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Diploptene δ13C values from contemporary thermokarst lake sediments show complex spatial variation

Diploptene δ13C values from contemporary thermokarst lake sediments show complex spatial variation
Diploptene δ13C values from contemporary thermokarst lake sediments show complex spatial variation
Cryospheric changes in northern high latitudes are linked to significant greenhouse gas flux to the atmosphere, for example, methane that originates from organic matter decomposition in thermokarst lakes. The set of pathways that link methane production in sediments, via oxidation in the lake system, to the flux of residual methane to the atmosphere is complex and exhibits temporal and spatial variation. The isotopic signal of bacterial biomarkers (hopanoids, e.g. diploptene) in sediments has been used to identify contemporary ocean-floor methane seeps and, in the geological record, periods of enhanced methane production (e.g. the PETM). The biomarker approach could potentially be used to assess temporal changes in lake emissions through the Holocene via the sedimentary biomarker record. However, there are no data on the consistency of the signal of isotopic depletion in relation to source or on the amount of noise (unexplained variation) in biomarker values from modern lake sediments. We assessed methane oxidation as represented by the isotopic signal of biomarkers from methane oxidising bacteria (MOB) in multiple surface sediment samples in three distinct areas known to emit varying levels of methane in two shallow Alaskan thermokarst lakes. Diploptene was present and had d13C values lower than -38‰ in all sediments analysed, suggesting methane oxidation was widespread. However, there was considerable variation in d13C values within each area. The most 13C-depleted diploptene was found in an area of high methane ebullition in Ace Lake (diploptene d13C values between -68.2 and -50.1‰). In contrast, significantly higher diploptene d13C values (between -42.9 and -38.8‰) were found in an area of methane ebullition in Smith Lake. d13C values of diploptene between -56.8 and -46.9‰ were found in the centre of Smith Lake, where ebullition rates are low but diffusive methane efflux occurs. The small-scale heterogeneity of the samples may reflect patchy distribution of substrate and/or MOB within the sediments. The two ebullition areas differ in age and type of organic carbon substrate, which may affect methane production, transport, and subsequent oxidation. Given the high amount of variation in surface samples, a more extensive calibration of modern sediment properties, within and among lakes, is required before down-core records of hopanoid isotopic signatures are developed.
1726-4170
2611-2621
Davies, Kimberley L.
efe232d5-e775-43fa-a29d-fdf620a663cc
Pancost, Richard D.
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Edwards, Mary E.
4b6a3389-f3a4-4933-b8fd-acdfef72200e
Walter-Antony, Katey M.
911841a6-36f9-40d5-a865-21a83d349ab0
Langdon, Peter G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Chaves Torres, Lidia
80bd4994-0fa8-4501-83d1-5e4f4e7af214
Davies, Kimberley L.
efe232d5-e775-43fa-a29d-fdf620a663cc
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Edwards, Mary E.
4b6a3389-f3a4-4933-b8fd-acdfef72200e
Walter-Antony, Katey M.
911841a6-36f9-40d5-a865-21a83d349ab0
Langdon, Peter G.
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Chaves Torres, Lidia
80bd4994-0fa8-4501-83d1-5e4f4e7af214

Davies, Kimberley L., Pancost, Richard D., Edwards, Mary E., Walter-Antony, Katey M., Langdon, Peter G. and Chaves Torres, Lidia (2016) Diploptene δ13C values from contemporary thermokarst lake sediments show complex spatial variation. Biogeosciences, 13, 2611-2621. (doi:10.5194/bg-13-2611-2016).

Record type: Article

Abstract

Cryospheric changes in northern high latitudes are linked to significant greenhouse gas flux to the atmosphere, for example, methane that originates from organic matter decomposition in thermokarst lakes. The set of pathways that link methane production in sediments, via oxidation in the lake system, to the flux of residual methane to the atmosphere is complex and exhibits temporal and spatial variation. The isotopic signal of bacterial biomarkers (hopanoids, e.g. diploptene) in sediments has been used to identify contemporary ocean-floor methane seeps and, in the geological record, periods of enhanced methane production (e.g. the PETM). The biomarker approach could potentially be used to assess temporal changes in lake emissions through the Holocene via the sedimentary biomarker record. However, there are no data on the consistency of the signal of isotopic depletion in relation to source or on the amount of noise (unexplained variation) in biomarker values from modern lake sediments. We assessed methane oxidation as represented by the isotopic signal of biomarkers from methane oxidising bacteria (MOB) in multiple surface sediment samples in three distinct areas known to emit varying levels of methane in two shallow Alaskan thermokarst lakes. Diploptene was present and had d13C values lower than -38‰ in all sediments analysed, suggesting methane oxidation was widespread. However, there was considerable variation in d13C values within each area. The most 13C-depleted diploptene was found in an area of high methane ebullition in Ace Lake (diploptene d13C values between -68.2 and -50.1‰). In contrast, significantly higher diploptene d13C values (between -42.9 and -38.8‰) were found in an area of methane ebullition in Smith Lake. d13C values of diploptene between -56.8 and -46.9‰ were found in the centre of Smith Lake, where ebullition rates are low but diffusive methane efflux occurs. The small-scale heterogeneity of the samples may reflect patchy distribution of substrate and/or MOB within the sediments. The two ebullition areas differ in age and type of organic carbon substrate, which may affect methane production, transport, and subsequent oxidation. Given the high amount of variation in surface samples, a more extensive calibration of modern sediment properties, within and among lakes, is required before down-core records of hopanoid isotopic signatures are developed.

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Accepted/In Press date: 7 April 2016
e-pub ahead of print date: 2 May 2016
Organisations: Palaeoenvironment Laboratory (PLUS)

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Local EPrints ID: 393831
URI: http://eprints.soton.ac.uk/id/eprint/393831
DOI: doi:10.5194/bg-13-2611-2016
ISSN: 1726-4170
PURE UUID: 39da2238-11ea-4b9c-a1f5-cc71d99390c5
ORCID for Mary E. Edwards: ORCID iD orcid.org/0000-0002-3490-6682
ORCID for Peter G. Langdon: ORCID iD orcid.org/0000-0003-2724-2643

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Date deposited: 06 May 2016 09:46
Last modified: 15 Mar 2024 03:13

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Author: Kimberley L. Davies
Author: Richard D. Pancost
Author: Mary E. Edwards ORCID iD
Author: Katey M. Walter-Antony
Author: Peter G. Langdon ORCID iD
Author: Lidia Chaves Torres

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