Diagenetic Mg-calcite overgrowths on foraminiferal tests in the vicinity of methane seeps
Diagenetic Mg-calcite overgrowths on foraminiferal tests in the vicinity of methane seeps
Methane is a potent greenhouse gas and some episodes of past global warming appear to coincide with its massive release from seafloor sediments as suggested by carbon isotope records of foraminifera. Here, we present structural, geochemical, and stable carbon isotope data from single foraminiferal calcite tests and authigenic Mg-calcite overgrowths in a sediment core recovered from an area of active methane seepage in western Svalbard at ca. 340 m water depth. The foraminifera are from intervals in the core where conventional bulk foraminiferal δ13C values are as low as -11.3 ‰. Mg/Ca analyses of the foraminiferal tests reveal that even tests for which there is no morphological evidence for secondary authigenic carbonate can contain Mg-rich interlayers with Mg/Ca up to 220 mmol/mol. Transmission electron microscopy (TEM) of the contact point between the biogenic calcite and authigenic Mg-calcite layers shows that the two phases are structurally indistinguishable and they have the same crystallographic orientation. Secondary ion mass spectrometry (SIMS) analyses reveal that the Mg-rich layers are strongly depleted in 13C (δ13C as low as -34.1 ‰). These very low δ13C values indicate that the authigenic Mg-calcite precipitated from pore waters containing methane-derived dissolved inorganic carbon at the depth of the sulfate–methane transition zone (SMTZ). As the depth of the SMTZ can be located several meters below the sediment-seawater interface, interpretation of low foraminiferal δ13C values in ancient sediments in terms of the history of methane seepage at the seafloor must be undertaken with care.
foraminifera, Mg-calcite, diagenesis, methane seeps, authigenic carbonates
203-212
Panieri, Giuliana
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Lepland, Aivo
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Whitehouse, Martin J.
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Wirth, Richard
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Raanes, Morten P.
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James, Rachael H.
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Graves, Carolyn A.
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Crémière, Antoine
aa56bc39-0ada-4a7a-ac9d-ad7f6c318fa2
Schneider, Andrea
85edd58e-a552-48a1-a2ad-7a880f51390b
15 January 2017
Panieri, Giuliana
c0559a7d-cf2c-4d0a-b61a-60889e963164
Lepland, Aivo
b01ce445-f089-4806-9a18-ea7ccc80c6df
Whitehouse, Martin J.
11863f4d-2c6c-4b38-b0ee-73f8ccc4532d
Wirth, Richard
b49205d5-0ed9-4775-aeb6-3582629e024f
Raanes, Morten P.
60802e2f-2671-41c1-9a98-10072a7230e6
James, Rachael H.
79aa1d5c-675d-4ba3-85be-fb20798c02f4
Graves, Carolyn A.
1dc9598b-51c7-46cd-9554-e6849e794703
Crémière, Antoine
aa56bc39-0ada-4a7a-ac9d-ad7f6c318fa2
Schneider, Andrea
85edd58e-a552-48a1-a2ad-7a880f51390b
Panieri, Giuliana, Lepland, Aivo, Whitehouse, Martin J., Wirth, Richard, Raanes, Morten P., James, Rachael H., Graves, Carolyn A., Crémière, Antoine and Schneider, Andrea
(2017)
Diagenetic Mg-calcite overgrowths on foraminiferal tests in the vicinity of methane seeps.
Earth and Planetary Science Letters, 458, .
(doi:10.1016/j.epsl.2016.10.024).
Abstract
Methane is a potent greenhouse gas and some episodes of past global warming appear to coincide with its massive release from seafloor sediments as suggested by carbon isotope records of foraminifera. Here, we present structural, geochemical, and stable carbon isotope data from single foraminiferal calcite tests and authigenic Mg-calcite overgrowths in a sediment core recovered from an area of active methane seepage in western Svalbard at ca. 340 m water depth. The foraminifera are from intervals in the core where conventional bulk foraminiferal δ13C values are as low as -11.3 ‰. Mg/Ca analyses of the foraminiferal tests reveal that even tests for which there is no morphological evidence for secondary authigenic carbonate can contain Mg-rich interlayers with Mg/Ca up to 220 mmol/mol. Transmission electron microscopy (TEM) of the contact point between the biogenic calcite and authigenic Mg-calcite layers shows that the two phases are structurally indistinguishable and they have the same crystallographic orientation. Secondary ion mass spectrometry (SIMS) analyses reveal that the Mg-rich layers are strongly depleted in 13C (δ13C as low as -34.1 ‰). These very low δ13C values indicate that the authigenic Mg-calcite precipitated from pore waters containing methane-derived dissolved inorganic carbon at the depth of the sulfate–methane transition zone (SMTZ). As the depth of the SMTZ can be located several meters below the sediment-seawater interface, interpretation of low foraminiferal δ13C values in ancient sediments in terms of the history of methane seepage at the seafloor must be undertaken with care.
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Panieri et al 2017.pdf
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More information
Accepted/In Press date: 15 October 2016
e-pub ahead of print date: 10 November 2016
Published date: 15 January 2017
Keywords:
foraminifera, Mg-calcite, diagenesis, methane seeps, authigenic carbonates
Organisations:
Geochemistry
Identifiers
Local EPrints ID: 405038
URI: http://eprints.soton.ac.uk/id/eprint/405038
ISSN: 0012-821X
PURE UUID: 7a579e03-8f2e-412f-ad0b-2f48fd8bd467
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Date deposited: 23 Jan 2017 13:44
Last modified: 16 Mar 2024 03:57
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Contributors
Author:
Giuliana Panieri
Author:
Aivo Lepland
Author:
Martin J. Whitehouse
Author:
Richard Wirth
Author:
Morten P. Raanes
Author:
Carolyn A. Graves
Author:
Antoine Crémière
Author:
Andrea Schneider
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