Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry

Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry

Phytoplankton stand at the base of the marine food-web, and play a major role in global carbon cycling. Rising CO2 levels and temperatures are expected to enhance growth and alter carbon:nutrient stoichiometry of marine phytoplankton, with possible consequences for the functioning of marine food-webs and the oceanic carbon pump. To date, however, the consistency of phytoplankton stoichiometric responses remains unclear. We therefore performed a meta-analysis on data from experimental studies on stoichiometric responses of marine phytoplankton to elevated pCO2 and 3–5° warming under nutrient replete and limited conditions. Our results demonstrate that elevated pCO2 increased overall phytoplankton C:N (by 4%) and C:P (by 9%) molar ratios under nutrient replete conditions, as well as phytoplankton growth rates (by 6%). Nutrient limitation amplified the CO2 effect on C:N and C:P ratios, with increases to 27% and 17%, respectively. In contrast to elevated pCO2, warming did not consistently alter phytoplankton elemental composition. This could be attributed to species- and study-specific increases and decreases in stoichiometry in response to warming. While our observed moderate CO2-driven changes in stoichiometry are not likely to drive marked changes in food web functioning, they are in the same order of magnitude as current and projected estimations of oceanic carbon export. Therefore, our results may indicate a stoichiometric compensation mechanism for reduced oceanic carbon export due to declining primary production in the near future.

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Main Authors: Velthuis, Mandy, Keuskamp, Joost A., Bakker, Elisabeth S., Boersma, Maarten, Sommer, Ulrich, van Donk, Ellen, Van de Waal, Dedmer B.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Life Science,
Online Access:https://research.wur.nl/en/publications/differential-effects-of-elevated-pcosub2sub-and-warming-on-marine
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spelling dig-wur-nl-wurpubs-5938812024-12-04 Velthuis, Mandy Keuskamp, Joost A. Bakker, Elisabeth S. Boersma, Maarten Sommer, Ulrich van Donk, Ellen Van de Waal, Dedmer B. Article/Letter to editor Limnology and Oceanography 67 (2022) 3 ISSN: 0024-3590 Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry 2022 Phytoplankton stand at the base of the marine food-web, and play a major role in global carbon cycling. Rising CO2 levels and temperatures are expected to enhance growth and alter carbon:nutrient stoichiometry of marine phytoplankton, with possible consequences for the functioning of marine food-webs and the oceanic carbon pump. To date, however, the consistency of phytoplankton stoichiometric responses remains unclear. We therefore performed a meta-analysis on data from experimental studies on stoichiometric responses of marine phytoplankton to elevated pCO2 and 3–5° warming under nutrient replete and limited conditions. Our results demonstrate that elevated pCO2 increased overall phytoplankton C:N (by 4%) and C:P (by 9%) molar ratios under nutrient replete conditions, as well as phytoplankton growth rates (by 6%). Nutrient limitation amplified the CO2 effect on C:N and C:P ratios, with increases to 27% and 17%, respectively. In contrast to elevated pCO2, warming did not consistently alter phytoplankton elemental composition. This could be attributed to species- and study-specific increases and decreases in stoichiometry in response to warming. While our observed moderate CO2-driven changes in stoichiometry are not likely to drive marked changes in food web functioning, they are in the same order of magnitude as current and projected estimations of oceanic carbon export. Therefore, our results may indicate a stoichiometric compensation mechanism for reduced oceanic carbon export due to declining primary production in the near future. en application/pdf https://research.wur.nl/en/publications/differential-effects-of-elevated-pcosub2sub-and-warming-on-marine 10.1002/lno.12020 https://edepot.wur.nl/564041 Life Science https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Life Science
Life Science
spellingShingle Life Science
Life Science
Velthuis, Mandy
Keuskamp, Joost A.
Bakker, Elisabeth S.
Boersma, Maarten
Sommer, Ulrich
van Donk, Ellen
Van de Waal, Dedmer B.
Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
description Phytoplankton stand at the base of the marine food-web, and play a major role in global carbon cycling. Rising CO2 levels and temperatures are expected to enhance growth and alter carbon:nutrient stoichiometry of marine phytoplankton, with possible consequences for the functioning of marine food-webs and the oceanic carbon pump. To date, however, the consistency of phytoplankton stoichiometric responses remains unclear. We therefore performed a meta-analysis on data from experimental studies on stoichiometric responses of marine phytoplankton to elevated pCO2 and 3–5° warming under nutrient replete and limited conditions. Our results demonstrate that elevated pCO2 increased overall phytoplankton C:N (by 4%) and C:P (by 9%) molar ratios under nutrient replete conditions, as well as phytoplankton growth rates (by 6%). Nutrient limitation amplified the CO2 effect on C:N and C:P ratios, with increases to 27% and 17%, respectively. In contrast to elevated pCO2, warming did not consistently alter phytoplankton elemental composition. This could be attributed to species- and study-specific increases and decreases in stoichiometry in response to warming. While our observed moderate CO2-driven changes in stoichiometry are not likely to drive marked changes in food web functioning, they are in the same order of magnitude as current and projected estimations of oceanic carbon export. Therefore, our results may indicate a stoichiometric compensation mechanism for reduced oceanic carbon export due to declining primary production in the near future.
format Article/Letter to editor
topic_facet Life Science
author Velthuis, Mandy
Keuskamp, Joost A.
Bakker, Elisabeth S.
Boersma, Maarten
Sommer, Ulrich
van Donk, Ellen
Van de Waal, Dedmer B.
author_facet Velthuis, Mandy
Keuskamp, Joost A.
Bakker, Elisabeth S.
Boersma, Maarten
Sommer, Ulrich
van Donk, Ellen
Van de Waal, Dedmer B.
author_sort Velthuis, Mandy
title Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
title_short Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
title_full Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
title_fullStr Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
title_full_unstemmed Differential effects of elevated pCO2 and warming on marine phytoplankton stoichiometry
title_sort differential effects of elevated pco2 and warming on marine phytoplankton stoichiometry
url https://research.wur.nl/en/publications/differential-effects-of-elevated-pcosub2sub-and-warming-on-marine
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