Deuterium in marine organic biomarkers: toward a new tool for quantifying aquatic mixotrophy
Deuterium in marine organic biomarkers: toward a new tool for quantifying aquatic mixotrophy
The traditional separation between primary producers (autotrophs) and consumers (heterotrophs) at the base of the marine food web is being increasingly replaced by the paradigm that mixoplankton, planktonic protists with the nutritional ability to use both phago(hetero)trophy and photo(auto)trophy to access energy are widespread globally. Thus, many ‘phytoplankton’ eat, while 50% of ‘protozooplankton’ also perform photosynthesis. Mixotrophy may enhance primary production, biomass transfer to higher trophic levels and the efficiency of the biological pump to sequester atmospheric CO2 into the deep ocean. Although this view is gaining traction, science lacks a tool to quantify the relative contributions of autotrophy and heterotrophy in planktonic protists. This hinders our understanding of their impacts on carbon cycling within marine pelagic ecosystems. It has been shown that the hydrogen (H) isotopic signature of lipids is uniquely sensitive to heterotrophy relative to autotrophy in plants and bacteria. Here, we explored whether it is also sensitive to the trophic status in protists. The new understanding of H isotope signature of lipid biomarkers suggests it offers great potential as a novel tool for quantifying the prevalence of mixotrophy in diverse marine microorganisms and thus for investigating the implications of the ‘mixoplankton’ paradigm.
776-782
Cormier, Marc‐André
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Berard, Jean‐Baptiste
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Bougaran, Gaël
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Trueman, Clive N.
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Mayor, Daniel J.
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Lampitt, Richard S.
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Kruger, Nicholas J.
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Flynn, Kevin J.
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Rickaby, Rosalind E.M.
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May 2022
Cormier, Marc‐André
4dc47751-b2de-419c-9670-ec43ec3df1bc
Berard, Jean‐Baptiste
6e41791f-b698-49b8-874c-9ae2d79a6a28
Bougaran, Gaël
ed755468-b82f-4401-b9ff-0a1b151bb071
Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Mayor, Daniel J.
a2a9c29e-ffdc-4858-ad65-3a235824a4c9
Lampitt, Richard S.
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Kruger, Nicholas J.
d7c09318-82de-41e2-842f-ad560d40c90f
Flynn, Kevin J.
cd4993dd-06a3-4991-9dc2-8328e58d39ac
Rickaby, Rosalind E.M.
33cf49a9-c24c-46e1-aed4-4ce6f8e956db
Cormier, Marc‐André, Berard, Jean‐Baptiste, Bougaran, Gaël, Trueman, Clive N., Mayor, Daniel J., Lampitt, Richard S., Kruger, Nicholas J., Flynn, Kevin J. and Rickaby, Rosalind E.M.
(2022)
Deuterium in marine organic biomarkers: toward a new tool for quantifying aquatic mixotrophy.
New Phytologist, 234 (3), .
(doi:10.1111/nph.18023).
Abstract
The traditional separation between primary producers (autotrophs) and consumers (heterotrophs) at the base of the marine food web is being increasingly replaced by the paradigm that mixoplankton, planktonic protists with the nutritional ability to use both phago(hetero)trophy and photo(auto)trophy to access energy are widespread globally. Thus, many ‘phytoplankton’ eat, while 50% of ‘protozooplankton’ also perform photosynthesis. Mixotrophy may enhance primary production, biomass transfer to higher trophic levels and the efficiency of the biological pump to sequester atmospheric CO2 into the deep ocean. Although this view is gaining traction, science lacks a tool to quantify the relative contributions of autotrophy and heterotrophy in planktonic protists. This hinders our understanding of their impacts on carbon cycling within marine pelagic ecosystems. It has been shown that the hydrogen (H) isotopic signature of lipids is uniquely sensitive to heterotrophy relative to autotrophy in plants and bacteria. Here, we explored whether it is also sensitive to the trophic status in protists. The new understanding of H isotope signature of lipid biomarkers suggests it offers great potential as a novel tool for quantifying the prevalence of mixotrophy in diverse marine microorganisms and thus for investigating the implications of the ‘mixoplankton’ paradigm.
Text
New Phytologist - 2022 - Cormier - Deuterium in marine organic biomarkers toward a new tool for quantifying aquatic
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Accepted/In Press date: 3 February 2022
e-pub ahead of print date: 8 February 2022
Published date: May 2022
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Local EPrints ID: 491046
URI: http://eprints.soton.ac.uk/id/eprint/491046
ISSN: 0028-646X
PURE UUID: aba18e73-66a3-4d22-9a8a-7735bfb625a8
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Date deposited: 11 Jun 2024 16:45
Last modified: 12 Jun 2024 01:39
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Contributors
Author:
Marc‐André Cormier
Author:
Jean‐Baptiste Berard
Author:
Gaël Bougaran
Author:
Daniel J. Mayor
Author:
Richard S. Lampitt
Author:
Nicholas J. Kruger
Author:
Kevin J. Flynn
Author:
Rosalind E.M. Rickaby
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