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,63.45,0.7,15.9,,,,5.63,0.1,3.35,4.05,3.1,2.12,0.15,1.04,99.59,12,108,30.6,13.2,12.4,36.1,558,24.3,178,9.28,1.78,361,27.6,57.9,6.7,25.8,5.05,1.2,4.38,0.68,4.08,16.3,0.83,2.44,0.37,2.44,0.37,4.72,0.63,7.79,2.06,,, 718,12ER25-3,,,51.43222222,121.5311111,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,54.5,1.21,17.4,,,,8.2,0.14,4.36,6.28,3.62,2.36,0.52,0.76,99.35,12.9,147,64.2,23.9,40.6,57,664,33.3,268,12.4,4.98,449,40.1,85.9,10.4,41.5,8.29,2.14,6.94,1.07,6.02,19.5,1.16,3.29,0.48,3.19,0.47,6.13,0.72,5.33,1.39,,, 719,12ER26-1,,,51.43222222,121.5311111,GPS,"Wang et al., (2015)",193 - 181 Ma,,187,6,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,58.58,0.86,16.81,,,,6.06,0.1,4.08,5.81,4.18,2.1,0.28,0.72,99.579,10.6,115,83.2,18.5,51.8,27.7,938,27.7,236,10.2,0.9,679,39.5,88,10.3,40.3,7.71,1.87,6.02,0.87,4.86,19.9,0.95,2.62,0.38,2.54,0.41,6.01,0.65,8.12,2.07,,, 720,11ER1-2,,,50.64333333,120.1608333,GPS,"Tang et al., (2016)",186 Ma (?),,186,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,76.61,0.05,11.9,,,,0.88,0.01,0.3,0.75,3.01,4.57,0.02,0.58,98.68,1.48,0.99,0.3,0.17,0.5,251,14,47.8,104,29.4,4.69,112,16.6,44.1,5.12,20.3,5.22,0.1,5.86,1.07,7.44,18.8,1.55,4.63,0.74,5.17,0.76,5.49,1.93,25.4,2.22,,, 721,11ER1-3,,,50.64333333,120.1608333,GPS,"Tang et al., (2016)",186 Ma (?),,186,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,75.59,0.06,12,,,,0.88,0.01,0.58,1.44,3.09,4.57,0.02,0.65,98.88,1.64,1.23,0.29,0.17,0.45,238,15.7,56.6,131,28.9,5.3,115,18.8,47.9,5.87,22.5,5.97,0.11,6.42,1.2,8.35,18.4,1.81,5.39,0.91,6.14,0.96,6.49,1.98,30.1,2.88,,, 722,11ER1-4,,,50.64333333,120.1608333,GPS,"Tang et al., (2016)",186 Ma (?),,186,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,76.64,0.06,12.33,,,,0.79,0.01,0.08,0.21,2.86,4.69,0.02,0.9,98.59,1.36,2.27,0.27,0.21,0.52,255,16.4,40.2,115,36.7,5.93,151,21.3,51.4,6.37,24.8,6.65,0.14,6.38,1.1,6.73,18.8,1.35,3.81,0.6,4.15,0.62,5.7,2.13,29.4,2.51,,, 723,11ER1-5,,,50.64333333,120.1608333,GPS,"Tang et al., (2016)",186 Ma (?),,186,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,76.77,0.06,12.37,,,,0.77,0.01,,0.16,3.32,4.55,0.02,0.86,98.89,1.79,1.6,0.32,0.16,0.28,235,10.9,54,115,26,4.29,84.7,18.3,51.1,5.7,22.5,6.03,0.12,6.28,1.2,8.22,19.1,1.81,5.19,0.81,5.46,0.8,5.7,2.14,29.4,1.86,,, 724,MZ18-2,,,49.41805556,117.3188889,GPS,"Tang et al., (2016)",180 Ma,,180,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.4,0.24,13.28,,,,1.93,0.06,0.35,0.94,4.26,3.91,0.05,0.23,99.65,5.37,12.3,0.64,1.27,0.43,175,107,32.2,220,10.5,6.08,654,36.4,,8.22,29.4,6.04,0.84,5.61,0.91,5.58,15.9,1.19,3.58,0.57,4.01,0.62,6.25,0.79,15.4,3.63,,, 725,12MZ2-1,,,49.41805556,117.3188889,GPS,"Tang et al., (2016)",180 Ma (?),,180,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.34,0.25,13.38,,,,1.76,0.05,0.32,0.9,4.13,4.03,0.05,0.32,99.53,5.67,12.9,0.76,1.42,0.38,202,101,40,220,14.2,6.3,655,38.4,76.8,8.63,31.5,5.97,0.76,5.21,0.89,5.73,17.8,1.19,3.77,0.61,4.42,0.69,6.83,1.36,18.6,3.42,,, 726,12MZ2-2,,,49.41805556,117.3188889,GPS,"Tang et al., (2016)",180 Ma (?),,180,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.15,0.23,13.52,,,,1.6,0.05,0.3,0.95,4.26,3.99,0.05,0.3,99.4,5.06,11.2,0.49,1.23,0.44,185,103,36.8,171,12.6,5.37,656,28,57.6,6.6,24.6,5.06,0.76,4.6,0.8,5.24,17,1.09,3.44,0.54,3.84,0.62,5.3,1.06,23,4.21,,, 727,12MZ2-3,,,49.41805556,117.3188889,GPS,"Tang et al., (2016)",180 Ma (?),,180,,XRF and ICP-MS,Whole Rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",GPS location,74.12,0.23,13.64,,,,1.57,0.05,0.32,0.85,4.19,4.1,0.04,0.28,99.4,4.94,10.4,0.52,1.27,0.3,198,105,35.5,185,13.2,5.22,690,29.9,60.4,6.8,24.9,5.08,0.75,4.45,0.79,5.13,17.3,1.05,3.44,0.54,3.82,0.62,5.78,1.1,18.8,2.7,,, 728,15DX15-1,,Xingan Massif,46.58222222,121.2919444,GPS,"Li et al., (2018)",177 ± 1 Ma,,177,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,72.18,0.28,14.59,,,,1.88,0.08,0.64,1.77,4.4,2.72,0.12,1.14,99.8,3.91,26.2,3.04,3.15,1.85,67.6,262,12.1,93.7,8.52,4.39,502,13.3,27.8,3.28,12,2.37,0.56,2.05,0.33,1.96,18.9,0.39,1.16,0.18,1.24,0.18,2.93,0.72,5.89,0.9,,, 729,15DX15-2,,Xingan Massif,46.58222222,121.2919444,GPS,"Li et al., (2018)",177 Ma (?),,177,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,71.16,0.31,15.09,,,,2.03,0.08,0.7,1.88,4.31,3.06,0.15,1,99.77,4.22,29,3.44,3.34,2,72.5,269,13,108,8.82,4.46,584,15.3,33.2,3.78,13.8,2.78,0.6,2.34,0.37,2.28,19.1,0.42,1.22,0.2,1.32,0.19,3.28,0.75,6.65,1.3,,, 730,15DX15-4,,Xingan Massif,46.58222222,121.2919444,GPS,"Li et al., (2018)",177 Ma (?),,177,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,71.28,0.3,14.93,,,,1.99,0.08,0.69,1.86,4.47,2.86,0.14,1.18,99.78,4.21,29.9,3.15,3.31,2.13,67.3,273,12.8,102,8.82,4.07,611,14.4,31,3.48,13,2.6,0.58,2.26,0.36,2.09,19.3,0.4,1.2,0.19,1.31,0.19,3.17,0.67,6.25,0.82,,, 731,15DX15-5,,Xingan Massif,46.58222222,121.2919444,GPS,"Li et al., (2018)",177 Ma (?),,177,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,72.44,0.26,14.72,,,,1.68,0.07,0.57,1.81,4.3,2.93,0.12,1.08,99.98,3.49,23.5,2.79,2.8,1.73,66.3,260,10.5,91.3,7.56,3.93,548,13.1,27,3.19,11.5,2.28,0.54,1.88,0.3,1.73,17.8,0.34,0.97,0.16,1.12,0.16,2.77,0.66,5.28,1.21,,, 732,13XA33-1,,Xingan Massif,48.26333333,123.4422222,GPS,"Li et al., (2018)",175 ± 1 Ma,,175,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,76.24,0.14,13.27,,,,0.6,0.01,0.083,0.41,3.99,4.45,0.025,0.76,99.98,2.51,3.98,0.45,0.28,1.98,130.9,47.8,13.9,73.8,11.3,2.99,606,13.1,27.2,3.3,11.6,2.51,0.43,2.04,0.39,2.31,16.1,0.45,1.26,0.22,1.46,0.2,2.91,1.09,10.9,1.83,,, 733,13XA33-2,,Xingan Massif,48.26333333,123.4422222,GPS,"Li et al., (2018)",175 Ma (?),,175,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,76.55,0.14,13.4,,,,0.32,0.01,0.066,0.28,4.12,4.46,0.03,0.68,100.06,2.4,3.28,0.57,0.23,1.54,120.6,60.5,13.9,92.9,13.7,2.3,571,13.8,26.8,3.5,12.4,2.67,0.43,2.17,0.38,2.21,15.5,0.44,1.28,0.2,1.42,0.2,3.39,1.24,11.1,1.58,,, 734,16ER43-4,,Xingan Massif,50.38305556,125.6533333,GPS,"Li et al., (2018)",174 ± 1 Ma,,174,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,66.02,0.52,16.17,,,,4.32,0.07,1.68,3.22,4.37,2.74,0.11,0.58,99.8,8.18,81.8,11.8,10,7.12,68.5,478,13.8,130,6.08,2.68,564,17.4,36.3,4.3,16.8,3.29,0.94,2.64,0.41,2.39,17.7,0.44,1.28,0.18,1.33,0.2,3.55,0.48,4.45,2.29,,, 735,16ER43-5,,Xingan Massif,50.38305556,125.6533333,GPS,"Li et al., (2018)",174 Ma (?),,174,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,66.26,0.52,16.24,,,,4.04,0.06,1.64,3.24,4.43,2.64,0.08,0.88,100.04,7.84,74.5,10.1,9.41,6.56,65.8,482,12.5,132,5.87,2.59,549,17.3,34.9,4.11,15.8,3.07,0.94,2.52,0.37,2.16,17.4,0.42,1.19,0.17,1.25,0.19,3.75,0.43,4.57,2.35,,, 736,16DX10-2,,Xingan Massif,48.56555556,123.03,GPS,"Li et al., (2018)",168 ± 1 Ma,,168,1,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,77.19,0.15,12.41,,,,0.89,0.02,0.14,0.62,3.85,3.94,0.02,0.72,99.95,1.85,10.2,0.82,0.76,0.45,116,276,5.27,77.4,7.49,1.34,270,25.1,34.9,2.97,8.74,1.27,0.29,0.82,0.12,0.71,16.4,0.15,0.44,0.07,0.48,0.07,2.94,0.76,14.9,3.28,,, 737,16DX10-3,,Xingan Massif,48.56555556,123.03,GPS,"Li et al., (2018)",168 Ma (?),,168,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences (Wuhan)",,76.54,0.12,12.84,,,,0.76,0.01,0.12,0.58,3.89,4.33,0.02,0.7,99.91,1.36,8.37,0.79,0.6,0.45,133,279,3.78,62.3,6.22,1.54,293,16.2,23.8,2.11,6.35,1.01,0.23,0.68,0.09,0.53,17,0.12,0.3,0.05,0.39,0.05,2.44,0.63,10,4.03,,, 738,1697-1,Granite porphyry,,50.78777778,120.7630556,GPS,"Gou et al., (2019)",162 ± 2 Ma,,162,2,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS,77.92,0.13,11.49,,,,3.11,0.23,0.42,0.1,0.23,3.47,0.03,2.8, , , ,7.13, ,6.76,228,12.3,6.99,83.7,7.02,9.11,86.6,28.8,50.7,4.77,14.7,2.07,0.43,1.66,0.19,1.04,16.9,0.19,0.56,0.09,0.62,0.1,2.77,0.6,14,1.36,,, 739,M215-1,Rhyolite,,50.36111111,120.4269444,GPS,"Gou et al., (2019)",161 ± 1 Ma,,161,1,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS,74.67,0.26,13.88,,,,1.19,0.03,0.11,0.1,4.12,4.63,0.06,0.97, , , ,0.61, ,0.85,103,193,23.7,298,17,5.85,1092,58.2,109,12.7,45.7,7.65,1.46,5.83,0.74,4.01,17.3,0.79,2.17,0.32,2.13,0.34,7.17,1.1,15.9,3.93,,, 740,M215-3,Rhyolite,,50.36111111,120.4269444,Figure-Point,"Gou et al., (2019)",Late Jurassic,,161,1,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS from M215-3,72.49,0.27,15.12,,,,1.21,0.05,0.1,0.38,5.17,4.28,0.07,1.09, , , ,0.79, ,0.4,101,221,25.2,304,17.1,6,862,62.4,117,13.4,48.1,7.83,1.55,5.92,0.76,4.28,17,0.84,2.25,0.34,2.2,0.34,7.42,1.13,17.2,3.61,,, 741,16X35-1,Monzogranite,,51.38277778,124.2788889,GPS,"Gou et al., (2019)",159 ± 2 Ma,,159,2,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS,72.18,0.25,14.47,,,,1.54,0.04,0.44,1.21,4.55,4.14,0.08,0.63, , , ,10, ,-,95.7,326,9.8,145,9.4,1.98,596,25.9,50.3,5.13,16.8,2.99,0.49,1.97,0.27,1.47,18.3,0.32,0.88,0.14,0.95,0.15,4,0.9,9.74,1.88,,, 742,16X35-3,Monzogranite,,51.38277778,124.2788889,Figure-Point,"Gou et al., (2019)",159 Ma,,159,,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS from 16X35-1,72.38,0.29,14.16,,,,1.89,0.06,0.52,1.2,4.73,3.73,0.09,0.77, , , ,10, ,-,88.9,294,12,170,10.6,1.82,534,27.6,56.8,6.24,20.9,3.73,0.6,2.5,0.34,1.96,18.3,0.4,1.11,0.18,1.18,0.18,4.6,0.9,9,2.36,,, 743,12ER35-1 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.21972222,121.5588889,GPS,"Tang et al., (2015)",156 ± 2 Ma,,156,2,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,61.72,0.85,16.7,,,,5.04,0.05,2.87,4.24,4.64,3.19,0.22,0.62,100.14,8.94,105,79.9,15.8,38.8,103,837,15.4,185,9.16,4.79,744,34.4,68.7,8.07,31.5,5.64,1.32,3.78,0.5,2.71,21.5,0.48,1.27,0.17,1.06,0.16,4.9,0.63,15.4,1.79,,, 744,12ER35-3 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.21972222,121.5588889,GPS,"Tang et al., (2015)",156 Ma,,156,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,61.76,0.88,16.6,,,,4.91,0.05,2.9,4,4.63,3.34,0.23,0.6,99.9,8.35,102,76.2,15.3,40.9,105,812,14.9,193,8.56,4.57,765,34.4,67.8,7.95,30.8,5.15,1.24,3.7,0.47,2.55,20.9,0.46,1.17,0.15,1.05,0.15,4.94,0.53,14.9,1.68,,, 745,12ER35-4,quartz monzonite, Late Jurassic MG quartz monzonite,52.21972222,121.5588889,GPS,"Tang et al., (2015)",156 Ma,,156,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,60.77,0.93,16.25,,,,5.63,0.06,3.25,4.3,4.39,3.34,0.24,0.62,99.78,10.4,114,90.9,16.9,42,103,794,15.9,198,9.67,4.37,753,34.5,69.8,8.4,33.1,6.03,1.31,4.07,0.55,2.9,20.4,0.52,1.37,0.19,1.19,0.16,5.26,0.64,16.4,1.79,,, 746,12ER35-5 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.21972222,121.5588889,GPS,"Tang et al., (2015)",156 Ma,,156,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,61.19,0.9,16.14,,,,5.66,0.07,3.32,4.3,4.38,3.03,0.24,0.74,99.97,10.1,112,91.4,17.6,43.4,99,806,16.3,203,9.12,4.59,587,35.8,71.7,8.6,34,6.04,1.22,4.19,0.55,2.88,20.9,0.51,1.35,0.18,1.26,0.17,5.34,0.62,16.5,2.77,,, 747,13ER16-1 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.15888889,121.5005556,GPS,"Tang et al., (2015)",155 ± 1 Ma,,155,1,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,64.38,0.72,15.25,,,,4.6,0.06,2.54,3.72,4,3.82,0.2,0.72,100.01,8.33,96.5,60.6,13.4,33.8,108,659,14,196,8.38,3.67,582,35.5,74.9,8.01,29.2,4.8,1.07,3.63,0.46,2.43,20.1,0.45,1.2,0.18,1.16,0.17,5.5,0.67,22.3,2.4,,, 748,11ER21-1,monzonite ,Late Jurassic SW monzonite ,51.22055556,119.8177778,GPS,"Tang et al., (2015)",155 ± 1 Ma,,155,1,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,55.05,0.68,12.58,,,,6.65,0.12,6.1,8.75,4.52,3.48,1.04,1.29,100.27,8.24,65.3,94.6,16.9,90.1,125,1652,27.1,216,25.2,3.8,1045,126,243,25.7,90.4,13.7,2.84,9.43,1.12,5.12,20.5,0.9,2.35,0.29,1.88,0.27,5.22,1.62,29.5,6.78,,, 749,11ER21-2,monzonite ,Late Jurassic SW monzonite ,51.22055556,119.8177778,GPS,"Tang et al., (2015)",155 Ma,,155,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,55.64,0.74,12.73,,,,5.49,0.11,5.85,8.58,3.75,3.97,1.01,1.21,99.08,8.98,72.4,105,17,84.2,141,1523,26.5,214,22.9,6.13,1079,112,217,23,81.8,12.6,2.54,8.68,1.06,4.93,20.4,0.87,2.28,0.3,1.86,0.27,5.06,1.3,26.8,6.82,,, 750,11ER21-3,monzonite ,Late Jurassic SW monzonite ,51.22055556,119.8177778,GPS,"Tang et al., (2015)",155 Ma,,155,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,54.75,0.73,12.46,,,,5.75,0.12,6.09,9.99,3.79,3.2,1.18,0.57,98.62,8.17,66.2,78.2,16.3,85.4,141,1579,29.2,236,32.1,5.23,910,133,257,27.5,95.3,14.5,2.99,10.1,1.2,5.7,20.8,0.93,2.53,0.33,2.11,0.28,5.38,1.87,35,9.78,,, 751,11ER21-5,monzonite ,Late Jurassic SW monzonite ,51.22055556,119.8177778,GPS,"Tang et al., (2015)",155 Ma,,155,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,54.31,0.78,12.55,,,,5.74,0.11,6.23,9.7,4.1,3.01,1.01,1.08,98.62,8.79,74.9,101,17.2,91,130,1611,26.7,266,25.8,4.33,896,119,226,24.1,85,13.2,2.67,9.06,1.1,5.2,20.9,0.86,2.29,0.3,1.86,0.27,5.82,1.59,32.5,7.28,,, 752,1622-1,Quartz monzonite,,52.25,121.5333333,Figure-Polygon,"Gou et al., (2019)",Late Jurassic (~145-163 Ma),,155,8,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",Locationf from Late Jurassic Intrussive,65.19,0.62,15.41,,,,3.97,0.07,2.12,3.44,4.32,3.62,0.17,0.54, , , ,60, ,,117,636,11.9,194,7.5,5.55,626,36.4,67,7.39,25.6,4.2,0.91,3.27,0.39,2.03,19.9,0.41,1.03,0.17,0.98,0.17,5.1,0.7,24.2,2.47,,, 753,1623-2,Quartz monzonite,,52.25,121.5333333,Figure-Polygon,"Gou et al., (2019)",Late Jurassic (~145-163 Ma),,155,8,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",Locationf from Late Jurassic Intrussive,61.68,0.87,15.79,,,,5.33,0.07,2.88,4.02,4.35,3.89,0.23,0.42, , , ,80, ,,130,721,15.1,386,9.1,5.84,769,41,82.2,9.72,34.4,6.11,1.22,4.01,0.54,2.74,22.5,0.55,1.32,0.2,1.23,0.18,9.3,0.7,23.5,6.88,,, 754,1624-1,Quartz monzonite,,52.22666667,121.4991667,GPS,"Gou et al., (2019)",Late Jurassic (~145-163 Ma),,155,8,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China","GPS. Location from Sun et al., (2013)",65.09,0.62,14.95,,,,4.55,0.06,2.25,3.54,3.94,3.57,0.2,0.74, , , ,60.7, ,29.1,109,579,14,165,8.78,5.24,602,37.8,73,8.15,29.7,5.03,1,3.9,0.49,2.56,20,0.46,1.26,0.19,1.18,0.17,4.45,0.72,27,3.05,,, 755,16X34-1,Monzogranite,,52.25,121.5333333,Figure-Polygon,"Gou et al., (2019)",Late Jurassic (~145-163 Ma),,155,8,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",Locationf from Late Jurassic Intrussive,70.5,0.34,14.85,,,,2.15,0.06,0.61,1.17,4.61,4.2,0.11,0.62, , , ,10, ,-,93.8,380,12.9,190,10.3,2.1,843,30.2,60.7,6.58,23,4.03,0.63,2.76,0.41,2.13,18.8,0.43,1.2,0.19,1.19,0.18,4.8,0.8,8.16,1.71,,, 756,GS23- 1,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,74.35,0.23,13.87,0.54,0.96,,,0.04,0.13,0.52,4.11,4.56,0.06,0.58,99.95,,13.3,1.39,1.11,1.15,139,104,8.67,117,12.3,,163,23.8,35.9,4.37,14.2,2.34,0.4,2.22,0.32,1.61, ,0.31,0.93,0.14,0.97,0.15,4.19,,,2.12,,, 757,GS23- 2,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,74.9,0.23,13.4,0.65,0.76,,,0.06,0.19,0.87,3.8,4.47,0.06,0.55,99.93,,13.5,2.43,1.43,2.38,130,122,10.9,134,12.9,,181,27.2,43.8,4.92,16.2,2.63,0.42,2.56,0.36,1.91, ,0.38,1.06,0.15,1,0.15,4.46,,,2.25,,, 758,GS6550,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Point,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from figure,74.79,0.2,12.66,0.3,1.19,,,0.07,0.24,0.62,3.64,4.78,0.04,0.69,99.21,,51.5,14.8,1.57,3.03,154,31,13.7,149,16.8,,121,31,61.9,5.38,16.5,2.69,0.43,2.4,0.37,2.09, ,0.41,1.55,0.24,1.54,0.31,,,,2.21,,, 759,GS3655,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,73.3,0.29,13.8,0.51,1.62,,,0.086,0.21,0.42,4.03,4.95,0.097,0.64,99.95,,21,27.9,2.36,12.3,119,119,26.5,184,14,,479,39.9,78.2,9.44,34.7,6.35,1.08,6.3,0.91,4.46, ,0.85,3.04,0.49,3.22,0.45,,,,2.7,,, 760,GS3656,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,75,0.2,13.17,0.27,1.28,,,0.07,0.16,0.26,3.66,5.06,0.091,0.61,99.83,,22,53.3,2.51,19.7,123,121,23.9,183,13.7,,452,36.1,75,8.44,30.1,5.45,0.91,5.34,0.8,4.05, ,0.77,2.74,0.46,3,0.41,,,,2.78,,, 761,GS3662,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,72.36,0.29,13.49,0.35,1.71,,,0.081,0.24,0.51,4.37,5.04,0.095,0.55,99.09,,23,38.3,2.28,12.8,135,131,28.4,206,14.1,,486,37.4,71.2,8.69,31.5,5.76,0.98,5.75,0.88,4.44, ,0.86,3.05,0.5,3.24,0.47,,,,3.05,,, 762,GS6687,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,76.34,0.2,11.58,0.64,1.75,,,0.035,0.2,0.2,3.17,4.92,0.021,0.9,99.96,,10.6,13.1,2,2.54,210,43,19.9,310,16.6,,180,15.9,33.9,3.68,13.1,2.65,0.33,2.46,0.49,3.22, ,0.71,2.25,0.42,2.79,0.47,8.39,,,2.76,,, 763,GS4434,Syenogranite,Wuzhigou syenogranite,47.629858,120.186615,Figure-Polygon,"Liu et al., (2018)",Late Jurassic (~145-163 Ma),,154,9,XRFand ICP-MS,whole rock,Tianjin Geological Survey Center (China),General location from sample TW6550 in figure,76.06,0.22,12.14,0.36,1.75,,,0.033,0.24,0.14,2.6,5.44,0.008,0.86,99.85,,9.9,15.5,1.56,3.32,180,39,14.3,310,15.5,,140,11.2,33.1,2.11,7.53,1.44,0.24,1.35,0.29,2.27, ,0.53,1.76,0.36,2.39,0.37,7.55,,,3.18,,, 764,12ER2-1 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 ± 2 Ma,,152,2,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,70.16,0.46,15.1,,,,2.33,0.04,0.45,1.04,4.11,5.63,0.1,0.44,99.86,4.26,14.2,0.87,1.57,0.5,189,163,60.9,406,36,4.64,512,86.8,169,19.9,73.2,14.4,1.37,11.9,1.89,10.8,21.3,1.99,5.54,0.75,4.66,0.61,10.6,2.61,17.5,2.92,,, 765,12ER2-2 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,70.86,0.47,14.38,,,,2.42,0.05,0.45,1.04,3.98,5.33,0.1,0.48,99.56,4.21,15.4,2.51,1.64,1.32,143,160,60.9,373,38.9,2.02,507,80.9,167,20,75,15,1.42,11.9,1.88,10.7,21.1,2,5.44,0.74,4.59,0.6,9.52,2.93,16.4,3.29,,, 766,12ER2-3 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,74.44,0.32,13.01,,,,1.68,0.02,0.17,0.43,2.75,6.62,0.03,0.42,99.89,2.76,5.19,0.47,0.55,0.36,193,84.9,59,389,21.9,3.27,226,71.7,176,22.7,90.2,20.7,1.04,16.7,2.65,14.3,19.9,2.39,5.42,0.68,3.7,0.45,9.41,1.88,25.6,1.77,,, 767,12ER2-4 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,74.52,0.32,12.89,,,,1.57,0.02,0.17,0.48,2.78,6.47,0.03,0.38,99.63,3.03,4.56,0.34,0.49,0.23,184,82.6,67.5,402,24.3,3.1,161,53.2,139,18.2,75.7,19.5,0.95,15.6,2.58,14.3,20.1,2.47,5.76,0.7,4.04,0.48,10.1,2.65,12.7,1.7,,, 768,12ER2-7 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,70.34,0.48,14.82,,,,2.45,0.05,0.48,1.14,4.15,5.33,0.12,0.54,99.9,4.7,15.9,1.11,1.68,0.58,202,169,63.8,460,37.1,4.5,499,86,183,20.5,75.3,14.9,1.45,11.9,1.97,11.4,23.1,2.09,5.69,0.81,4.98,0.66,12.3,2.86,17.4,3.37,,, 769,12ER2-8 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,67.87,0.62,15.74,,,,2.94,0.05,0.58,1.34,4.4,5.31,0.14,0.46,99.45,5.78,18.5,1.63,1.9,0.66,205,192,109,598,54.1,5.59,503,118,250,29.3,113,24.58,1.98,20.2,3.46,19.9,25.3,3.69,9.74,1.29,8.06,1.03,15.8,5.68,25.9,4.86,,, 770,12ER2-6 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,50.69,2.04,17.57,,,,10.29,0.17,4.13,6.49,4.23,2.42,0.66,1.06,99.75,15.8,197,10.1,26.4,11.8,187,771,34,251,27.2,15.5,360,49.7,101,12.4,51.2,10.1,2.52,8.33,1.16,6.46,23.6,1.18,3.21,0.43,2.66,0.39,5.73,1.45,6.65,2.4,,, 771,13ER2-9,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94166667,118.8319444,GPS,"Tang et al., (2015)",152 Ma,,152,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,55.51,1.71,17.35,,,,7.9,0.11,2.27,4.67,4.67,4.01,0.67,0.72,99.59,12.1,110,0.19,11,0.29,150,741,49,453,34.4,8.01,1145,106,219,24.1,90.2,15.8,3.14,12.3,1.73,9.58,25.3,1.7,4.56,0.6,3.86,0.56,10.5,2.19,19.6,3.43,,, 772,M568-1,Monzogranite,,49.84138889,118.7633333,GPS,"Gou et al., (2019)",152 ± 2 Ma,,152,2,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS,75.06,0.11,13.47,,,,1.05,0.04,0.18,1.08,4.56,3.42,0.04,0.25, , , ,10, ,-,134,129,5.6,96,5,1.33,128,21.2,45.1,3.44,11.4,1.74,0.35,1.14,0.17,0.81,21.7,0.16,0.48,0.06,0.43,0.07,3.2,0.4,19.1,3.71,,, 773,13ER48-1 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94361111,118.8377778,GPS,"Tang et al., (2015)",150 ± 2 Ma,,150,2,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,73.75,0.23,13.89,,,,1.38,0.02,0.17,0.57,3.84,5.45,0.04,0.38,99.72,2.64,3.96,0.22,0.44,0.19,163,82.5,19.8,277,17.8,1.82,207,57.9,115,12.2,42.7,6.8,0.92,5.11,0.7,3.84,20.9,0.67,1.81,0.24,1.49,0.24,7.33,1.16,23.4,1.85,,, 774,13ER48-3 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94361111,118.8377778,GPS,"Tang et al., (2015)",150 Ma,,150,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,73.33,0.24,13.91,,,,1.66,0.02,0.19,0.63,3.9,5.31,0.05,0.42,99.66,2.96,6.07,0.22,0.51,0.23,165,110,32.5,379,20.7,2.99,315,114,210,22.2,75.7,11.3,1.06,7.83,1.01,5.48,21.9,0.98,2.59,0.34,2.3,0.32,10,1.97,50.7,2.72,,, 775,13ER48-4 ,syenogranite,Late Jurassic BDG syenogranite and MMEs,49.94361111,118.8377778,GPS,"Tang et al., (2015)",150 Ma,,150,,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,73.54,0.21,13.87,,,,1.54,0.02,0.17,0.62,3.82,5.31,0.05,0.36,99.51,2.53,5.04,0.23,0.47,0.23,165,108,27.9,333,17.9,3.09,313,99.4,182,19.2,64.5,9.4,1,6.69,0.91,4.68,21.6,0.81,2.16,0.3,1.85,0.29,8.89,1.62,43.9,2.75,,, 776,14ER462-1,Dacite,,50.66444444,120.2675,GPS,"Gou et al., (2019)",150 ± 2 Ma,,150,2,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS,62.28,0.69,16.89,,,,5.3,0.03,0.65,2.82,4.66,2.63,0.25,3.59, , , ,10, ,,74.2,653,11.4,251,8.8,1.94,785,43.1,77.7,8.3,28.6,4.48,1.22,3.07,0.42,2.05,19.8,0.41,1.13,0.15,0.99,0.16,6.4,0.6,13.5,1.02,,, 777,14ER462-2,Dacite,,50.66444444,120.2675,Figure-Point,"Gou et al., (2019)",150 Ma,,150,,XRF and ICPMS,Whole rock,"State Key Laboratory of Continental Dynamics, Northwest University, Xi‚Äôan, Shanxi, China",GPS and age from 14ER462-1,62.68,0.68,16.7,,,,5.13,0.03,0.76,2.41,4.12,2.91,0.26,3.61, , , ,10, ,,82.9,630,13.5,257,9,1.83,799,46.9,87.4,9.63,33.4,5.75,1.31,3.71,0.53,2.46,20.5,0.49,1.29,0.18,1.19,0.19,6.4,0.6,13.5,1.24,,, 778,13ER16-3,quartz monzonite, Late Jurassic MG quartz monzonite,52.15888889,121.5005556,GPS,"Tang et al., (2015)",140-156 Ma,,148,8,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,63.79,0.76,15.32,,,,4.88,0.06,2.74,3.82,3.99,3.79,0.22,0.62,99.99,9.36,105,66.9,15.2,36.9,119,663,15.2,183,8.89,4.4,606,38.9,80.7,8.6,32.3,5.37,1.17,3.96,0.52,2.81,20.9,0.53,1.29,0.19,1.23,0.17,5.11,0.76,23.5,2.1,,, 779,13ER18-1 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.18930556,121.4811111,Figure-Point,"Tang et al., (2015)",140-156 Ma,,148,8,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,63.28,0.75,15.42,,,,4.85,0.06,2.65,3.81,4,3.88,0.22,0.52,99.44,9.05,98.6,64.4,14.1,35.7,123,624,14.8,170,9.04,5.83,571,28.3,58.9,7,26.3,4.74,1.02,3.51,0.49,2.63,20.5,0.47,1.28,0.18,1.1,0.16,4.69,0.78,23.8,3.27,,, 780,13ER18-2 ,quartz monzonite, Late Jurassic MG quartz monzonite,52.18930556,121.4811111,Figure-Point,"Tang et al., (2015)",140-156 Ma,,148,8,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,64.86,0.7,15.13,,,,4.39,0.06,2.41,3.63,4.01,3.84,0.2,0.54,99.77,7.78,92.3,62.8,13.5,33.1,122,627,15,233,8.36,5.57,557,29.8,60.6,6.74,25.1,4.36,1.04,3.36,0.43,2.41,20.4,0.42,1.14,0.16,1.14,0.17,6.36,0.72,24.7,2.82,,, 781,13ER18-3,quartz monzonite, Late Jurassic MG quartz monzonite,52.18930556,121.4811111,Figure-Point,"Tang et al., (2015)",140-156 Ma,,148,8,,Whole rock,"State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences,Wuhan, China",,62.84,0.76,15.16,,,,5.09,0.07,2.84,4.1,4.02,3.77,0.24,0.58,99.47,9.76,105,68.8,15.5,37.4,117,650,15.9,216,9.56,5.79,557,27.8,59.5,7.12,27.7,5.16,1.13,3.91,0.54,2.95,20.9,0.51,1.43,0.2,1.36,0.18,5.71,0.83,23.6,3.2,,, 782,TCS 59.1,Adakitic Lava,,46.27777778,107.7602778,Figure-Point,"Sheldrick et al., (2020)",229.8 ± 0.6 Ma,,,,XRF and ICP-MS,Whole rock,"University of Leicester by X-ray fluorescence (XRF) spectrometry. Trace and rare earth element concentrations were analysed by ICP-MS at the University of Leicester, on a Thermo iCAP-q quadrapole mass spectrometer",High Silica adakite,63.83,0.71,15.77,,,,4.52,0.075,2.05,4.01,4.39,2.99,0.24,1.92,100.51, ,82.7,20.2,12.5,10.1,163.4,805.84,14.97,280.2,10.2, ,1150.7,45.67,87.43,9.9,33.94,6.21,1.52,4.49,0.57,3.14, ,0.58,1.51,0.22,1.39,0.2,6.77,0.53,10.91,1.94,,, 783,T2-106,Granitoid,AEPE,46.21098,106.57216,GPS,"Gerel et al., (2017)",,,,,NI,NI,NI,GPS,52.51,1.13,19.43,,,,8.01,0.13,5.02,6.86,4.16,2.16,0.25,,99.66,21,188, , , ,106.7, ,21.6, ,6.2, , ,21.2,43.2,5.5,22,4.8,1.4,4.5,0.7,3.9,18.2,0.8,2,0.3,2.2,0.3,4,0.4, ,0.4,,, 784,T2-109,Granitoid,AEPE,46.08493,106.25662,GPS,"Gerel et al., (2017)",,,,,NI,NI,NI,GPS,77.11,0.05,13.7,,,,0.81,0.043,0.07,0.42,4.17,4.42,<0.01,,100.793,5,<5, , , ,209.4, ,43.8, ,9.6, , ,17.3,34.4,4,14.3,3.9,0.1,4.4,0.9,6.2,14.7,1.4,4.7,0.8,5.7,0.9,3,1.5, ,2.2,,, 785,T2-116,Granitoid,AEPE,46.44274,106.21209,GPS,"Gerel et al., (2017)",,,,,NI,NI,NI,GPS,76.2,0.08,12.9,,,,0.81,0.017,0.08,0.29,3.79,4.51,<0.01,,98.677,4,<5, , , ,182, ,23.8, ,7.5, , ,32,60.9,6.5,20.4,3.9,<0.1,3.3,0.6,3.7,13.6,2.6,2.6,0.5,3.3,0.5,3,1.1, ,1.9,,, 786,M197-1,,,48.541109,116.070516,Figure-Polygon,"Gou et al., (2013)",,,,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",General location from figure - Center of corresponding polygon,68.53,0.49,15.01,,,,3.74,0.12,1.37,2.68,4.07,3.4,0.14,0.58,100.13,4.59,34,2.3,3.05,1.44,145,250,18.8,119,9.08,3.76,480,25.4,48.8,5.73,20.4,3.74,0.76,3.15,0.45,2.76,16.3,0.59,1.71,0.27,1.93,0.31,3.42,0.73,15.3,2.35,,, 787,M197-2,,,48.541109,116.070516,Figure-Polygon,"Gou et al., (2013)",,,,,XRF and ICP-MS,Whole rock,"State Key Laboratory of Continental Dynamics, North- west University, China",General location from figure - Center of corresponding polygon,71.39,0.33,14.33,,,,2.35,0.06,0.8,2.09,4,3.78,0.09,0.5,99.72,,38,10,,,145,255,17,150,7.7,3.74,495,37.6,64.6,6.32,21.5,3.32,0.76,3.01,0.48,2.68,17.8,0.59,1.67,0.27,1.91,0.31,4.2,0.7,16.85,3.18,,, 788, DB-2,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,76.29,0.2,11.79,,,,2.71,0.01,0,0.07,4.34,4.33,0.07,0.19,100, ,7,0, ,4,133,10,76,688,27.6, ,55,46.7,125.3,12.95,50.5,10.41,0.62,10.58,1.96,12.93,29,2.79,8.3,1.28,8.61,1.3,18.3,1.5,16.7,4.1,,, 789,DB-6,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,72.81,0.27,12.86,,,,3,0.07,0.08,0.45,4.35,4.78,0.05,0.4,99.12, ,10,0, ,3,163,21,81,734,32.3, ,152,86.4,186,22.18,84.6,16.27,0.43,14.63,2.5,15.04,26,2.98,8.97,1.37,9.38,1.33,20.1,1.8,17.9,2.9,,, 790,DB-11,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,75.04,0.15,13.16,,,,2.35,0.03,0.1,0.2,4.49,3.68,0.02,0.39,99.61, ,9,0, ,4,85,63,67,441,23.5, ,379,68.6,152,18.17,73.6,13.65,1.03,12.64,2.06,12.71,23,2.53,7.41,1.14,7.45,1.09,12.9,1.7,15.4,4.4,,, 791,DB-20D,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,75.21,0.19,12.84,,,,2.52,0.03,0.07,0.35,3.94,4.24,0.03,0.69,100.1, ,11,0, ,3,182,28,93,761,30.7, ,132,66,142,18.76,75.5,16.08,0.68,14.63,2.59,16.63,30,3.24,9.53,1.5,9.84,1.41,20.8,2.2,22.9,10.8,,, 792,DB-28,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,74.04,0.27,12.65,,,,3.05,0.06,0.1,0.49,4.32,4.51,0.04,0.15,99.67, ,11,0, ,3,160,24,71,779,31.6, ,135,52.3,173.7,15.38,59.6,12.04,0.34,11.19,1.99,12.51,26,2.63,7.9,1.29,9.07,1.26,20,1.4,16.8,3.4,,, 793,DB-40,Granite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,74.37,0.27,12.61,,,,2.71,0.05,0.08,0.39,4.3,4.62,0.05,0.19,99.63, ,11,0, ,3,161,23,58,661,30, ,137,61.7,154.1,16.87,64.5,12.4,0.34,9.97,1.8,11.39,26,2.17,7.16,1.1,7.94,1.17,18.7,1.5,17.3,3.3,,, 794, DB-13,Dike,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,70.92,0.24,14.23,,,,3.59,0.08,0.05,0.42,4.38,4.79,0.03,0.7,99.43, ,7,0, ,5,143,37,67,624,23.5, ,837,61.7,142.5,17.09,71.5,13.36,1.68,11.94,2,12.57,26,2.33,7,1.08,7.31,1.04,16.4,1.4,14.9,4.2,,, 795,DB-15,Dike,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,67.17,0.47,14.92,,,,6.11,0.13,0.23,0.4,4.51,4.5,0.09,0.87,99.4, ,11,0, ,4,149,77,72,918,24.9, ,1377,67.4,147.2,18.44,73.4,15.32,3.27,13.26,2.23,13.09,27,2.62,7.61,1.22,7.83,1.18,19.5,1.4,12.3,3.7,,, 796,DB-15A ,Dike,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,68.02,0.44,14.15,,,,5.69,0.13,0.17,1.13,4.31,4.8,0.08,0.89,99.8, ,11,0, ,3,143,101,56,860,24.5, ,1761,43.2,109.6,12.97,54.6,11.34,2.77,9.61,1.62,10.18,24,1.96,5.8,0.92,6.7,0.95,18.4,1.4,11.7,3.3,,, 797,DB-16,Dike,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,69.34,0.36,14.31,,,,4.43,0.1,0.12,0.67,4.49,4.54,0.07,1.07,99.49, ,11,0, ,3,132,54,69,624,22.7, ,1635,61,134.8,16.55,69,13.85,2.46,12.29,2.09,12.77,25,2.5,7.42,1.12,7.44,1.08,15.9,1.8,14.1,4.9,,, 798,DB-26,Syenite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,68.32,0.51,14.34,,,,3.63,0.08,0.38,1.1,5.02,5.45,0.14,0.67,99.64, ,45,0, ,5,138,162,71,914,22.3, ,646,84,140.5,24.7,98.1,18.06,1.74,15.05,2.35,13.53,25,2.51,7.15,0.97,6.51,0.87,18.8,1,8.4,5.5,,, 799,DB-26B,Syenite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,63.36,0.76,16.09,,,,4.61,0.14,0.8,1.68,5.87,5.8,0.25,0.4,99.76, ,35,0, ,7,142,131,77,867,21.4, ,555,79.5,155.9,20.55,82.6,15.17,1.55,15.02,2.43,15.15,25,2.97,8.52,1.28,8.32,1.11,19.9,0.8,7.6,2,,, 800,DB-27,Syenite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,66.31,0.56,16.12,,,,3.93,0.08,0.51,1.11,5.57,5.62,0.13,0.29,100.23, ,21,0, ,5,218,90,100,756,38.9, ,478,80.8,129.8,20.84,92.3,18.74,1.19,20.45,3.17,19.15,27,3.47,9.94,1.36,8.89,1.2,17.8,1.5,9.2,1.6,,, 801,DB-34,Syenite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,63.84,0.88,16.64,,,,3.81,0.07,0.71,1.46,5.83,5.41,0.28,0.4,99.33, ,24,0, ,4,320,32,81,667,39, ,189,102.9,235,31.13,127.8,25.28,0.6,19.29,2.99,16.43,24,2.91,8.81,1.39,9.19,1.4,17.5,2.1,14.4,7.8,,, 802,DB-22,Rhyolite,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,72.39,0.34,12.54,,,,4.4,0.09,0,0.98,3.59,5.72,0.02,0,100.07, ,9,0, ,3,126,51,74,859,29.9, ,61,70.4,155.8,18.43,71.3,14.06,0.58,12.68,2.15,14.12,25,2.77,8.64,1.27,8.56,1.26,22.5,1.6,19.5,5.4,,, 803,DB-21,Basalt,Dashibalbar complex,46.8,107.7,Figure-Polygon,"Dostal et al., (2014)",,"Dostal et al., (2014)",186,1,"Inductively coupled plasma-optical emission spectrometry, IC-PMS",,"Activation Laboratories, Ancaster, Ontario, Canada. ",,50.75,2.03,15.9,,,,11.49,0.2,4.78,7.1,4.53,1.58,0.35,1.69,100.4, ,218,97, ,18,54,476,36,220,12.3, ,437,22.3,53.4,7.18,33,7.21,2.24,7.39,1.19,6.73,20,1.33,3.72,0.55,3.7,0.52,5.7,0.9,3.1,0.7,,, 804,BU-1,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",78.3,0.1,11.22, , , ,1.49,0.02,<0.01,0.18,3.77,4.45,0.01,0.2,99.74, ,8, , ,4,234,4,67,423,19.4,4.4,24,28.9,62.7,7.25,26.3,6.75,0.1,6.76,1.38,9.61,22,2.23,7.17,1.19,7.81,1.21,14.8,1.4,30.5,6.6,,, 805,BU-2,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.83,0.11,11.67, , , ,1.46,<0.01,<0.01,0.17,3.71,4.46,0.01,0.4,99.82, ,8, , ,5,237,4,52,314,22.8,3.7,20,33.7,66.1,7.4,27.3,6.04,0.1,5.44,1.07,7.55,22,1.73,6.1,1.09,7.66,1.13,11.7,1.9,32.4,4.3,,, 806,BU-3,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",78.18,0.09,11.89, , , ,1.22,0.03,<0.01,0.14,3.93,4.53,0.01,0.49,100.52, ,8, , ,3,222,7,57,231,19.4,2.6,20,37.5,95.5,8.94,31.2,7.89,0.07,7.6,1.5,9.42,22,2.13,6.78,1.11,7.68,1.14,9.8,1.6,26.6,4,,, 807,BU-5,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",76.22,0.19,12.66, , , ,1.81,0.03,0.04,0.3,4.21,4.48,0.04,0.2,100.18, ,11, , ,4,186,31,61,296,19.1,2.8,107,46.1,111,11.75,42.6,9.82,0.31,9,1.66,10.41,21,2.31,6.72,1.06,6.93,1.04,10.6,1.3,26.6,3.9,,, 808,BU-6,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.27,0.11,12.66, , , ,1.12,0.01,<0.01,0.14,3.88,4.74,0.02,0.2,100.15, ,8, , ,5,187,10,47,126,14.3,3.5,63,22.5,49.7,5.07,16.2,3.94,0.13,4.34,1.03,7.65,20,1.7,5.34,0.86,5.44,0.78,5.2,1.1,23.7,5.4,,, 809,BU-9,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",76.02,0.17,12.05, , , ,1.76,0.02,<0.01,0.22,3.98,4.59,0.03,0.3,99.14, ,9, , ,4,179,7,47,455,15.9,2.9,54,25,54.1,6.16,23.2,5.27,0.16,5.34,1.02,6.98,21,1.59,5.37,0.91,6.17,0.93,12.1,1.2,23.9,4.2,,, 810,BU-13,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",76.83,0.1,12.38, , , ,1.1,<0.01,<0.01,0.3,3.87,4.64,0.01,0.3,99.54, ,6, , ,5,207,8,47,155,17.7,4.4,44,26.1,56.3,5.35,17.3,4.23,0.1,4.54,0.97,6.97,20,1.62,5.13,0.88,5.85,0.87,7.4,1.5,25.5,3.6,,, 811,BU-14,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",78.42,0.11,12.14, , , ,0.91,<0.01,<0.01,0.09,3.81,4.62,0.03,0.39,100.52, ,8, , ,3,222,12,42,175,17.5,4.9,50,37.3,63.7,6.36,20.9,4.4,0.09,4.3,0.9,6.31,19,1.42,4.66,0.8,5.43,0.82,6.8,1.5,25,4,,, 812,BU-16,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.02,0.15,12.32, , , ,1.33,0.01,<0.01,0.07,4,4.73,0.01,0.37,100.01, ,9, , ,4,154,1,31,257,11.4,2.5,7,8.8,19.6,1.76,7.2,1.39,0.06,1.87,0.51,4.24,21,1.1,3.59,0.58,3.85,0.58,7.2,0.7,14,1.8,,, 813,BU-19,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.35,0.14,11.92, , , ,1.85,0.01,<0.01,0.16,3.98,4.62,0.01,0.42,100.47, ,8, , ,5,174,10,48,349,12,2,69,27.5,55.6,7.11,28.8,7.24,0.19,7.47,1.33,8.27,21,1.75,5.34,0.83,5.36,0.86,10.8,0.9,19.6,2.7,,, 814, BU-20,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.18,0.13,12.07, , , ,1.82,0.01,<0.01,0.1,3.95,4.64,0.02,0.38,100.3, ,8, , ,5,186,10,53,304,14,3.8,64,21.2,43,5.44,20.5,5.12,0.15,5.54,1.17,8.4,21,1.85,5.91,0.83,5.95,0.88,10.6,1.1,21.7,2.8,,, 815,BU-25,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",76.97,0.12,12.52, , , ,1.35,<0.01,<0.01,0.26,3.72,4.69,0.03,0.5,100.16, ,8, , ,4,194,11,52,193,19,2.4,57,41.1,79.8,7.75,27.2,5.39,0.12,5.49,1.13,8.12,21,1.71,5.55,0.95,6.12,0.91,8.3,1.6,28.4,3.4,,, 816,BU-26,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.15,0.14,11.83, , , ,2.02,0.01,<0.01,0.03,3.53,4.62,0.04,0.69,100.06, ,10, , ,4,201,5,71,385,15.3,2.1,53,168,340,36.75,131,23.2,0.32,14.98,2.26,13.04,21,2.5,6.77,1.06,6.76,1.01,12.3,1.2,25.6,3.7,,, 817,BU-31,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.5,0.17,11.74, , , ,2.31,0.03,<0.01,0.23,4.28,4.56,0.01,0,100.83, ,6, , ,4,165,1,50,508,14.1,3.5,7,56.7,116.7,12.99,50.8,10.9,0.24,10.15,1.66,10.3,22,1.99,6.1,0.99,6.45,1.05,13.6,1.1,21.6,3.5,,, 818,BU-34,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",76.2,0.2,12.6, , , ,1.73,0.02,<0.01,0.17,4.34,4.72,0.03,0.3,100.31, ,9, , ,2,154,15,40,432,13.6,2.4,121,53.3,112.7,11.79,44.5,9.01,0.3,8.22,1.3,7.68,20,1.56,4.64,0.71,4.77,0.7,11.9,0.9,18.6,3.4,,, 819,BU-35,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.77,0.14,11.85, , , ,1.58,0.02,<0.01,0.23,4,4.56,0.02,0.3,100.47, ,8, , ,4,172,7,44,271,15.5,2.4,57,30.3,61.6,7.39,27.3,5.91,0.16,5.5,1,6.6,21,1.45,4.65,0.81,5.22,0.79,9.8,1.3,24.3,4.2,,, 820,BU-37,Granite,Bayan Ulaan pluton,47.3,108.3,Figure-Polygon,"Dostal et al., (2015)",,"Yarmolyuk et al., (2002)",221,5,Inductively coupled plasma-optical emission spectrometry and ICPMS,,"Activation Laboratories, Ancaster, Ontario, Canada. ","Location between 108.8-107.8 east and 46.8-47.8 north. Age reference extracted from Dostal et al., (2020)",77.19,0.14,12.08, , , ,1.35,0.02,<0.01,0.1,3.66,5.01,0.01,0,99.56, ,7, , ,4,181,4,27,63,8,2.3,32,29.6,44.8,6.13,21,4.47,0.07,3.88,0.68,4.39,19,0.91,2.74,0.48,2.95,0.44,3,6,21.1,1.7,,, 821,WOL-12,Granite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",191 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,71.99,0.32,13.49,,,,2.4,0.04,0.29,1.22,4.13,4.24,0.09,0.33,98.54,2,10, , , ,155,141,23,345,13.2,7.4,509,45.8,86.6,9.2,32.1,5.64,1.3,4.58,0.65,3.68,22,0.75,2.14,0.31,2.17,0.35,9,1.25,12.7,2.08,,, 822,WOL-12-1,Granite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",192 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,72.86,0.31,13.39,,,,2.34,0.04,0.29,1.25,4.16,4.26,0.09,0.33,99.32,2,12, , , ,149,134,24,305,13.6,7.3,509,54.7,108,11.5,39,6.32,1.28,4.99,0.71,4.09,23,0.78,2.24,0.33,2.2,0.36,8.1,1.29,14.6,2.05,,, 823,WOL-13-1,Aplite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",193 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,75.07,0.17,12.33,,,,2.01,0.02,0.14,0.32,2.64,6.39,0.01,0.46,99.57,1,8, , , ,181,55,28,113,16.3,3.3,203,53,120,12.9,45.5,8.38,0.61,6.47,0.89,4.77,22,0.94,2.75,0.41,2.73,0.43,4.2,1.53,30.2,2.24,,, 824,WOL-14,Aplite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",194 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,71.86,0.25,13.38,,,,2.35,0.05,0.31,1.08,3.62,4.91,0.07,0.66,98.54,3,16, , , ,289,95,51,199,21.3,16.4,378,45.7,96.6,11.3,40.2,9.12,0.85,8.26,1.39,8.44,22,1.64,4.93,0.73,4.98,0.75,6,3.72,31.6,5.25,,, 825,WOL-14-1,Granite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",195 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,72.96,0.28,13.43,,,,2.12,0.05,0.32,1.12,3.62,4.84,0.08,0.59,99.4,3,21, , , ,293,93,53,203,23.2,17.3,371,47.5,105,11.9,42.4,9.44,0.87,9.06,1.5,8.77,22,1.75,5.28,0.79,5.21,0.78,6.2,3.97,33.1,6.17,,, 826,WOL-15,Granite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",196 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,74.36,0.24,12.41,,,,2.05,0.04,0.28,0.93,3.26,4.76,0.07,0.69,99.09,3,12, , , ,286,78,38,223,22.7,8.9,313,48.7,82.7,11.5,40.6,8.32,0.68,6.75,1.06,6.24,21,1.22,3.58,0.52,3.52,0.54,6.8,3.51,33.9,3.72,,, 827,WOL-15-1,Leucogranite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",197 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,73.71,0.21,13.13,,,,2.08,0.04,0.25,0.91,3.53,5.19,0.05,0.68,99.77,3,12, , , ,293,82,35,190,19.2,8.1,345,44.2,71.8,10.5,37,7.58,0.7,6.31,0.99,5.65,21,1.09,3.24,0.51,3.37,0.52,5.9,2.95,29.2,3.53,,, 828,WOL-6,Leucogranite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",198 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,75.27,0.15,12.67,,,,1.64,0.04,0.13,0.73,3.76,4.57,0.03,0.47,99.45,2,9, , , ,267,66,53,170,17.6,8.3,245,41.6,91.3,10.3,36.7,8.23,0.64,7.93,1.33,8.31,20,1.71,5.2,0.79,4.88,0.73,5.1,1.57,33.6,5.33,,, 829,WOL-10,Leucogranite,Tukhum pluton,48.18333333,106.1,Figure-Polygon,"Dostal et al., (2020)",199 ± 2 and 183 ± 2 Ma,"Dostal et al., (2020)",187,6,"Major elements were analyzed by an inductively coupled plasma-optical emission spectrometer, whereas trace elements were determined by an inductively coupled plasma mass spectrometer (ICP-MS; Perkin Elmer Optima 3000). ",Whole rock,"Activation Laboratories Ltd. in Ancaster, ON, Canada ",Age average of two reported ages,74.79,0.16,12.38,,,,1.67,0.04,0.15,0.57,2.92,5.43,0.03,0.89,99.04,2,6, , , ,471,60,57,184,12.2,19.4,260,38.2,88.1,10.3,40.8,8.99,0.63,8.5,1.41,8.94,23,1.81,5.6,0.85,5.73,0.87,5.7,1.66,29.7,5.8,,AI,CCPI