Interpretation and application of carbon isotope ratios in freshwater diatom silica
Interpretation and application of carbon isotope ratios in freshwater diatom silica
Carbon incorporated into diatom frustule walls is protected from degradation enabling analysis for carbon isotope composition (?13Cdiatom). This presents potential for tracing carbon cycles via a single photosynthetic host with well-constrained ecophysiology. Improved understanding of environmental processes controlling carbon delivery and assimilation is essential to interpret changes in freshwater ?13Cdiatom. Here relationships between water chemistry and ?13Cdiatom from contemporary regional data sets are investigated. Modern diatom and water samples were collected from river catchments within England and lake sediments from across Europe. The data suggest dissolved, biogenically produced carbon supplied proportionately to catchment productivity was critical in the rivers and soft water lakes. However, dissolved carbon from calcareous geology overwhelmed the carbon signature in hard water catchments. Both results demonstrate carbon source characteristics were the most important control on ?13Cdiatom, with a greater impact than productivity. Application of these principles was made to a sediment record from Lake Tanganyika. ?13Cdiatom co-varied with ?13Cbulk through the last glacial and Holocene. This suggests carbon supply was again dominant and exceeded authigenic demand. This first systematic evaluation of contemporary ?13Cdiatom controls demonstrates that diatoms have the potential to supply a record of carbon cycling through lake catchments from sediment records over millennial timescales.
300-309
Webb, Megan
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Barker, Philip A.
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Wynn, Peter M.
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Heiri, Oliver
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Van Hardenbroek, Maarten
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Pick, Frances
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Russell, James M.
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Stott, Andy W.
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Leng, Melanie J.
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Webb, Megan
e41deef1-c1e3-4772-b791-cf3ec0e06696
Barker, Philip A.
eef309a6-f2f0-48aa-9d3b-a8ff2c2cc1a0
Wynn, Peter M.
acee4d9d-2d45-4f3d-a00e-8873fa09a98b
Heiri, Oliver
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Van Hardenbroek, Maarten
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Pick, Frances
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Russell, James M.
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Stott, Andy W.
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Leng, Melanie J.
71755042-2b5f-44a6-8420-019f13a4a946
Webb, Megan, Barker, Philip A., Wynn, Peter M., Heiri, Oliver, Van Hardenbroek, Maarten, Pick, Frances, Russell, James M., Stott, Andy W. and Leng, Melanie J.
(2016)
Interpretation and application of carbon isotope ratios in freshwater diatom silica.
Journal of Quaternary Science, 31 (4), .
(doi:10.1002/jqs.2837).
Abstract
Carbon incorporated into diatom frustule walls is protected from degradation enabling analysis for carbon isotope composition (?13Cdiatom). This presents potential for tracing carbon cycles via a single photosynthetic host with well-constrained ecophysiology. Improved understanding of environmental processes controlling carbon delivery and assimilation is essential to interpret changes in freshwater ?13Cdiatom. Here relationships between water chemistry and ?13Cdiatom from contemporary regional data sets are investigated. Modern diatom and water samples were collected from river catchments within England and lake sediments from across Europe. The data suggest dissolved, biogenically produced carbon supplied proportionately to catchment productivity was critical in the rivers and soft water lakes. However, dissolved carbon from calcareous geology overwhelmed the carbon signature in hard water catchments. Both results demonstrate carbon source characteristics were the most important control on ?13Cdiatom, with a greater impact than productivity. Application of these principles was made to a sediment record from Lake Tanganyika. ?13Cdiatom co-varied with ?13Cbulk through the last glacial and Holocene. This suggests carbon supply was again dominant and exceeded authigenic demand. This first systematic evaluation of contemporary ?13Cdiatom controls demonstrates that diatoms have the potential to supply a record of carbon cycling through lake catchments from sediment records over millennial timescales.
Text
Webb et al 2016 C isotopes diatom frustules.pdf
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Accepted/In Press date: 22 December 2015
e-pub ahead of print date: 17 June 2016
Organisations:
Palaeoenvironment Laboratory (PLUS)
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Local EPrints ID: 397098
URI: http://eprints.soton.ac.uk/id/eprint/397098
ISSN: 0267-8179
PURE UUID: 0cd2f0f1-7b5a-4777-ac7f-ea82d5afcb89
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Date deposited: 27 Jun 2016 15:13
Last modified: 15 Mar 2024 01:06
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Author:
Megan Webb
Author:
Philip A. Barker
Author:
Peter M. Wynn
Author:
Oliver Heiri
Author:
Maarten Van Hardenbroek
Author:
Frances Pick
Author:
James M. Russell
Author:
Andy W. Stott
Author:
Melanie J. Leng
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