Meijer, Niels; Licht, Alexis; Woutersen, Amber; Hoorn, Carina; Robin-Champigneul, Faez; Rohrmann, Alexander; Tagliavento, Mattia; Brugger, Julia; Kelemen, Fanni D; Schauer, Andrew J; Hren, Michael T; Sun, Aijun; Fiebig, Jens; Mulch, Andreas; Dupont-Nivet, Guillaume (2024): Bulk mineralogy X-Ray Diffraction (XRD) determination of early Eocene strata in the Xining Basin, China [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.962893, In: Meijer, N et al. (2024): Proto-monsoon rainfall and greening in Central Asia due to extreme early Eocene warmth [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.962894
Always quote citation above when using data! You can download the citation in several formats below.
Keyword(s):
Related to:
Meijer, Niels; Dupont-Nivet, Guillaume; Abels, Hemmo A; Kaya, Mustafa Y; Licht, Alexis; Xiao, Meimei; Zhang, Yang; Roperch, Pierrick; Poujol, Marc; Lai, Zhongping; Guo, Zhaojie (2019): Central Asian moisture modulated by proto-Paratethys Sea incursions since the early Eocene. Earth and Planetary Science Letters, 510, 73-84, https://doi.org/10.1016/j.epsl.2018.12.031
Meijer, Niels; Dupont-Nivet, Guillaume; Licht, Alexis; Roperch, Pierrick; Rohrmann, Alexander; Sun, Aijun; Lu, Shengcheng; Woutersen, Amber; Nowaczyk, Norbert R (2023): Early Eocene magnetostratigraphy and tectonic evolution of the Xining Basin, NE Tibet. Basin Research, 35(2), 510-529, https://doi.org/10.1111/bre.12720
Funding:
Coverage:
Median Latitude: 36.522689 * Median Longitude: 102.181433 * South-bound Latitude: 36.430100 * West-bound Longitude: 101.984167 * North-bound Latitude: 36.615278 * East-bound Longitude: 102.378700
Minimum Elevation: 2480.0 m * Maximum Elevation: 2480.0 m
Event(s):
Parameter(s):
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
1950 data points
Data
1 Event | 2 Latitude | 3 Longitude | 4 Instrument | 5 Sect (Sedimentary Section) | 6 Reference | 7 URL ref | 8 Sample ID | 9 Strat height [m] (Section stratigraphic position) | 10 Lithology | 11 Ill/Ms [%] (Relative abundance (bulk mine...) | 12 Ill/Ms [%] (Relative abundance (bulk mine...) | 13 Chl [%] (Relative abundance (bulk mine...) | 14 Anl [%] (Relative abundance (bulk mine...) | 15 Qz [%] (Relative abundance (bulk mine...) | 16 Kfs [%] (Relative abundance (bulk mine...) | 17 Ab [%] (Relative abundance (bulk mine...) | 18 Cal [%] (Relative abundance (bulk mine...) | 19 Mg-Dol [%] (Relative abundance (bulk mine...) | 20 MgCO3 [%] (In Calcian dolomite [mol%], R...) | 21 Chl peak 14Å (X-ray diffraction (XRD)) | 22 Chl I 14Å [cps] (X-ray diffraction (XRD)) | 23 Chl peak area 14Å (X-ray diffraction (XRD)) | 24 Chl FWHM 14Å (X-ray diffraction (XRD)) | 25 Ill/Sme peak 10.4Å (X-ray diffraction (XRD)) | 26 Ill/Sme I 10.4Å [cts] (X-ray diffraction (XRD)) | 27 Ill/Sme peak area 10.4Å (X-ray diffraction (XRD)) | 28 Ill/Sme FWHM 10.4Å (X-ray diffraction (XRD)) | 29 Ill-Ms peak 10Å (X-ray diffraction (XRD)) | 30 Ill-Ms I 10Å [cts] (X-ray diffraction (XRD)) | 31 Ill-Ms peak area 10Å (X-ray diffraction (XRD)) | 32 Ill-Ms FWHM 10Å (X-ray diffraction (XRD)) | 33 Chl peak 7.1Å (X-ray diffraction (XRD)) | 34 Chl I 7.1Å [cts] (X-ray diffraction (XRD)) | 35 Chl peak area 7.1Å (X-ray diffraction (XRD)) | 36 Chl FWHM 7.1Å (X-ray diffraction (XRD)) | 37 Qz peak 4.26Å (X-ray diffraction (XRD)) | 38 Qz I 4.26Å [cps] (X-ray diffraction (XRD)) | 39 Qz peak area 4.26Å (X-ray diffraction (XRD)) | 40 Qz FWHM 4.26Å (X-ray diffraction (XRD)) | 41 Chl peak 3.53Å (X-ray diffraction (XRD)) | 42 Chl I 3.53Å [cts] (X-ray diffraction (XRD)) | 43 Chl peak area 3.53Å (X-ray diffraction (XRD)) | 44 Chl FWHM 3.53Å (X-ray diffraction (XRD)) | 45 Qz peak 3.34Å (X-ray diffraction (XRD)) | 46 Qz I 3.34Å [cps] (X-ray diffraction (XRD)) | 47 Qz peak area 3.34Å (X-ray diffraction (XRD)) | 48 Qz FWHM 3.34Å (X-ray diffraction (XRD)) | 49 Anl peak 3.43Å (X-ray diffraction (XRD)) | 50 Anl I 3.43Å [cts] (X-ray diffraction (XRD)) | 51 Anl peak area 3.43Å (X-ray diffraction (XRD)) | 52 Anl FWHM 3.43Å (X-ray diffraction (XRD)) | 53 Kfs peak 3.25Å (X-ray diffraction (XRD)) | 54 Kfs I 3.25Å [cts] (X-ray diffraction (XRD)) | 55 Kfs peak area 3.25Å (X-ray diffraction (XRD)) | 56 Kfs FWHM 3.25Å (X-ray diffraction (XRD)) | 57 Ab peak 3.2Å (X-ray diffraction (XRD)) | 58 Ab I 3.2Å [cts] (X-ray diffraction (XRD)) | 59 Ab peak area 3.2Å (X-ray diffraction (XRD)) | 60 Ab FWHM 3.2Å (X-ray diffraction (XRD)) | 61 Cal peak 3.04Å (X-ray diffraction (XRD)) | 62 Cal I 3.04Å [cts] (X-ray diffraction (XRD)) | 63 Cal peak area 3.04Å (X-ray diffraction (XRD)) | 64 Cal FWHM 3.04Å (X-ray diffraction (XRD)) | 65 Dol peak 2.91Å (X-ray diffraction (XRD)) | 66 Dol I 2.91Å [cts] (X-ray diffraction (XRD)) | 67 Dol peak area 2.91Å (X-ray diffraction (XRD)) | 68 Dol FWHM 2.91Å (X-ray diffraction (XRD)) |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj L14 | 14.00 | Mudrock | 9.761547808 | 9.400409403 | 3.112966549 | 31.927541900 | 25.444441760 | 3.817967703 | 8.491269618 | 8.043855258 | 0.000000000 | 0 | 0 | 10.516 | 128 | 15838 | 0.879 | 10.026 | 141 | 5661 | 0.237 | 7.136 | 155 | 4542 | 0.201 | 4.260 | 1380 | 30513 | 0.126 | 3.525 | 233 | 8958 | 0.304 | 3.343 | 7941 | 163727 | 0.135 | 3.435 | 3969 | 84186 | 0.148 | 3.257 | 254.000 | 7081.00 | 0.211 | 3.194 | 612.000 | 22942.0 | 0.240 | 3.039 | 3052.00 | 87517.0 | 0.180 | 0 | 0 | |||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 54 | 73.50 | Mudrock | 4.478830754 | 6.343056879 | 4.222617255 | 17.763484660 | 12.236246570 | 2.930842989 | 4.286105815 | 0.000000000 | 47.738815080 | 44 | 14.112 | 64 | 783 | 0.102 | 10.443 | 50 | 3226 | 0.494 | 10.002 | 81 | 2964 | 0.285 | 7.074 | 179 | 5331 | 0.140 | 4.260 | 565 | 11489 | 0.132 | 3.531 | 193 | 5917 | 0.149 | 3.343 | 3385 | 72108 | 0.134 | 3.433 | 1880 | 38259 | 0.141 | 3.245 | 166.000 | 2917.00 | 0.133 | 3.197 | 263.000 | 11542.0 | 0.269 | 0.00 | 0.0 | 2.904 | 12682 | 435217 | 0.205 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 60 | 79.50 | Mudrock | 9.269074648 | 6.988060801 | 3.336800100 | 36.345863150 | 19.552195160 | 5.145624314 | 6.776360233 | 0.000000000 | 12.586021590 | 46 | 14.226 | 86 | 532 | 0.110 | 10.034 | 109 | 6999 | 0.503 | 10.600 | 94 | 6891 | 0.599 | 7.098 | 149 | 7782 | 0.213 | 4.260 | 951 | 19881 | 0.115 | 3.547 | 141 | 7280 | 0.181 | 3.343 | 5248 | 115237 | 0.134 | 3.432 | 4052 | 88740 | 0.151 | 3.240 | 307.000 | 7878.00 | 0.113 | 3.201 | 438.000 | 14858.0 | 0.246 | 0.00 | 0.0 | 2.896 | 3522 | 111059 | 0.220 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 79 | 98.50 | Mudrock | 5.501453522 | 7.982713259 | 3.883408722 | 14.836554750 | 28.960413110 | 4.672742116 | 12.960084890 | 0.000000000 | 21.202629640 | 44 | 14.245 | 84 | 1292 | 0.098 | 10.408 | 97 | 6244 | 0.467 | 10.006 | 161 | 5324 | 0.217 | 7.069 | 260 | 7620 | 0.075 | 4.260 | 2112 | 35781 | 0.096 | 3.537 | 261 | 6061 | 0.172 | 3.343 | 12111 | 213613 | 0.111 | 3.432 | 2480 | 47660 | 0.129 | 3.251 | 418.000 | 8887.00 | 0.179 | 3.197 | 1256.000 | 35932.0 | 0.133 | 0.00 | 0.0 | 2.903 | 8896 | 272491 | 0.197 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 88.25 | 107.75 | Mudrock | 7.425328667 | 10.548433920 | 4.359054125 | 33.834062910 | 24.684452810 | 3.933271924 | 8.175852989 | 1.117356429 | 5.922186230 | 44 | 14.188 | 83 | 967 | 0.074 | 10.435 | 96 | 10226 | 0.776 | 10.024 | 156 | 5664 | 0.220 | 7.145 | 214 | 7039 | 0.228 | 4.260 | 1320 | 29064 | 0.139 | 3.523 | 232 | 6580 | 0.236 | 3.343 | 8301 | 179054 | 0.138 | 3.431 | 4147 | 90325 | 0.156 | 3.254 | 258.000 | 4623.00 | 0.083 | 3.191 | 581.000 | 25310.0 | 0.303 | 3.036 | 418.00 | 9526.0 | 0.170 | 2.903 | 1822 | 58010 | 0.197 |
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 92 | 111.50 | Mudrock | 7.532745073 | 9.104822711 | 4.232135856 | 21.439412180 | 31.593915660 | 6.636340245 | 9.715558834 | 3.001175160 | 6.743894274 | 44 | 14.265 | 97 | 1608 | 0.090 | 10.427 | 115 | 7123 | 0.451 | 10.032 | 159 | 7240 | 0.315 | 7.098 | 245 | 7920 | 0.121 | 4.260 | 1995 | 40177 | 0.122 | 3.533 | 200 | 3998 | 0.076 | 3.343 | 11555 | 227759 | 0.129 | 3.433 | 3103 | 65651 | 0.142 | 3.250 | 514.024 | 12170.60 | 0.195 | 3.199 | 815.267 | 32714.8 | 0.319 | 3.037 | 1325.76 | 26525.0 | 0.148 | 2.904 | 2450 | 71487 | 0.200 |
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 101 | 120.50 | Mudrock | 13.161579730 | 13.102286200 | 3.606354880 | 25.711658550 | 23.415069140 | 4.183655704 | 9.661172388 | 0.000000000 | 7.158223408 | 44 | 14.131 | 64 | 1156 | 0.101 | 10.319 | 173 | 6672 | 0.107 | 10.026 | 197 | 6824 | 0.165 | 7.093 | 180 | 6657 | 0.269 | 4.260 | 1273 | 30810 | 0.143 | 3.533 | 241 | 13286 | 0.208 | 3.343 | 7385 | 174516 | 0.156 | 3.433 | 3204 | 71752 | 0.155 | 3.249 | 279.000 | 6445.00 | 0.195 | 3.198 | 698.000 | 25590.0 | 0.257 | 0.00 | 0.0 | 2.902 | 2239 | 75602 | 0.204 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 111.75 | 131.25 | Mudrock | 8.656832499 | 9.231819154 | 3.023538813 | 25.243955460 | 29.969627530 | 8.591877337 | 8.623224543 | 0.000000000 | 6.659124665 | 44 | 14.245 | 99 | 1462 | 0.029 | 10.380 | 141 | 10670 | 0.513 | 9.990 | 172 | 5409 | 0.206 | 7.098 | 187 | 8150 | 0.322 | 4.260 | 2019 | 41309 | 0.129 | 3.521 | 215 | 13490 | 0.399 | 3.343 | 12820 | 256789 | 0.134 | 3.432 | 3898 | 81244 | 0.139 | 3.245 | 710.000 | 15717.00 | 0.178 | 3.199 | 772.000 | 35745.0 | 0.358 | 0.00 | 0.0 | 2.902 | 2581 | 80388 | 0.197 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 134.5 | 154.00 | Mudrock | 18.198824870 | 10.886693010 | 3.740023654 | 28.117952620 | 22.013646840 | 4.705261874 | 7.361604850 | 3.419881578 | 1.556110701 | 44 | 14.342 | 86 | 1598 | 0.116 | 10.422 | 235 | 18745 | 0.509 | 10.055 | 161 | 6263 | 0.301 | 7.093 | 183 | 9567 | 0.175 | 4.260 | 1175 | 24636 | 0.116 | 3.532 | 233 | 6816 | 0.168 | 3.343 | 7221 | 145671 | 0.134 | 3.433 | 3441 | 69600 | 0.139 | 3.244 | 308.156 | 8204.77 | 0.262 | 3.197 | 522.320 | 20633.8 | 0.324 | 3.039 | 1277.37 | 26845.9 | 0.144 | 2.904 | 478 | 11924 | 0.184 |
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 153 | 172.50 | Mudrock | 9.288937098 | 10.827387950 | 4.212978574 | 17.718223610 | 33.375088650 | 6.102876548 | 11.469876290 | 0.000000000 | 7.004631264 | 44 | 14.459 | 79 | 1029 | 0.094 | 10.350 | 108 | 7987 | 0.510 | 9.970 | 144 | 6415 | 0.281 | 7.121 | 186 | 7132 | 0.152 | 4.260 | 1605 | 38872 | 0.142 | 3.524 | 175 | 6965 | 0.314 | 3.343 | 9355 | 229601 | 0.160 | 3.429 | 1953 | 53332 | 0.192 | 3.246 | 360.000 | 9060.00 | 0.238 | 3.197 | 733.000 | 26615.0 | 0.261 | 0.00 | 0.0 | 2.902 | 1938 | 63650 | 0.198 | ||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 159 | 178.50 | Mudrock | 9.269571538 | 11.787070950 | 4.815714689 | 31.297429440 | 25.426506000 | 0.000000000 | 8.079604146 | 0.000000000 | 9.324103238 | 44 | 14.342 | 85 | 1587 | 0.151 | 10.469 | 110 | 6666 | 0.517 | 10.071 | 160 | 8543 | 0.416 | 7.117 | 217 | 8120 | 0.315 | 4.260 | 1248 | 26052 | 0.123 | 3.546 | 279 | 10936 | 0.089 | 3.343 | 7463 | 166806 | 0.142 | 3.432 | 3521 | 76834 | 0.149 | 0.000 | 0.00 | 3.195 | 527.000 | 26938.0 | 0.331 | 0.00 | 0.0 | 2.904 | 2633 | 77781 | 0.182 | ||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 168 | 187.50 | Mudrock | 10.813443090 | 11.291428620 | 3.970994222 | 17.812628410 | 23.384198810 | 4.392939490 | 12.962497210 | 0.000000000 | 15.371870140 | 45 | 14.112 | 92 | 1918 | 0.139 | 10.285 | 180 | 11418 | 0.418 | 9.967 | 215 | 5908 | 0.164 | 7.088 | 251 | 11156 | 0.182 | 4.260 | 1610 | 29228 | 0.120 | 3.524 | 194 | 4646 | 0.131 | 3.343 | 11103 | 210377 | 0.124 | 3.431 | 2811 | 55369 | 0.138 | 3.244 | 371.000 | 8482.00 | 0.246 | 3.195 | 1186.000 | 41044.0 | 0.198 | 0.00 | 0.0 | 2.900 | 6089 | 177521 | 0.189 | ||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -82 | -82.00 | Mudrock | 3.842182320 | 12.021321730 | 5.041450337 | 8.368646920 | 24.070700750 | 16.899740760 | 15.599214060 | 14.156743130 | 0.000000000 | 14.226 | 121 | 1375 | 0.087 | 10.675 | 57 | 2139 | 0.227 | 10.093 | 204 | 17478 | 0.576 | 7.131 | 284 | 11227 | 0.155 | 4.260 | 1477 | 28886 | 0.113 | 3.529 | 228 | 12199 | 0.210 | 3.343 | 8505 | 167195 | 0.128 | 0 | 0 | 3.246 | 1177.000 | 19570.00 | 0.124 | 3.196 | 1272.000 | 40696.0 | 0.192 | 3.037 | 6077.00 | 116260.0 | 0.139 | 0 | 0 | |||||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -56 | -56.00 | Mudrock | 5.313021310 | 8.472332044 | 1.891492823 | 4.498964522 | 40.795949650 | 24.202052630 | 10.310572350 | 4.515614667 | 0.000000000 | 14.265 | 93 | 1369 | 0.096 | 10.860 | 108 | 12541 | 0.851 | 10.082 | 197 | 17450 | 0.631 | 7.126 | 146 | 7269 | 0.311 | 4.259 | 3430 | 59880 | 0.111 | 3.521 | 151 | 3623 | 0.153 | 3.343 | 19502 | 322348 | 0.106 | 3.429 | 867 | 15419 | 0.125 | 3.252 | 2496.000 | 40588.00 | 0.128 | 3.197 | 1152.000 | 28056.0 | 0.185 | 3.039 | 2656.00 | 50832.0 | 0.143 | 0 | 0 | |||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -52 | -52.00 | Mudrock | 5.171370519 | 7.329332716 | 2.744399935 | 5.739970209 | 42.339368090 | 12.833720040 | 16.856808840 | 6.985029649 | 0.000000000 | 0 | 0 | 11.011 | 132 | 12912 | 0.699 | 10.083 | 214 | 22978 | 0.869 | 7.055 | 266 | 10159 | 0.169 | 4.260 | 4470 | 82374 | 0.124 | 3.529 | 199 | 3745 | 0.163 | 3.343 | 35793 | 610964 | 0.115 | 3.429 | 1389 | 29911 | 0.124 | 3.240 | 1662.000 | 36043.00 | 0.144 | 3.189 | 2365.000 | 85500.0 | 0.285 | 3.036 | 5159.00 | 104760.0 | 0.144 | 0 | 0 | |||||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -48 | -48.00 | Mudrock | 8.460906538 | 12.485567290 | 4.385064961 | 15.143394000 | 31.993280320 | 6.217025075 | 15.504048120 | 5.810713705 | 0.000000000 | 14.342 | 92 | 1972 | 0.108 | 10.815 | 125 | 14227 | 0.813 | 10.080 | 211 | 14967 | 0.501 | 7.131 | 246 | 9812 | 0.203 | 4.260 | 1955 | 35273 | 0.103 | 3.522 | 260 | 11739 | 0.256 | 3.343 | 10579 | 193773 | 0.118 | 3.429 | 2121 | 39826 | 0.133 | 3.245 | 466.000 | 12158.00 | 0.232 | 3.196 | 1259.000 | 40891.0 | 0.187 | 3.036 | 2484.00 | 49629.0 | 0.151 | 0 | 0 | |||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -44 | -44.00 | Mudrock | 7.592696294 | 14.934733810 | 5.716075933 | 22.677313160 | 30.229151610 | 5.286659990 | 8.828725623 | 4.734643580 | 0.000000000 | 14.188 | 106 | 2351 | 0.120 | 11.169 | 92 | 7846 | 0.721 | 10.049 | 207 | 17429 | 0.616 | 7.112 | 263 | 9334 | 0.147 | 4.260 | 1515 | 29113 | 0.109 | 3.523 | 300 | 12350 | 0.177 | 3.343 | 9195 | 164964 | 0.124 | 3.432 | 2605 | 49594 | 0.137 | 3.246 | 325.000 | 7590.00 | 0.166 | 3.197 | 588.000 | 20999.0 | 0.268 | 3.038 | 1660.00 | 32380.0 | 0.133 | 0 | 0 | |||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -26 | -26.00 | Mudrock | 7.333211117 | 7.609356630 | 1.922807796 | 5.744204424 | 43.059839660 | 12.819950170 | 18.997224250 | 2.513405953 | 0.000000000 | 14.226 | 129 | 1703 | 0.105 | 10.468 | 230 | 21303 | 0.634 | 9.978 | 273 | 6565 | 0.154 | 7.074 | 229 | 9376 | 0.098 | 4.260 | 5586 | 84484 | 0.093 | 0 | 0 | 3.343 | 21781 | 372222 | 0.120 | 3.431 | 1708 | 30635 | 0.128 | 3.249 | 2040.000 | 29482.00 | 0.086 | 3.190 | 3275.000 | 68627.0 | 0.094 | 3.037 | 2281.00 | 46232.0 | 0.139 | 0 | 0 | |||||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -16 | -16.00 | Mudrock | 11.491296030 | 13.880184270 | 5.151534586 | 7.716838946 | 33.975460650 | 4.789247750 | 11.490599990 | 11.504837780 | 0.000000000 | 14.150 | 122 | 2620 | 0.129 | 11.455 | 131 | 22576 | 1.292 | 10.153 | 181 | 15456 | 0.546 | 7.079 | 223 | 8929 | 0.094 | 4.260 | 1602 | 31358 | 0.103 | 3.521 | 271 | 9260 | 0.182 | 3.343 | 9880 | 166825 | 0.117 | 3.431 | 834 | 15680 | 0.126 | 3.252 | 277.000 | 7102.00 | 0.240 | 3.197 | 720.000 | 28448.0 | 0.285 | 3.037 | 3795.00 | 93805.0 | 0.156 | 0 | 0 | |||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld -8 | -8.00 | Mudrock | 15.431124020 | 16.441109810 | 6.730657519 | 8.067267074 | 28.960382900 | 6.006956393 | 8.439858165 | 9.922644123 | 0.000000000 | 14.075 | 136 | 5092 | 0.285 | 12.073 | 160 | 31442 | 1.662 | 10.072 | 195 | 16236 | 0.471 | 7.165 | 265 | 9133 | 0.139 | 4.260 | 1242 | 24609 | 0.105 | 3.528 | 209 | 10384 | 0.360 | 3.343 | 6735 | 119269 | 0.117 | 3.433 | 793 | 13732 | 0.121 | 3.244 | 316.000 | 7042.00 | 0.184 | 3.191 | 481.000 | 19261.0 | 0.268 | 3.037 | 2977.00 | 74655.0 | 0.154 | 0 | 0 | |||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld +2 | 2.00 | Mudrock | 9.008454387 | 7.312814215 | 3.202713512 | 0.000000000 | 41.895147750 | 22.156694560 | 9.552672742 | 6.871502829 | 0.000000000 | 14.207 | 91 | 2761 | 0.153 | 11.934 | 140 | 18841 | 0.918 | 10.141 | 130 | 14708 | 0.762 | 7.145 | 189 | 9171 | 0.227 | 4.260 | 2693 | 52827 | 0.117 | 0 | 0 | 3.343 | 18002 | 313146 | 0.115 | 0 | 0 | 3.250 | 1747.000 | 26325.00 | 0.091 | 3.201 | 816.000 | 32889.0 | 0.253 | 3.035 | 3090.00 | 89890.0 | 0.190 | 0 | 0 | |||||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 28 | 47.50 | Mudrock | 7.454475873 | 10.520017360 | 2.664260699 | 48.043428510 | 18.692217200 | 4.218955537 | 4.998633233 | 3.408011582 | 0.000000000 | 14.265 | 27 | 655 | 0.209 | 11.068 | 70 | 8947 | 0.975 | 10.120 | 113 | 10925 | 0.571 | 7.102 | 95 | 9055 | 0.335 | 4.260 | 726 | 19219 | 0.156 | 3.521 | 160 | 7848 | 0.430 | 3.343 | 4999 | 102960 | 0.134 | 3.432 | 4277 | 93306 | 0.155 | 3.247 | 201.000 | 6891.00 | 0.354 | 3.201 | 258.000 | 12662.0 | 0.411 | 3.036 | 926.00 | 22768.0 | 0.176 | 0 | 0 | |||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 16Cj 237.5 | 237.50 | Mudrock | 10.350724910 | 13.504608580 | 4.212704943 | 12.812206260 | 33.196179630 | 5.517659153 | 12.654149120 | 7.165216015 | 0.586551401 | 45 | 14.361 | 108 | 2209 | 0.090 | 10.404 | 132 | 12384 | 0.769 | 10.045 | 197 | 12144 | 0.428 | 7.141 | 204 | 9281 | 0.229 | 4.260 | 1751 | 37800 | 0.108 | 3.524 | 269 | 13167 | 0.283 | 3.343 | 10344 | 202461 | 0.127 | 3.431 | 1549 | 31676 | 0.145 | 3.251 | 357.000 | 8968.00 | 0.213 | 3.196 | 887.000 | 31870.0 | 0.244 | 3.037 | 2644.00 | 55422.0 | 0.148 | 2.900 | 178 | 6069 | 0.275 |
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 16Cj 247 | 247.00 | Mudrock | 5.074754078 | 8.912834146 | 3.407316667 | 9.133719407 | 44.070033720 | 4.541636552 | 15.853582300 | 9.006123126 | 0.000000000 | 14.188 | 123 | 1997 | 0.046 | 10.597 | 111 | 13448 | 0.870 | 10.027 | 223 | 11518 | 0.349 | 7.074 | 283 | 14450 | 0.200 | 4.260 | 3987 | 65284 | 0.104 | 3.540 | 255 | 9270 | 0.135 | 3.343 | 22714 | 394872 | 0.119 | 3.432 | 1894 | 36884 | 0.135 | 3.249 | 504.000 | 12185.00 | 0.224 | 3.196 | 1906.000 | 68904.0 | 0.187 | 3.038 | 5700.00 | 118132.0 | 0.150 | 0 | 0 | |||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 184 | 203.50 | Mudrock | 11.594675970 | 6.984127371 | 5.399416204 | 21.477460270 | 30.579489670 | 6.340390145 | 11.511987150 | 2.003547404 | 4.108905822 | 44 | 14.284 | 79 | 1649 | 0.152 | 10.325 | 164 | 19651 | 0.846 | 10.050 | 113 | 4643 | 0.237 | 7.074 | 290 | 9444 | 0.186 | 4.259 | 1789 | 38307 | 0.117 | 3.531 | 254 | 7933 | 0.308 | 3.343 | 11219 | 220645 | 0.127 | 3.431 | 2880 | 59468 | 0.150 | 3.248 | 455.000 | 9350.00 | 0.181 | 3.197 | 895.000 | 33804.0 | 0.286 | 3.038 | 820.00 | 15920.0 | 0.139 | 2.903 | 1383 | 39198 | 0.199 |
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | 15Cj 223.5 | 243.00 | Mudrock | 12.408001840 | 9.650887451 | 4.493022436 | 23.962821720 | 20.933135190 | 4.118018003 | 8.315974706 | 0.000000000 | 16.118138650 | 46 | 14.284 | 104 | 1376 | 0.068 | 10.362 | 136 | 13638 | 0.723 | 10.027 | 121 | 4918 | 0.246 | 7.117 | 187 | 11532 | 0.275 | 4.260 | 949 | 19567 | 0.106 | 3.522 | 264 | 6969 | 0.217 | 3.343 | 5489 | 119787 | 0.137 | 3.433 | 2490 | 50997 | 0.143 | 3.248 | 229.000 | 5669.00 | 0.210 | 3.199 | 501.000 | 25696.0 | 0.356 | 0.00 | 0.0 | 2.897 | 4204 | 133931 | 0.219 | ||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld +14.8 | 14.80 | Mudrock | 10.631411590 | 10.150194670 | 3.794447987 | 14.187383120 | 32.163476240 | 4.480438522 | 12.126982130 | 12.465665740 | 0.000000000 | 14.342 | 112 | 2211 | 0.162 | 10.484 | 152 | 18590 | 0.827 | 10.055 | 166 | 10205 | 0.386 | 7.117 | 206 | 7244 | 0.152 | 4.260 | 1902 | 37054 | 0.111 | 3.526 | 227 | 8937 | 0.146 | 3.343 | 11356 | 200112 | 0.118 | 3.433 | 1923 | 34402 | 0.127 | 3.252 | 325.000 | 6865.00 | 0.226 | 3.197 | 953.000 | 36384.0 | 0.265 | 3.036 | 5157.00 | 99648.0 | 0.140 | 0 | 0 | |||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | CjC 1 | 11.00 | Carbonate | 0.000000000 | 0.000000000 | 0.000000000 | 13.406821660 | 10.264281740 | 2.117786129 | 2.622307442 | 1.095884533 | 70.492918500 | 44 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 4.248 | 162 | 2440 | 0.093 | 0 | 0 | 3.343 | 610 | 11862 | 0.125 | 3.422 | 485 | 9352 | 0.117 | 3.240 | 41.000 | 666.00 | 0.176 | 3.203 | 55.000 | 1870.0 | 0.249 | 3.033 | 121.00 | 2075.0 | 0.134 | 2.904 | 6401 | 424911 | 0.404 | ||||||||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | CjC 3 | 11.50 | Carbonate | 0.000000000 | 0.000000000 | 0.000000000 | 12.433319190 | 9.746364412 | 1.440432533 | 1.844260899 | 1.939051614 | 72.596571350 | 44 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 4.255 | 171 | 4202 | 0.126 | 0 | 0 | 3.343 | 857 | 17334 | 0.132 | 3.424 | 500 | 10846 | 0.153 | 3.242 | 31.000 | 1584.00 | 0.235 | 3.195 | 43.000 | 1584.0 | 0.235 | 3.036 | 238.00 | 20667.0 | 0.642 | 2.904 | 7328 | 482079 | 0.392 | ||||||||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | CjC 9 | 1.50 | Carbonate | 0.000000000 | 0.000000000 | 0.000000000 | 4.382228017 | 8.105142640 | 0.000000000 | 2.207661264 | 0.000000000 | 85.304968080 | 47 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 4.250 | 163 | 2584 | 0.113 | 0 | 0 | 3.343 | 601 | 10133 | 0.121 | 3.426 | 202 | 3687 | 0.172 | 0.000 | 0.00 | 3.204 | 59.000 | 2022.0 | 0.210 | 0.00 | 0.0 | 2.895 | 9870 | 579224 | 0.384 | ||||||||||||||
Xining_Basin_Caijia | 36.6153 | 101.9842 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Caijia | Meijer et al. (2019) | https://doi.org/10.1016/j.epsl.2018.12.031 | CjC 12 | 41.25 | Carbonate | 0.000000000 | 8.061765620 | 0.000000000 | 7.875876989 | 16.493842480 | 3.146617642 | 4.997128777 | 0.000000000 | 59.424768490 | 46 | 0 | 0 | 0 | 0 | 9.970 | 93 | 5384 | 0.376 | 0 | 0 | 4.253 | 688 | 13829 | 0.119 | 0 | 0 | 3.343 | 3528 | 85533 | 0.158 | 3.427 | 753 | 17739 | 0.160 | 3.255 | 161.000 | 2105.00 | 0.124 | 3.207 | 277.000 | 8929.0 | 0.213 | 0.00 | 0.0 | 2.897 | 14261 | 551466 | 0.242 | ||||||||||
Xining_Basin_Ledu | 36.4301 | 102.3787 | PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University Frankfurt | Ledu | Meijer et al. (2023) | https://doi.org/10.1111/bre.12720 | 18Ld 24.4 | 24.40 | Carbonate | 0.000000000 | 15.615162430 | 0.000000000 | 8.674696145 | 9.806588495 | 0.000000000 | 0.000000000 | 65.903552930 | 0.000000000 | 0 | 0 | 0 | 0 | 10.093 | 96 | 4066 | 0.187 | 0 | 0 | 4.252 | 218 | 4237 | 0.045 | 0 | 0 | 3.343 | 891 | 17543 | 0.123 | 3.431 | 442 | 8969 | 0.127 | 0.000 | 0.00 | 0.000 | 0.0 | 3.032 | 10249.00 | 499075.0 | 0.308 | 0 | 0 |