Citation:

PANGAEA.962894

Name: Plant wax compound specific (C27-C33) δ13C and δ2H of early Eocene strata in the Xining Basin, China
Published: 2024-01-11
License: https://creativecommons.org/licenses/by/4.0/
Keywords: Bulk organic geochemistry; Clumped isotope thermometry; palynology; pedogenic carbonate; Plant wax; stable isotope geochemistry; XRD

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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: 36.534589 * Median Longitude: 101.982584 * South-bound Latitude: 36.453900 * West-bound Longitude: 101.981000 * North-bound Latitude: 36.615278 * East-bound Longitude: 101.984167

Minimum Elevation: 2360.0 m * Maximum Elevation: 2480.0 m

Event(s):

Xining_Basin_Bingling_Shan * Latitude: 36.453900 * Longitude: 101.981000 * Elevation: 2360.0 m * Location: China * Method/Device: Outcrop sample (OUTCROP)

Xining_Basin_Caijia * Latitude: 36.615278 * Longitude: 101.984167 * Elevation: 2480.0 m * Location: China * Method/Device: Outcrop sample (OUTCROP)

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event		Meijer, Niels
2	Latitude of event	Latitude		Meijer, Niels
3	Longitude of event	Longitude		Meijer, Niels
4	Instrument	Instrument		Meijer, Niels
5	Section	Sect		Meijer, Niels		Sedimentary Section
6	Reference/source	Reference		Meijer, Niels
7	Uniform resource locator/link to reference	URL ref		Meijer, Niels
8	Sample ID	Sample ID		Meijer, Niels
9	Stratigraphic height	Strat height	m	Meijer, Niels		Section stratigraphic position
10	Lithology/composition/facies	Lithology		Meijer, Niels
11	Average chain length, n-Alkanes, C14-C37	ACL 14-37		Meijer, Niels	Gas chromatograph (GASC)
12	Average chain length, n-Alkanes, C25-C37	ACL 25-37		Meijer, Niels	Gas chromatograph (GASC)
13	Carbon Preference Index	CPI		Meijer, Niels	Gas chromatograph (GASC)
14	n-Alkane C27, δ13C	C27 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
15	n-Alkane C27, δ13C, standard deviation	C27 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
16	n-Alkane C28, δ13C	C28 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
17	n-Alkane C28, δ13C, standard deviation	C28 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
18	n-Alkane C29, δ13C	C29 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
19	n-Alkane C29, δ13C, standard deviation	C29 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
20	n-Alkane C30, δ13C	C30 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
21	n-Alkane C30, δ13C, standard deviation	C30 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
22	n-Alkane C31, δ13C	C31 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
23	n-Alkane C31, δ13C, standard deviation	C31 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
24	n-Alkane C32, δ13C	C32 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
25	n-Alkane C32, δ13C, standard deviation	C32 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
26	n-Alkane C33, δ13C	C33 δ13C	‰ PDB	Meijer, Niels	Gas chromatograph (GASC)	vs. VPDB
27	n-Alkane C33, δ13C, standard deviation	C33 δ13C std dev	±	Meijer, Niels	Gas chromatograph (GASC)
28	n-Alkane C27, δD	C27 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
29	n-Alkane C27, δD, standard deviation	C27 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
30	n-Alkane C28, δD	C28 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
31	n-Alkane C28, δD, standard deviation	C28 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
32	n-Alkane C29, δD	C29 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
33	n-Alkane C29, δD, standard deviation	C29 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
34	n-Alkane C30, δD	C30 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
35	n-Alkane C30, δD, standard deviation	C30 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
36	n-Alkane C31, δD	C31 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
37	n-Alkane C31, δD, standard deviation	C31 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
38	n-Alkane C32, δD	C32 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
39	n-Alkane C32, δD, standard deviation	C32 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)
40	n-Alkane C33, δD	C33 δD	‰ SMOW	Meijer, Niels	Gas chromatograph (GASC)	vs. VSMOW
41	n-Alkane C33, δD, standard deviation	C33 δD std dev	±	Meijer, Niels	Gas chromatograph (GASC)

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Status:

Curation Level: Enhanced curation (CurationLevelC)

Size:

753 data points

Data

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

1 Event	2 Latitude	3 Longitude	4 Instrument	5 Sect	6 Reference	7 URL ref	8 Sample ID	9 Strat height [m]	10 Lithology	11 ACL 14-37	12 ACL 25-37	13 CPI	14 C27 δ13C [‰ PDB]	15 C27 δ13C std dev [±]	16 C28 δ13C [‰ PDB]	17 C28 δ13C std dev [±]	18 C29 δ13C [‰ PDB]	19 C29 δ13C std dev [±]	20 C30 δ13C [‰ PDB]	21 C30 δ13C std dev [±]	22 C31 δ13C [‰ PDB]	23 C31 δ13C std dev [±]	24 C32 δ13C [‰ PDB]	25 C32 δ13C std dev [±]	26 C33 δ13C [‰ PDB]	27 C33 δ13C std dev [±]	28 C27 δD [‰ SMOW]	29 C27 δD std dev [±]	30 C28 δD [‰ SMOW]	31 C28 δD std dev [±]	32 C29 δD [‰ SMOW]	33 C29 δD std dev [±]	34 C30 δD [‰ SMOW]	35 C30 δD std dev [±]	36 C31 δD [‰ SMOW]	37 C31 δD std dev [±]	38 C32 δD [‰ SMOW]	39 C32 δD std dev [±]	40 C33 δD [‰ SMOW]	41 C33 δD std dev [±]
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-3 (Pollen)	0.2	Gypsiferous mudflat / saline lake	30.7	30.7	3.6	-34.0	0.2	-33.2	0.2	-33.9	0.2	-33.1	0.2	-33.8	0.2	-32.2	0.2	-32.8	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-15.8	35.3	Alluvial mudflat	29.0	29.9	3.1	-31.0	0.3	-30.1	0.4	-30.3	0.1	-29.6	0.8	-30.3	0.4	-28.7	1.4	-28.5	0.6
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-12 (Pollen)	42.5	Gypsiferous mudflat / saline lake				-28.0	0.2	-28.9	0.2	-29.4	0.2	-29.0	0.2	-28.6	0.2	-28.4	0.2	-27.5	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-17.6	37.1	Alluvial mudflat	28.9	29.6	4.2	-30.1	0.0	-30.6	0.3	-30.6	0.1	-30.7	0.5	-30.4	0.1	-30.0	1.4	-29.8	0.6	-172.5	5.0	-159.8	5.0	-174.5	5.0	-158.2	5.0	-167.9	5.0	-162.6	5.0	-168.1	5.0
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-20.5	40.0	Gypsiferous mudflat / saline lake	28.9	29.8	4.1	-30.1	0.9	-29.9	0.8	-30.8	0.9	-29.5	0.4	-30.0	1.3	-28.5	0.0	-28.4	0.9	-179.7	5.0	-157.6	5.0	-181.9	5.0	-162.2	5.0	-184.6	5.0	-159.9	5.0	-154.7	5.0
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-25	44.5	Gypsiferous mudflat / saline lake	30.1	30.3	5.8	-27.7	0.3	-27.4	0.5	-28.7	0.1	-27.5	0.4	-27.9	0.1	-26.6	0.6	-26.6	0.2	-160.1	5.0	-143.4	5.0	-170.0	5.0	-137.8	5.0	-170.5	5.0	-150.2	5.0	-156.3	5.0
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-26	45.5	Alluvial mudflat	28.9	29.7	3.9	-29.4	1.0	-29.3	0.4	-30.3	1.1	-29.1	0.2	-30.1	1.3	-28.8	1.4	-28.4	1.3	-165.7	5.0	-151.5	5.0	-170.3	5.0	-149.8	5.0	-166.2	5.0	-129.6	5.0	-149.5	5.0
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-38.5	58.0	Alluvial mudflat	29.2	29.5	5.9	-29.0	0.2	-27.8	0.2	-29.9	0.2	-28.4	0.3	-31.7	1.2	-29.0	0.8	-29.5	0.5	-161.8	1.2	-158.9	2.3	-161.7	3.6	-162.5	3.6	-162.9	4.2	-168.2	2.6	-158.7	4.3
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-42.5	62.0	Lacustrine mud	29.4	29.7	4.8	-29.5	0.5	-31.2	0.2	-31.3	0.7	-31.1	0.5	-31.0	0.5	-29.1	0.6	-30.2	0.7	-169.5	1.1	-168.2	0.8	-170.5	5.5	-181.5	8.1	-163.5	7.7	-183.6	3.5	-168.2	2.8
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-49	68.5	Alluvial mudflat	29.1	29.4	6.1	-29.9	0.6	-29.6	0.1	-30.8	0.5	-30.1	0.3	-30.5	0.5	-29.8	0.7	-29.3	0.4	-160.1	2.9	-161.9	2.0	-161.8	0.1	-160.0	0.5	-159.5	0.9	-158.7	5.8	-152.5	5.0
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-57	76.5	Lacustrine mud	30.4	30.6	7.2	-29.1	0.1	-31.0	0.5	-31.0	0.6	-31.8	0.1	-32.2	0.7	-30.2	1.0	-30.0	0.5	-158.1	2.4	-163.4	4.7	-172.9	1.7	-174.0	4.9	-171.2	2.5	-163.9	1.1	-171.0	2.5
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-19 (Pollen)	89.3	Fluvial siltstone				-28.7	0.2	-28.7	0.2	-29.3	0.2	-29.1	0.2	-29.2	0.2	-29.5	0.2	-28.8	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-22 (Pollen)	92.8	Fluvial siltstone				-30.1	0.2	-30.3	0.2	-30.8	0.2	-30.5	0.2	-30.5	0.2	-31.2	0.2	-29.6	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-76	95.5	Alluvial mudflat	28.4	29.1	4.9	-29.6	0.9	-30.3	1.4	-30.1	1.5	-30.4	1.1	-30.0	0.8	-30.4	1.1	-29.7	0.9
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-32 (Pollen)	134.0	Alluvial mudflat				-29.4	0.2	-28.8	0.2	-30.0	0.2	-28.8	0.2	-30.1	0.2	-28.4	0.2	-28.5	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-127	146.5	Lacustrine mud	28.4	29.7	5.4	-31.3	0.9	-33.0	0.8	-32.7	0.7	-33.4	0.6	-32.4	0.6	-31.9	0.8	-32.4	0.7
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	17-CJ-AR-138.5	158.0	Lacustrine mud	29.7	29.9	5.8	-29.9	1.0	-30.8	1.0	-30.5	1.1	-30.9	0.8	-30.1	1.1	-30.6	0.7	-29.8	0.9
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	15-CJ-40 (Pollen)	206.0	Gypsiferous mudflat / saline lake				-26.8	0.2	-27.5	0.2	-28.1	0.2	-27.3	0.2	-28.3	0.2	-27.6	0.2	-26.7	0.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	LCJ-1	256.7	Gypsiferous mudflat / saline lake	30.4	30.4	5.8	-29.8	1.0	-26.5	0.4	-28.7	0.5	-28.6	0.0	-29.0	0.9	-28.5	0.8	-28.4	1.2
Xining_Basin_Caijia	36.6153	101.9842	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Caijia	Meijer et al. (2019)	https://doi.org/10.1016/j.epsl.2018.12.031	LCJ-4	263.0	Gypsiferous mudflat / saline lake	30.5	30.5	3.9					-28.4	1.0			-29.0	1.0
Xining_Basin_Bingling_Shan	36.4539	101.9810	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Bingling Shan	Meijer et al. (2023)	https://doi.org/10.1111/bre.12720	17-BS-AR-6	6.0	Gypsiferous mudflat / saline lake	28.5	29.4	4.0	-26.4	0.1	-27.7	0.4	-28.2	0.5	-27.7	1.3	-27.5	0.6	-28.1	1.1	-27.9	1.2	-156.4	-144.3	-144.3	5.0	-163.8	5.0	-141.0	5.0	-164.6	5.0	-148.3	5.0	-148.4	5.0
Xining_Basin_Bingling_Shan	36.4539	101.9810	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Bingling Shan	Meijer et al. (2023)	https://doi.org/10.1111/bre.12720	17-BS-AR-8	8.0	Gypsiferous mudflat / saline lake	28.7	29.7	3.9	-24.5	0.5	-26.7	0.9	-26.8	0.4	-28.5	1.7	-27.1	0.6	-22.4	1.0	-28.4	1.0	-156.7	6.8	-165.6	9.5	-172.6	1.8	-167.2	5.0	-167.0	2.7
Xining_Basin_Bingling_Shan	36.4539	101.9810	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Bingling Shan	Meijer et al. (2023)	https://doi.org/10.1111/bre.12720	17-BS-AR-14	14.0	Gypsiferous mudflat / saline lake	30.3	31.4	4.3	-25.1	1.4	-26.3	0.9	-26.4	0.9	-26.4	0.9	-26.3	0.7	-22.7	1.1	-25.9	1.3	-169.4	2.6	-175.2	8.4	-184.6	1.3	-179.9	5.7	-177.7	3.6	-181.0	16.0	-183.5	4.1
Xining_Basin_Bingling_Shan	36.4539	101.9810	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Bingling Shan	Meijer et al. (2023)	https://doi.org/10.1111/bre.12720	17-BS-AR-30	30.0	Gypsiferous mudflat / saline lake	28.4	29.7	5.7	-25.8	1.4	-26.6	0.9	-27.2	0.2	-27.0	0.7	-26.3	0.4	-27.7	0.9	-27.3	1.3	-163.1	3.1	-165.3	1.5	-175.4	1.5	-168.2	1.2	-172.0	2.8	-171.6	3.0	-166.7	2.1
Xining_Basin_Bingling_Shan	36.4539	101.9810	Thermo Scientific GC-Isolink paired with Thermo Scientific MAT 253 IRMS, University of Connecticut	Bingling Shan	Meijer et al. (2023)	https://doi.org/10.1111/bre.12720	17-BS-AR-46.5	46.5	Alluvial mudflat	27.5	28.7	3.7	-34.1	2.0	-34.9	1.0	-35.1	0.8	-36.3	1.5	-35.7	2.2	-33.7	1.4	-33.5	0.5	-161.3	2.9	-167.6	3.8	-166.7	2.0	-164.5	6.4	-164.3	0.5	-164.3	4.6	-161.3	5.3