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Vasil'chuk, Yurij K; Vasil'chuk, Jessica Yurevna; Budantseva, Nadine A; Vasil'chuk, Alla Constantinovna; Belik, Anna D; Bludushkina, Liubov; Ginzburg, Alexander P; Krechetov, Pavel P; Terskaya, Elena V (2021): Trace elements content in soils and soil inclusions in Batagay ice wedges, North Yakutia, Russia [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.927867, In: Vasil'chuk, YK et al. (2021): Major and trace elements, δ¹³C, and polycyclic aromatic hydrocarbons in the Late Pleistocene ice wedges: A case-study of Batagay yedoma, Central Yakutia [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.927874

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Abstract:
Trace elements in soil and soil inclusions of ice wedges from the Batagay megaslump, 10 km to south east from Batagay settlement in the Verkhoyansky District of the Yakutia (Sakha) Republic, Russia.
Keyword(s):
Batagay Yedoma; Ice wedges; Ion composition; Late Pleistocene; Mineralization; PAHs; Syngenetic; trace- and major elements
Supplement to:
Vasil'chuk, Yurij K; Vasil'chuk, Jessica Yurevna; Budantseva, Nadine A; Vasil'chuk, Alla Constantinovna; Belik, Anna D; Bludushkina, Liubov; Ginzburg, Alexander P; Krechetov, Pavel P; Terskaya, Elena V (2020): Major and trace elements, δ13C, and polycyclic aromatic hydrocarbons in the Late Pleistocene ice wedges: A case-study of Batagay yedoma, Central Yakutia. Applied Geochemistry, 120, 104669, https://doi.org/10.1016/j.apgeochem.2020.104669
Related to:
Grigoryev, N A (2009): Chemical Element Distribution in the Upper Continental Crust. In: Ural Branc. Ekaterinburg.
Hu, Zhaochu; Gao, Shan (2008): Upper crustal abundances of trace elements: A revision and update. Chemical Geology, 253(3-4), 205-221, https://doi.org/10.1016/j.chemgeo.2008.05.010
Rudnick, R L; Gao, S (2003): Composition of the Continental Crust. In: Treatise on Geochemistry, Elsevier, 1-64, https://doi.org/10.1016/B0-08-043751-6/03016-4
Wedepohl, K Hans (1995): The composition of the continental crust. Geochimica et Cosmochimica Acta, 59(7), 1217-1232, https://doi.org/10.1016/0016-7037(95)00038-2
Coverage:
Latitude: 67.580278 * Longitude: 134.771944
Minimum DEPTH, sediment/rock: 0.025 m * Maximum DEPTH, sediment/rock: 0.930 m
Event(s):
Batagay_megaslump_1 * Latitude: 67.580278 * Longitude: 134.771944 * Location: North Yakutia, Russia
Comment:
The content of major and trace elements in soils and soil inclusions in ice was determined in Moscow, in the laboratory of the All-Russian Research Institute of Mineral Raw Materials named after N.M. Fedorovsky (VIMS) mass spectral (ICP-MS) and atomic emission methods (ICP-AES) with inductively coupled plasma. iCAP Qc mass spectrometer (Thermo Scientific, USA) and an Optima – 4300 DV atomic emission spectrometer (Perkin Elmer, USA) were used for laboratory analysts, according to certified methods (NSAM 499-AES/MS, 2015) using standard reference materials and blank samples. The VIMS laboratory is accredited in the international accreditation system Analytics (AAS.A.00255), the national accreditation system (RA.RU.21GP11), and also in accordance with the requirements of the International Standards ISO Guide 34: 2009 and ISO/IEC 17025: 2017.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Sample IDSample IDVasil'chuk, Yurij K
Sample commentSample commentVasil'chuk, Yurij KSampling site
Sample typeSamp typeVasil'chuk, Yurij K
Sample commentSample commentVasil'chuk, Yurij Ksoil horizon
Laboratory code/labelLab labelVasil'chuk, Yurij K
DEPTH, sediment/rockDepth sedmVasil'chuk, Yurij KGeocode – mean
Depth, top/minDepth topmVasil'chuk, Yurij K
Depth, bottom/maxDepth botmVasil'chuk, Yurij K
LithiumLimg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
10 Reference/sourceReferenceVasil'chuk, Yurij K
11 CopperCumg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
12 Reference/sourceReferenceVasil'chuk, Yurij K
13 ZincZnmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
14 Reference/sourceReferenceVasil'chuk, Yurij K
15 GalliumGamg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
16 Reference/sourceReferenceVasil'chuk, Yurij K
17 CadmiumCdmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
18 Reference/sourceReferenceVasil'chuk, Yurij K
19 StrontiumSrmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
20 Reference/sourceReferenceVasil'chuk, Yurij K
21 CaesiumCsmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
22 Reference/sourceReferenceVasil'chuk, Yurij K
23 TungstenWmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
24 Reference/sourceReferenceVasil'chuk, Yurij K
25 ThalliumTlmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
26 Reference/sourceReferenceVasil'chuk, Yurij K
27 LeadPbmg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
28 Reference/sourceReferenceVasil'chuk, Yurij K
29 BismuthBimg/kgVasil'chuk, Yurij KInductively Coupled Plasma Mass Spectrometry (Thermo iCap Q ICP-MS)
30 Reference/sourceReferenceVasil'chuk, Yurij K
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
508 data points

Data

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


Sample ID
Sample comment
(Sampling site)
Samp type
Sample comment
(soil horizon)
Lab label
Depth sed [m]
(mean)
Depth top [m]
Depth bot [m]
Li [mg/kg]		10 
Reference		11 
Cu [mg/kg]		12 
Reference		13 
Zn [mg/kg]		14 
Reference		15 
Ga [mg/kg]		16 
Reference		17 
Cd [mg/kg]		18 
Reference		19 
Sr [mg/kg]		20 
Reference		21 
Cs [mg/kg]		22 
Reference		23 
W [mg/kg]		24 
Reference		25 
Tl [mg/kg]		26 
Reference		27 
Pb [mg/kg]		28 
Reference		29 
Bi [mg/kg]		30 
Reference
B1Pit in forest-tundra near the quarry, 365 mSoilO0.0250.000.0569.5030.00128.4019.000.192.317.881.240.5419.500.25
B1Pit in forest-tundra near the quarry, 365 mSoilC1000.1300.050.2181.3042.70141.1019.800.162.157.751.140.5720.200.28
B2Foot of Kirgilyakh mountain, 325 mSoilO0.0250.000.0559.8062.10127.1019.800.373.9815.802.280.8724.200.97
B2Foot of Kirgilyakh mountain, 325 mSoilAyC0.0550.050.0629.0021.8066.8012.200.101.863.461.630.4716.600.23
B2Foot of Kirgilyakh mountain, 325 mSoilC0.1000.060.1441.0034.7092.1014.200.262.647.572.030.5817.300.61
B2Foot of Kirgilyakh mountain, 325 mSoilCG0.4400.140.7431.8024.1075.6011.900.152.134.711.930.6015.200.40
B2Foot of Kirgilyakh mountain, 325 mSoilC+0.7400.7430.1024.7076.9012.000.111.803.141.280.4618.200.20
B3Top of Kirgilyakh mountain, 545 mSoilO0.0250.000.05190.20209.40115.2013.300.8214.2030.30137.300.9339.4022.50
B4Slope of Kirgillyakh mountain, 482 mSoilO0.0250.000.05186.50401.70140.2014.900.3913.5059.1034.501.5021.4018.70
B5Pit in larch on the flat slope of Kirgilyakh mountain near the megaslump, 362 mSoilAy0.0350.000.0722.5016.6064.2011.100.141.743.161.720.4414.400.26
B5Pit in larch on the flat slope of Kirgilyakh mountain near the megaslump, 362 mSoilCG10.1700.070.2732.6019.1071.4012.600.141.932.981.530.4516.900.18
B5Pit in larch on the flat slope of Kirgilyakh mountain near the megaslump, 362 mSoilCG20.5200.270.7733.6052.8075.7011.100.131.842.931.560.4616.200.16
B5Pit in larch on the flat slope of Kirgilyakh mountain near the megaslump, 362 mSoilCG30.8500.770.9339.7025.7095.8014.400.182.044.451.440.5517.700.19
B5Pit in larch on the flat slope of Kirgilyakh mountain near the megaslump, 362 mSoilC+0.9300.9340.5027.0098.8015.300.192.004.231.360.5618.400.21
B6Pit near the edge of the megaslump near IW-6 and IW-7, 325 mSoilO0.0400.000.0835.9019.7086.0016.500.202.295.491.830.5321.400.25
B6Pit near the edge of the megaslump near IW-6 and IW-7, 325 mSoilBHF0.2100.080.3428.7013.4062.7010.700.091.422.240.980.3513.700.13
B6Pit near the edge of the megaslump near IW-6 and IW-7, 325 mSoilC0.6300.340.9236.5023.8087.9014.000.131.873.601.310.4819.000.18
B6Pit near the edge of the megaslump near IW-6 and IW-7, 325 mSoilC+0.9200.9238.1020.0088.2014.000.152.013.751.240.4418.400.18
Frozen soilFrozen soil in megaslumps side on 257-meter hightSoil18-B-VV/22135.0023.60112.1013.500.332.003.871.590.5617.300.19
Ice wedge 5Inclusions in Ice Wedge18-B-VV/1F49.8131.09108.6718.470.456.281.380.0625.250.38
Ice wedge 5Inclusions in Ice Wedge18-B-VV/15F41.0422.8078.2215.200.252.204.511.170.0517.550.25
Ice wedge 5Inclusions in Ice Wedge18-B-VV/30F43.5425.4883.8716.190.282.314.821.180.0419.220.28
Ice wedge 5Inclusions in Ice Wedge18-B-VV/45F31.8718.7859.8612.570.161.803.340.980.0413.690.20
Ice wedge 6Inclusions in Ice Wedge18-B-VV/80F32.1217.4263.4212.880.171.823.280.970.0414.040.21
Ice wedge 6Inclusions in Ice Wedge18-B-VV/111F44.7022.6486.9217.970.222.374.461.290.0519.720.28
Ice wedge 6Inclusions in Ice Wedge18-B-VV/150F43.7623.0183.5217.250.202.604.351.430.0519.500.29
Ice wedge 6Inclusions in Ice Wedge18-B-VV/224F32.8816.3960.9113.330.141.713.100.980.0414.960.19
Ice wedge 7Inclusions in Ice Wedge18-B-VV/65F39.0423.9572.2014.660.272.034.221.240.0416.830.24
Ice wedge 7Ground particles included in ice, left after thawed ice water remove18-B-VV/6532.9023.0087.6012.500.171.883.061.400.4416.100.15
Ice wedge 7Inclusions in Ice Wedge18-B-VV/195F15.507.7529.186.420.060.861.480.480.026.950.09
Ice wedge 7Inclusions in Ice Wedge18-B-VV/215F36.9520.1070.0614.540.181.993.801.090.0415.730.21
33.00Grigoryev, 200939.00Hu & Gao, 200875.00Grigoryev, 200919.00Grigoryev, 20090.09Rudnick & Gao, 20032.50Wedepohl, 19955.50Grigoryev, 20092.03Grigoryev, 20090.75Wedepohl, 199517.00Rudnick & Gao, 20030.23Hu & Gao, 2008