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Henkel, Susann; Kasten, Sabine; Hartmann, Jan; Silva Busso, A; Staubwasser, Michael (2018): Solid phase geochemistry of sediment core Potter_Cove_STA04 [dataset]. Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven, PANGAEA, https://doi.org/10.1594/PANGAEA.890293, In supplement to: Henkel, S et al. (2018): Iron cycling and stable Fe isotope fractionation in Antarctic shelf sediments, King George Island. Geochimica et Cosmochimica Acta, https://doi.org/10.1016/j.gca.2018.06.042

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Further details:
Canfield, Donald E; Raiswell, Robert; Westrich, Joseph T; Reaves, Christopher M; Berner, Robert A (1986): The use of chromium reduction in the analysis of reduced inorganic sulfur in sediments and shales. Chemical Geology, 54 (1-2), 149-155, https://doi.org/10.1016/0009-2541(86)90078-1
Cornwell, Jeffrey C; Morse, John W (1987): The characterization of iron sulfide minerals in anoxic marine sediments. Marine Chemistry, 22 (2-4), 193-206, https://doi.org/10.1016/0304-4203(87)90008-9
Henkel, Susann; Kasten, Sabine; Poulton, Simon W; Staubwasser, Michael (2016): Determination of the stable iron isotopic composition of sequentially leached iron phases in marine sediments. Chemical Geology, 421, 93-102, https://doi.org/10.1016/j.chemgeo.2015.12.003
Poulton, Simon W; Canfield, Donald E (2005): Development of a sequential extraction procedure for iron: implications for iron partitioning in continentally derived particulates. Chemical Geology, 214(3-4), 209-221, https://doi.org/10.1016/j.chemgeo.2004.09.003
Schoenberg, Ronny; von Blanckenburg, Friedhelm (2005): An assessment of the accuracy of stable Fe isotope ratio measurements on samples with organic and inorganic matrices by high-resolution multicollector ICP-MS. International Journal of Mass Spectrometry, 242(2-3), 257-272, https://doi.org/10.1016/j.ijms.2004.11.025
Zhabina, Nina N; Volkov, Igor I (1978): A method of determination of various sulphur compounds in sea sediments and rocks. In: Krumbein, W E (ed.), Environmental biogeochemistry: Methods, metals and assessment, Volume 3, Ann Arbor Science Publishers
Project(s):
Impact of climate induced glacier melt on marine coastal systems, Antarctica (IMCOAST/IMCONet)
Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas (SPP1158)
Funding:
German Research Foundation (DFG), grant/award no. 5472008: Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas
Coverage:
Latitude: -62.231000 * Longitude: -58.649190
Date/Time Start: 2012-01-30T00:00:00 * Date/Time End: 2012-01-30T00:00:00
Minimum DEPTH, sediment/rock: 0.005 m * Maximum DEPTH, sediment/rock: 0.195 m
Event(s):
Potter_Cove_STA04 * Latitude: -62.231000 * Longitude: -58.649190 * Date/Time: 2012-01-30T00:00:00 * Elevation: -11.0 m * Location: Potter Cove, King George Island, Antarctic Peninsula * Method/Device: Gravity corer, UWITEC (GCUWI) * Comment: Elevation error ±1.5 m (tidal range)
Comment:
Methods:
Total acid digestion:
• Dissolution of dry sediment in 3 mL HCl, 2 mL HNO3, and 0.5 mL HF in a CEM Mars Xpress microwave system
• Elemental contents determined by ICP-OES (Iris Intrepid II)
Sequential Fe extraction:
• after Poulton and Canfield (2005) and Henkel et al. (2016)
δ56Fe analysis:
• Processing after Henkel et al. (2016)
• Column separation after Schoenberg and von Blanckenburg (2005)
• Isotope analysis on a ThermoFinnigan Neptune Multicollector-ICP-MS (standard-sample bracketing method with IRMM-014) (Schoenberg and von Blanckenburg 2005)
Acid volatile sulfur (AVS):
• Extraction with 6M HCl (e.g., Cornwell and Morse 1987)
Chromium reducible sulfur (CRS):
• Extraction with CrCl2 solution (e.g., Zhabina and Volkov 1978, Canfield et al. 1986)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
CoreCoreHenkel, Susann
DEPTH, sediment/rockDepth sedmHenkel, SusannGeocode
IronFe%Henkel, Susannwt %
ManganeseMn%Henkel, Susannwt %
Sulfur, totalTS%Henkel, Susannwt %
AluminiumAl%Henkel, Susannwt %
Acid volatile sulfurAVS%Henkel, SusannAcid volatile sulfur (AVS) analysis (Cornwell & Morse, 1987)wt %
Chromium reducible sulfurCRS%Henkel, SusannChromium reducible sulfur (CRS) analysis (Canfield et al., 1986)wt %
IronFe%Henkel, SusannSequential Fe extraction (Poulton & Canfield, 2005; Henkel et al., 2016)Fe_aca, Sodium acetate extraction [wt %]
10 IronFe%Henkel, SusannSequential Fe extraction (Poulton & Canfield, 2005; Henkel et al., 2016)Fe_hyam, HydroxylamineHCl extraction [wt %]
11 IronFe%Henkel, SusannSequential Fe extraction (Poulton & Canfield, 2005; Henkel et al., 2016)Fe_di-ct, Sodium dithionite/Sodium citrate extraction [wt %]
12 IronFe%Henkel, SusannSequential Fe extraction (Poulton & Canfield, 2005; Henkel et al., 2016)Fe_oxa, Oxalate/oxlic acid acid extraction [wt %]
13 δ56/54Feδ56/54FeHenkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_aca, Sodium acetate extraction, relative to IRMM-014
14 δ56/54Fe, standard deviationδ56/54Fe std dev±Henkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_aca, Sodium acetate extraction, relative to IRMM-014
15 δ56/54Feδ56/54FeHenkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_hyam, HydroxylamineHCl extraction, relative to IRMM-014
16 δ56/54Fe, standard deviationδ56/54Fe std dev±Henkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_hyam, HydroxylamineHCl extraction, relative to IRMM-014
17 δ56/54Feδ56/54FeHenkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_di-ct, Sodium dithionite/Sodium citrate extraction, relative to IRMM-014
18 δ56/54Fe, standard deviationδ56/54Fe std dev±Henkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_di-ct, Sodium dithionite/Sodium citrate extraction, relative to IRMM-014
19 δ56/54Feδ56/54FeHenkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_oxa, Oxalate/oxlic acid acid extraction, relative to IRMM-014
20 δ56/54Fe, standard deviationδ56/54Fe std dev±Henkel, SusannMC-ICP-MS Thermo-Finnigan NeptuneFe_oxa, Oxalate/oxlic acid acid extraction, relative to IRMM-014
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
282 data points

Data

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


Core
Depth sed [m]
Fe [%]
(wt %)
Mn [%]
(wt %)
TS [%]
(wt %)
Al [%]
(wt %)
AVS [%]
(wt %, Acid volatile sulfur (A...)
CRS [%]
(wt %, Chromium reducible sulf...)
Fe [%]
(Fe_aca, Sodium acetate extrac...)		10 
Fe [%]
(Fe_hyam, HydroxylamineHCl ext...)		11 
Fe [%]
(Fe_di-ct, Sodium dithionite/S...)		12 
Fe [%]
(Fe_oxa, Oxalate/oxlic acid ac...)		13 
δ56/54Fe []
(Fe_aca, Sodium acetate extrac...)		14 
δ56/54Fe std dev [±]
(Fe_aca, Sodium acetate extrac...)		15 
δ56/54Fe []
(Fe_hyam, HydroxylamineHCl ext...)		16 
δ56/54Fe std dev [±]
(Fe_hyam, HydroxylamineHCl ext...)		17 
δ56/54Fe []
(Fe_di-ct, Sodium dithionite/S...)		18 
δ56/54Fe std dev [±]
(Fe_di-ct, Sodium dithionite/S...)		19 
δ56/54Fe []
(Fe_oxa, Oxalate/oxlic acid ac...)		20 
δ56/54Fe std dev [±]
(Fe_oxa, Oxalate/oxlic acid ac...)
C0.0055.690.100.108.490.000.040.070.191.161.01-0.920.12-0.560.100.220.090.060.11
C0.0156.090.100.088.810.000.120.030.211.130.76-1.080.10-1.040.140.350.090.080.07
C0.0256.060.100.098.810.000.030.020.220.970.82-0.64-0.850.090.360.120.000.15
C0.0356.030.100.098.770.000.080.020.211.070.74-0.760.12-0.660.120.340.080.180.15
C0.0456.000.100.118.810.040.170.070.201.340.77-0.870.14-0.520.100.150.150.200.10
C0.0556.200.100.138.950.010.140.110.221.310.60-1.030.14-0.270.100.210.130.010.09
C0.0656.070.100.128.670.010.120.040.191.110.81-0.950.09-0.700.100.200.130.110.15
C0.0756.110.100.138.860.000.160.100.181.230.73-1.080.14-0.410.130.240.110.200.12
C0.0856.080.100.118.840.000.090.040.101.110.84-0.890.120.270.100.120.09
C0.0955.880.110.088.950.000.150.070.151.161.07-0.850.12-0.280.150.240.090.090.11
C0.1056.040.100.108.790.000.090.070.171.220.82-0.920.12-0.300.130.120.13
C0.1156.010.100.098.680.020.140.040.201.060.73-1.050.16-0.810.140.310.110.180.11
C0.1356.060.100.098.960.010.160.060.181.281.00-0.980.09-0.260.160.030.12
C0.1555.960.100.098.760.10
C0.1755.850.100.108.730.050.110.090.181.200.64-0.470.13-0.190.110.230.100.170.14
C0.1955.750.100.088.790.060.130.060.151.140.93-0.710.11-0.190.100.070.11