Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:

Organic carbon occluded in diatom silica is assumed to be protected from degradation in the sediment. δ13C from diatom carbon (δ13C(diatom)) therefore potentially provides a signal of conditions during diatom growth. However, there have been few studies based on δ13C(diatom). Numerous variables can...

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Main Authors: Berg, S., Leng, M.J., Kendrick, C.P., Cremer, H., Wagner, B.
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
Geosciences
Carbon isotopes
Coastal marine
Diatoms
East Antarctica
Rauer Group
Biogeochemistry
Biological materials
Carbon
Carbon dioxide
Climatology
Environmental engineering
Isotopes
Nutrients
Organic compounds
Sedimentology
Silica
Sediments
Geological Survey Netherlands
Energy / Geological Survey Netherlands
Earth & Environment
PG - Petroleum Geosciences
EELS - Earth
Environmental and Life Sciences
Southern Ocean
Antarc*
Antarctica
Online Access:http://resolver.tudelft.nl/uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65
id fttno:oai:tudelft.nl:uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65
record_format openpolar
spelling fttno:oai:tudelft.nl:uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65 2023-05-15T13:51:55+02:00 Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica: Berg, S. Leng, M.J. Kendrick, C.P. Cremer, H. Wagner, B. 2013-01-01 http://resolver.tudelft.nl/uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65 en eng uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65 470028 http://resolver.tudelft.nl/uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65 Silicon, 1, 5, 19-34 Geosciences Carbon isotopes Coastal marine Diatoms East Antarctica Rauer Group Biogeochemistry Biological materials Carbon Carbon dioxide Climatology Environmental engineering Isotopes Nutrients Organic compounds Sedimentology Silica Sediments Geological Survey Netherlands Energy / Geological Survey Netherlands Earth & Environment PG - Petroleum Geosciences EELS - Earth Environmental and Life Sciences article 2013 fttno 2022-04-10T16:03:13Z Organic carbon occluded in diatom silica is assumed to be protected from degradation in the sediment. δ13C from diatom carbon (δ13C(diatom)) therefore potentially provides a signal of conditions during diatom growth. However, there have been few studies based on δ13C(diatom). Numerous variables can influence δ13C of organic matter in the marine environment (e. g., salinity, light, nutrient and CO2 availability). Here we compare δ13C(diatom) and δ13C(TOC) from three sediment records from individual marine inlets (Rauer Group, East Antarctica) to (i) investigate deviations between δ13C(diatom) and δ13C(TOC), to (ii) identify biological and environmental controls on δ13C(diatom) and δ13C(TOC), and to (iii) discuss δ13C(diatom) as a proxy for environmental and climate reconstructions. The records show individual δ13C(diatom) and δ13C(TOC) characteristics, which indicates that δ13C is not primarily controlled by regional climate or atmospheric CO2 concentration. Since the inlets vary in water depths offsets in δ13C are probably related to differences in water column stratification and mixing, which influences redistribution of nutrients and carbon within each inlet. In our dataset changes in δ13C(diatom) and δ13C(TOC) could not unequivocally be ascribed to changes in diatom species composition, either because the variation in δ13C(diatom) between the observed species is too small or because other environmental controls are more dominant. Records from the Southern Ocean show depleted δ13C(diatom) values (1-4 ‰) during glacial times compared to the Holocene. Although climate variability throughout the Holocene is low compared to glacial/interglacial variability, we find variability in δ13C(diatom), which is in the same order of magnitude. δ13C of organic matter produced in the costal marine environment seems to be much more sensitive to environmental changes than open ocean sites and δ13C is of strongly local nature. © 2012 Springer Science+Business Media B.V. Article in Journal/Newspaper Antarc* Antarctica East Antarctica Southern Ocean TU Delft: Institutional Repository (Delft University of Technology) East Antarctica Rauer Group ENVELOPE(77.833,77.833,-68.850,-68.850) Southern Ocean
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Geosciences
Carbon isotopes
Coastal marine
Diatoms
East Antarctica
Rauer Group
Biogeochemistry
Biological materials
Carbon
Carbon dioxide
Climatology
Environmental engineering
Isotopes
Nutrients
Organic compounds
Sedimentology
Silica
Sediments
Geological Survey Netherlands
Energy / Geological Survey Netherlands
Earth & Environment
PG - Petroleum Geosciences
EELS - Earth
Environmental and Life Sciences
spellingShingle Geosciences
Carbon isotopes
Coastal marine
Diatoms
East Antarctica
Rauer Group
Biogeochemistry
Biological materials
Carbon
Carbon dioxide
Climatology
Environmental engineering
Isotopes
Nutrients
Organic compounds
Sedimentology
Silica
Sediments
Geological Survey Netherlands
Energy / Geological Survey Netherlands
Earth & Environment
PG - Petroleum Geosciences
EELS - Earth
Environmental and Life Sciences
Berg, S.
Leng, M.J.
Kendrick, C.P.
Cremer, H.
Wagner, B.
Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
topic_facet Geosciences
Carbon isotopes
Coastal marine
Diatoms
East Antarctica
Rauer Group
Biogeochemistry
Biological materials
Carbon
Carbon dioxide
Climatology
Environmental engineering
Isotopes
Nutrients
Organic compounds
Sedimentology
Silica
Sediments
Geological Survey Netherlands
Energy / Geological Survey Netherlands
Earth & Environment
PG - Petroleum Geosciences
EELS - Earth
Environmental and Life Sciences
description Organic carbon occluded in diatom silica is assumed to be protected from degradation in the sediment. δ13C from diatom carbon (δ13C(diatom)) therefore potentially provides a signal of conditions during diatom growth. However, there have been few studies based on δ13C(diatom). Numerous variables can influence δ13C of organic matter in the marine environment (e. g., salinity, light, nutrient and CO2 availability). Here we compare δ13C(diatom) and δ13C(TOC) from three sediment records from individual marine inlets (Rauer Group, East Antarctica) to (i) investigate deviations between δ13C(diatom) and δ13C(TOC), to (ii) identify biological and environmental controls on δ13C(diatom) and δ13C(TOC), and to (iii) discuss δ13C(diatom) as a proxy for environmental and climate reconstructions. The records show individual δ13C(diatom) and δ13C(TOC) characteristics, which indicates that δ13C is not primarily controlled by regional climate or atmospheric CO2 concentration. Since the inlets vary in water depths offsets in δ13C are probably related to differences in water column stratification and mixing, which influences redistribution of nutrients and carbon within each inlet. In our dataset changes in δ13C(diatom) and δ13C(TOC) could not unequivocally be ascribed to changes in diatom species composition, either because the variation in δ13C(diatom) between the observed species is too small or because other environmental controls are more dominant. Records from the Southern Ocean show depleted δ13C(diatom) values (1-4 ‰) during glacial times compared to the Holocene. Although climate variability throughout the Holocene is low compared to glacial/interglacial variability, we find variability in δ13C(diatom), which is in the same order of magnitude. δ13C of organic matter produced in the costal marine environment seems to be much more sensitive to environmental changes than open ocean sites and δ13C is of strongly local nature. © 2012 Springer Science+Business Media B.V.
format Article in Journal/Newspaper
author Berg, S.
Leng, M.J.
Kendrick, C.P.
Cremer, H.
Wagner, B.
author_facet Berg, S.
Leng, M.J.
Kendrick, C.P.
Cremer, H.
Wagner, B.
author_sort Berg, S.
title Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
title_short Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
title_full Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
title_fullStr Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
title_full_unstemmed Bulk Sediment and Diatom Silica Carbon Isotope Composition from Coastal Marine Sediments off East Antarctica:
title_sort bulk sediment and diatom silica carbon isotope composition from coastal marine sediments off east antarctica:
publishDate 2013
url http://resolver.tudelft.nl/uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65
long_lat ENVELOPE(77.833,77.833,-68.850,-68.850)
geographic East Antarctica
Rauer Group
Southern Ocean
geographic_facet East Antarctica
Rauer Group
Southern Ocean
genre Antarc*
Antarctica
East Antarctica
Southern Ocean
genre_facet Antarc*
Antarctica
East Antarctica
Southern Ocean
op_source Silicon, 1, 5, 19-34
op_relation uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65
470028
http://resolver.tudelft.nl/uuid:5e77fb98-8da5-42c4-842f-3e36165e6a65
_version_ 1766255954260656128

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