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Data Publisher for Earth & Environmental Science

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.

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Keyword(s):
Bulk organic geochemistry; Clumped isotope thermometry; palynology; pedogenic carbonate; Plant wax; stable isotope geochemistry; XRD
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:
European Research Council (ERC), grant/award no. 649081: MAGIC
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):
Xining_Basin_Caijia  * Latitude: 36.615278 * Longitude: 101.984167 * Elevation: 2480.0 m * Location: China * Method/Device: Outcrop sample (OUTCROP)
Xining_Basin_Ledu  * Latitude: 36.430100 * Longitude: 102.378700 * Location: China * Method/Device: Outcrop sample (OUTCROP)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventMeijer, Niels
Latitude of eventLatitudeMeijer, Niels
Longitude of eventLongitudeMeijer, Niels
InstrumentInstrumentMeijer, Niels
SectionSectMeijer, NielsSedimentary Section
Reference/sourceReferenceMeijer, Niels
Uniform resource locator/link to referenceURL refMeijer, Niels
Sample IDSample IDMeijer, Niels
Stratigraphic heightStrat heightmMeijer, NielsSection stratigraphic position
10 Lithology/composition/faciesLithologyMeijer, Niels
11 Mixed layer illite/muscoviteIll/Ms%Meijer, NielsRelative abundance (bulk minerals)
12 Illite/muscoviteIll/Ms%Meijer, NielsRelative abundance (bulk minerals)
13 ChloriteChl%Meijer, NielsRelative abundance (bulk minerals)
14 AnalcimeAnl%Meijer, NielsRelative abundance (bulk minerals)
15 QuartzQz%Meijer, NielsRelative abundance (bulk minerals)
16 KalifeldsparKfs%Meijer, NielsRelative abundance (bulk minerals)
17 AlbiteAb%Meijer, NielsRelative abundance (bulk minerals)
18 CalciteCal%Meijer, NielsRelative abundance (bulk minerals)
19 Magnesium-DolomiteMg-Dol%Meijer, NielsRelative abundance (bulk minerals)
20 Magnesium carbonateMgCO3%Meijer, NielsRelative abundance (bulk minerals)In Calcian dolomite [mol%]
21 Chlorite (Peak 14Å)Chl peak 14ÅMeijer, NielsX-ray diffraction (XRD)
22 Chlorite (Intensity, 14Å)Chl I 14ÅcpsMeijer, NielsX-ray diffraction (XRD)
23 Chlorite (Peak Area 14Å)Chl peak area 14ÅMeijer, NielsX-ray diffraction (XRD)
24 Chlorite, full width at half maximum, 14ÅChl FWHM 14ÅMeijer, NielsX-ray diffraction (XRD)
25 Mixed layer illite/smectite (Peak 10.4Å)Ill/Sme peak 10.4ÅMeijer, NielsX-ray diffraction (XRD)
26 Mixed layer illite/smectite (Intensity, 10.4Å)Ill/Sme I 10.4ÅctsMeijer, NielsX-ray diffraction (XRD)
27 Mixed layer illite/smectite (Peak Area 10.4Å)Ill/Sme peak area 10.4ÅMeijer, NielsX-ray diffraction (XRD)
28 Mixed layer illite/smectite, full width at half maximum, 10.4ÅIll/Sme FWHM 10.4ÅMeijer, NielsX-ray diffraction (XRD)
29 Illite-Muscovite (Peak 10Å)Ill-Ms peak 10ÅMeijer, NielsX-ray diffraction (XRD)
30 Illite-Muscovite (Intensity, 10Å)Ill-Ms I 10ÅctsMeijer, NielsX-ray diffraction (XRD)
31 Illite-Muscovite (Peak Area 10Å)Ill-Ms peak area 10ÅMeijer, NielsX-ray diffraction (XRD)
32 Illite-Muscovite, full width at half maximum, 10ÅIll-Ms FWHM 10ÅMeijer, NielsX-ray diffraction (XRD)
33 Chlorite (Peak 7.1Å)Chl peak 7.1ÅMeijer, NielsX-ray diffraction (XRD)
34 Chlorite (Intensity, 7.1Å)Chl I 7.1ÅctsMeijer, NielsX-ray diffraction (XRD)
35 Chlorite (Peak Area 7.1Å)Chl peak area 7.1ÅMeijer, NielsX-ray diffraction (XRD)
36 Chlorite, full width at half maximum, 7.1ÅChl FWHM 7.1ÅMeijer, NielsX-ray diffraction (XRD)
37 Quartz (Peak 4.26Å)Qz peak 4.26ÅMeijer, NielsX-ray diffraction (XRD)
38 Quartz (Intensity, 4.26Å)Qz I 4.26ÅcpsMeijer, NielsX-ray diffraction (XRD)
39 Quartz (Peak Area 4.26Å)Qz peak area 4.26ÅMeijer, NielsX-ray diffraction (XRD)
40 Quartz, full width at half maximum, 4.26ÅQz FWHM 4.26ÅMeijer, NielsX-ray diffraction (XRD)
41 Chlorite (Peak 3.53Å)Chl peak 3.53ÅMeijer, NielsX-ray diffraction (XRD)
42 Chlorite (Intensity, 3.53Å)Chl I 3.53ÅctsMeijer, NielsX-ray diffraction (XRD)
43 Chlorite (Peak Area 3.53Å)Chl peak area 3.53ÅMeijer, NielsX-ray diffraction (XRD)
44 Chlorite, full width at half maximum, 3.53ÅChl FWHM 3.53ÅMeijer, NielsX-ray diffraction (XRD)
45 Quartz (Peak 3.34Å)Qz peak 3.34ÅMeijer, NielsX-ray diffraction (XRD)
46 Quartz (Intensity, 3.34Å)Qz I 3.34ÅcpsMeijer, NielsX-ray diffraction (XRD)
47 Quartz (Peak Area 3.34Å)Qz peak area 3.34ÅMeijer, NielsX-ray diffraction (XRD)
48 Quartz, full width at half maximum, 3.34ÅQz FWHM 3.34ÅMeijer, NielsX-ray diffraction (XRD)
49 Analcime (Peak 3.43Å)Anl peak 3.43ÅMeijer, NielsX-ray diffraction (XRD)
50 Analcime (Intensity, 3.43Å)Anl I 3.43ÅctsMeijer, NielsX-ray diffraction (XRD)
51 Analcime (Peak Area 3.43Å)Anl peak area 3.43ÅMeijer, NielsX-ray diffraction (XRD)
52 Analcime, full width at half maximum, 3.43ÅAnl FWHM 3.43ÅMeijer, NielsX-ray diffraction (XRD)
53 Kalifeldspar (Peak 3.25Å)Kfs peak 3.25ÅMeijer, NielsX-ray diffraction (XRD)
54 Kalifeldspar (Intensity, 3.25Å)Kfs I 3.25ÅctsMeijer, NielsX-ray diffraction (XRD)
55 Kalifeldspar (Peak Area 3.25Å)Kfs peak area 3.25ÅMeijer, NielsX-ray diffraction (XRD)
56 Kalifeldspar, full width at half maximum, 3.25ÅKfs FWHM 3.25ÅMeijer, NielsX-ray diffraction (XRD)
57 Albite (Peak 3.2Å)Ab peak 3.2ÅMeijer, NielsX-ray diffraction (XRD)
58 Albite (Intensity, 3.2Å)Ab I 3.2ÅctsMeijer, NielsX-ray diffraction (XRD)
59 Albite (Peak Area 3.2Å)Ab peak area 3.2ÅMeijer, NielsX-ray diffraction (XRD)
60 Albite, full width at half maximum, 3.2ÅAb FWHM 3.2ÅMeijer, NielsX-ray diffraction (XRD)
61 Calcite (Peak 3.04Å)Cal peak 3.04ÅMeijer, NielsX-ray diffraction (XRD)
62 Calcite (Intensity, 3.04Å)Cal I 3.04ÅctsMeijer, NielsX-ray diffraction (XRD)
63 Calcite (Peak Area 3.04Å)Cal peak area 3.04ÅMeijer, NielsX-ray diffraction (XRD)
64 Calcite, full width at half maximum, 3.04ÅCal FWHM 3.04ÅMeijer, NielsX-ray diffraction (XRD)
65 Dolomite (Peak 2.91Å)Dol peak 2.91ÅMeijer, NielsX-ray diffraction (XRD)
66 Dolomite (Intensity, 2.91Å)Dol I 2.91ÅctsMeijer, NielsX-ray diffraction (XRD)
67 Dolomite (Peak Area 2.91Å)Dol peak area 2.91ÅMeijer, NielsX-ray diffraction (XRD)
68 Dolomite, full width at half maximum, 2.91ÅDol FWHM 2.91ÅMeijer, NielsX-ray diffraction (XRD)
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
1950 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Event
Latitude
Longitude
Instrument
Sect
(Sedimentary Section)
Reference
URL ref
Sample ID
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 36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj L1414.00Mudrock9.7615478089.4004094033.11296654931.92754190025.4444417603.8179677038.4912696188.0438552580.0000000000010.516128158380.87910.02614156610.2377.13615545420.2014.2601380305130.1263.52523389580.3043.34379411637270.1353.4353969841860.1483.257254.0007081.000.2113.194612.00022942.00.2403.0393052.0087517.00.18000
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 5473.50Mudrock4.4788307546.3430568794.22261725517.76348466012.2362465702.9308429894.2861058150.00000000047.7388150804414.112647830.10210.4435032260.49410.0028129640.2857.07417953310.1404.260565114890.1323.53119359170.1493.3433385721080.1343.4331880382590.1413.245166.0002917.000.1333.197263.00011542.00.2690.000.02.904126824352170.205
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 6079.50Mudrock9.2690746486.9880608013.33680010036.34586315019.5521951605.1456243146.7763602330.00000000012.5860215904614.226865320.11010.03410969990.50310.6009468910.5997.09814977820.2134.260951198810.1153.54714172800.1813.34352481152370.1343.4324052887400.1513.240307.0007878.000.1133.201438.00014858.00.2460.000.02.89635221110590.220
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 7998.50Mudrock5.5014535227.9827132593.88340872214.83655475028.9604131104.67274211612.9600848900.00000000021.2026296404414.2458412920.09810.4089762440.46710.00616153240.2177.06926076200.0754.2602112357810.0963.53726160610.1723.343121112136130.1113.4322480476600.1293.251418.0008887.000.1793.1971256.00035932.00.1330.000.02.90388962724910.197
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 88.25107.75Mudrock7.42532866710.5484339204.35905412533.83406291024.6844528103.9332719248.1758529891.1173564295.9221862304414.188839670.07410.43596102260.77610.02415656640.2207.14521470390.2284.2601320290640.1393.52323265800.2363.34383011790540.1383.4314147903250.1563.254258.0004623.000.0833.191581.00025310.00.3033.036418.009526.00.1702.9031822580100.197
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 92111.50Mudrock7.5327450739.1048227114.23213585621.43941218031.5939156606.6363402459.7155588343.0011751606.7438942744414.2659716080.09010.42711571230.45110.03215972400.3157.09824579200.1214.2601995401770.1223.53320039980.0763.343115552277590.1293.4333103656510.1423.250514.02412170.600.1953.199815.26732714.80.3193.0371325.7626525.00.1482.9042450714870.200
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 101120.50Mudrock13.16157973013.1022862003.60635488025.71165855023.4150691404.1836557049.6611723880.0000000007.1582234084414.1316411560.10110.31917366720.10710.02619768240.1657.09318066570.2694.2601273308100.1433.533241132860.2083.34373851745160.1563.4333204717520.1553.249279.0006445.000.1953.198698.00025590.00.2570.000.02.9022239756020.204
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 111.75131.25Mudrock8.6568324999.2318191543.02353881325.24395546029.9696275308.5918773378.6232245430.0000000006.6591246654414.2459914620.02910.380141106700.5139.99017254090.2067.09818781500.3224.2602019413090.1293.521215134900.3993.343128202567890.1343.4323898812440.1393.245710.00015717.000.1783.199772.00035745.00.3580.000.02.9022581803880.197
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 134.5154.00Mudrock18.19882487010.8866930103.74002365428.11795262022.0136468404.7052618747.3616048503.4198815781.5561107014414.3428615980.11610.422235187450.50910.05516162630.3017.09318395670.1754.2601175246360.1163.53223368160.1683.34372211456710.1343.4333441696000.1393.244308.1568204.770.2623.197522.32020633.80.3243.0391277.3726845.90.1442.904478119240.184
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 153172.50Mudrock9.28893709810.8273879504.21297857417.71822361033.3750886506.10287654811.4698762900.0000000007.0046312644414.4597910290.09410.35010879870.5109.97014464150.2817.12118671320.1524.2601605388720.1423.52417569650.3143.34393552296010.1603.4291953533320.1923.246360.0009060.000.2383.197733.00026615.00.2610.000.02.9021938636500.198
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 159178.50Mudrock9.26957153811.7870709504.81571468931.29742944025.4265060000.0000000008.0796041460.0000000009.3241032384414.3428515870.15110.46911066660.51710.07116085430.4167.11721781200.3154.2601248260520.1233.546279109360.0893.34374631668060.1423.4323521768340.1490.0000.003.195527.00026938.00.3310.000.02.9042633777810.182
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 168187.50Mudrock10.81344309011.2914286203.97099422217.81262841023.3841988104.39293949012.9624972100.00000000015.3718701404514.1129219180.13910.285180114180.4189.96721559080.1647.088251111560.1824.2601610292280.1203.52419446460.1313.343111032103770.1243.4312811553690.1383.244371.0008482.000.2463.1951186.00041044.00.1980.000.02.90060891775210.189
Xining_Basin_Ledu 36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -82-82.00Mudrock3.84218232012.0213217305.0414503378.36864692024.07070075016.89974076015.59921406014.1567431300.00000000014.22612113750.08710.6755721390.22710.093204174780.5767.131284112270.1554.2601477288860.1133.529228121990.2103.34385051671950.128003.2461177.00019570.000.1243.1961272.00040696.00.1923.0376077.00116260.00.13900
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -56-56.00Mudrock5.3130213108.4723320441.8914928234.49896452240.79594965024.20205263010.3105723504.5156146670.00000000014.2659313690.09610.860108125410.85110.082197174500.6317.12614672690.3114.2593430598800.1113.52115136230.1533.343195023223480.1063.429867154190.1253.2522496.00040588.000.1283.1971152.00028056.00.1853.0392656.0050832.00.14300
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -52-52.00Mudrock5.1713705197.3293327162.7443999355.73997020942.33936809012.83372004016.8568088406.9850296490.0000000000011.011132129120.69910.083214229780.8697.055266101590.1694.2604470823740.1243.52919937450.1633.343357936109640.1153.4291389299110.1243.2401662.00036043.000.1443.1892365.00085500.00.2853.0365159.00104760.00.14400
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -48-48.00Mudrock8.46090653812.4855672904.38506496115.14339400031.9932803206.21702507515.5040481205.8107137050.00000000014.3429219720.10810.815125142270.81310.080211149670.5017.13124698120.2034.2601955352730.1033.522260117390.2563.343105791937730.1183.4292121398260.1333.245466.00012158.000.2323.1961259.00040891.00.1873.0362484.0049629.00.15100
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -44-44.00Mudrock7.59269629414.9347338105.71607593322.67731316030.2291516105.2866599908.8287256234.7346435800.00000000014.18810623510.12011.1699278460.72110.049207174290.6167.11226393340.1474.2601515291130.1093.523300123500.1773.34391951649640.1243.4322605495940.1373.246325.0007590.000.1663.197588.00020999.00.2683.0381660.0032380.00.13300
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -26-26.00Mudrock7.3332111177.6093566301.9228077965.74420442443.05983966012.81995017018.9972242502.5134059530.00000000014.22612917030.10510.468230213030.6349.97827365650.1547.07422993760.0984.2605586844840.093003.343217813722220.1203.4311708306350.1283.2492040.00029482.000.0863.1903275.00068627.00.0943.0372281.0046232.00.13900
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -16-16.00Mudrock11.49129603013.8801842705.1515345867.71683894633.9754606504.78924775011.49059999011.5048377800.00000000014.15012226200.12911.455131225761.29210.153181154560.5467.07922389290.0944.2601602313580.1033.52127192600.1823.34398801668250.1173.431834156800.1263.252277.0007102.000.2403.197720.00028448.00.2853.0373795.0093805.00.15600
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld -8-8.00Mudrock15.43112402016.4411098106.7306575198.06726707428.9603829006.0069563938.4398581659.9226441230.00000000014.07513650920.28512.073160314421.66210.072195162360.4717.16526591330.1394.2601242246090.1053.528209103840.3603.34367351192690.1173.433793137320.1213.244316.0007042.000.1843.191481.00019261.00.2683.0372977.0074655.00.15400
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld +22.00Mudrock9.0084543877.3128142153.2027135120.00000000041.89514775022.1566945609.5526727426.8715028290.00000000014.2079127610.15311.934140188410.91810.141130147080.7627.14518991710.2274.2602693528270.117003.343180023131460.115003.2501747.00026325.000.0913.201816.00032889.00.2533.0353090.0089890.00.19000
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 2847.50Mudrock7.45447587310.5200173602.66426069948.04342851018.6922172004.2189555374.9986332333.4080115820.00000000014.265276550.20911.0687089470.97510.120113109250.5717.1029590550.3354.260726192190.1563.52116078480.4303.34349991029600.1343.4324277933060.1553.247201.0006891.000.3543.201258.00012662.00.4113.036926.0022768.00.17600
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03116Cj 237.5237.50Mudrock10.35072491013.5046085804.21270494312.81220626033.1961796305.51765915312.6541491207.1652160150.5865514014514.36110822090.09010.404132123840.76910.045197121440.4287.14120492810.2294.2601751378000.1083.524269131670.2833.343103442024610.1273.4311549316760.1453.251357.0008968.000.2133.196887.00031870.00.2443.0372644.0055422.00.1482.90017860690.275
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03116Cj 247247.00Mudrock5.0747540788.9128341463.4073166679.13371940744.0700337204.54163655215.8535823009.0061231260.00000000014.18812319970.04610.597111134480.87010.027223115180.3497.074283144500.2004.2603987652840.1043.54025592700.1353.343227143948720.1193.4321894368840.1353.249504.00012185.000.2243.1961906.00068904.00.1873.0385700.00118132.00.15000
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 184203.50Mudrock11.5946759706.9841273715.39941620421.47746027030.5794896706.34039014511.5119871502.0035474044.1089058224414.2847916490.15210.325164196510.84610.05011346430.2377.07429094440.1864.2591789383070.1173.53125479330.3083.343112192206450.1273.4312880594680.1503.248455.0009350.000.1813.197895.00033804.00.2863.038820.0015920.00.1392.9031383391980.199
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.03115Cj 223.5243.00Mudrock12.4080018409.6508874514.49302243623.96282172020.9331351904.1180180038.3159747060.00000000016.1181386504614.28410413760.06810.362136136380.72310.02712149180.2467.117187115320.2754.260949195670.1063.52226469690.2173.34354891197870.1373.4332490509970.1433.248229.0005669.000.2103.199501.00025696.00.3560.000.02.89742041339310.219
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld +14.814.80Mudrock10.63141159010.1501946703.79444798714.18738312032.1634762404.48043852212.12698213012.4656657400.00000000014.34211222110.16210.484152185900.82710.055166102050.3867.11720672440.1524.2601902370540.1113.52622789370.1463.343113562001120.1183.4331923344020.1273.252325.0006865.000.2263.197953.00036384.00.2653.0365157.0099648.00.14000
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.031CjC 111.00Carbonate0.0000000000.0000000000.00000000013.40682166010.2642817402.1177861292.6223074421.09588453370.49291850044000000004.24816224400.093003.343610118620.1253.42248593520.1173.24041.000666.000.1763.20355.0001870.00.2493.033121.002075.00.1342.90464014249110.404
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.031CjC 311.50Carbonate0.0000000000.0000000000.00000000012.4333191909.7463644121.4404325331.8442608991.93905161472.59657135044000000004.25517142020.126003.343857173340.1323.424500108460.1533.24231.0001584.000.2353.19543.0001584.00.2353.036238.0020667.00.6422.90473284820790.392
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.031CjC 91.50Carbonate0.0000000000.0000000000.0000000004.3822280178.1051426400.0000000002.2076612640.00000000085.30496808047000000004.25016325840.113003.343601101330.1213.42620236870.1720.0000.003.20459.0002022.00.2100.000.02.89598705792240.384
Xining_Basin_Caijia36.6153101.9842PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtCaijiaMeijer et al. (2019)https://doi.org/10.1016/j.epsl.2018.12.031CjC 1241.25Carbonate0.0000000008.0617656200.0000000007.87587698916.4938424803.1466176424.9971287770.00000000059.4247684904600009.9709353840.376004.253688138290.119003.3433528855330.1583.427753177390.1603.255161.0002105.000.1243.207277.0008929.00.2130.000.02.897142615514660.242
Xining_Basin_Ledu36.4301102.3787PANALYTICAL X'Pert Bragg-Brentano diffractometer, Goethe University FrankfurtLeduMeijer et al. (2023)https://doi.org/10.1111/bre.1272018Ld 24.424.40Carbonate0.00000000015.6151624300.0000000008.6746961459.8065884950.0000000000.00000000065.9035529300.000000000000010.0939640660.187004.25221842370.045003.343891175430.1233.43144289690.1270.0000.000.0000.03.03210249.00499075.00.30800