Response of diatoms distribution to global warming and potential implications: A global model study

Laurent Bopp; O. Aumont; P. Cadule; S. Alvain; M. Gehlen

doi:10.1029/2005GL023653

Response of diatoms distribution to global warming and potential implications: A global model study

Laurent Bopp
, O. Aumont
, P. Cadule
, S. Alvain
, M. Gehlen

Research output: Contribution to journal › Article › peer-review

Abstract

Using a global model of ocean biogeochemistry coupled to a climate model, we explore ihe effect of climate change on the distribution of diatoms, a key phytoplankton functional group. Our model results suggest that climate change leads to more nutrient-depleted conditions in the surface ocean and that it favors small phytoplankton at the expense of diatoms. At 4×CO₂, diatoms relative abundance is reduced by more than 10% at the global scale and by up to 60% in the North Atlantic and in the subantarctic Pacific. This simulated change in the ecosystem structure impacts oceanic carbon uptake by reducing the efficiency of the biological pump, thus contributing to the positive feedback between climate change and the ocean carbon cycle. However, our model simulations do not identify this biological mechanism as a first-order process in the response of ocean carbon uptake to climate change.

Original language	English
Article number	L19606
Pages (from-to)	1-4
Number of pages	4
Journal	Geophysical Research Letters
Volume	32
Issue number	19
DOIs	https://doi.org/10.1029/2005GL023653
Publication status	Published - 16 Oct 2005

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title = "Response of diatoms distribution to global warming and potential implications: A global model study",

abstract = "Using a global model of ocean biogeochemistry coupled to a climate model, we explore ihe effect of climate change on the distribution of diatoms, a key phytoplankton functional group. Our model results suggest that climate change leads to more nutrient-depleted conditions in the surface ocean and that it favors small phytoplankton at the expense of diatoms. At 4×CO2, diatoms relative abundance is reduced by more than 10\% at the global scale and by up to 60\% in the North Atlantic and in the subantarctic Pacific. This simulated change in the ecosystem structure impacts oceanic carbon uptake by reducing the efficiency of the biological pump, thus contributing to the positive feedback between climate change and the ocean carbon cycle. However, our model simulations do not identify this biological mechanism as a first-order process in the response of ocean carbon uptake to climate change.",

author = "Laurent Bopp and O. Aumont and P. Cadule and S. Alvain and M. Gehlen",

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T1 - Response of diatoms distribution to global warming and potential implications

T2 - A global model study

AU - Bopp, Laurent

AU - Aumont, O.

AU - Cadule, P.

AU - Alvain, S.

AU - Gehlen, M.

PY - 2005/10/16

Y1 - 2005/10/16

N2 - Using a global model of ocean biogeochemistry coupled to a climate model, we explore ihe effect of climate change on the distribution of diatoms, a key phytoplankton functional group. Our model results suggest that climate change leads to more nutrient-depleted conditions in the surface ocean and that it favors small phytoplankton at the expense of diatoms. At 4×CO2, diatoms relative abundance is reduced by more than 10% at the global scale and by up to 60% in the North Atlantic and in the subantarctic Pacific. This simulated change in the ecosystem structure impacts oceanic carbon uptake by reducing the efficiency of the biological pump, thus contributing to the positive feedback between climate change and the ocean carbon cycle. However, our model simulations do not identify this biological mechanism as a first-order process in the response of ocean carbon uptake to climate change.

AB - Using a global model of ocean biogeochemistry coupled to a climate model, we explore ihe effect of climate change on the distribution of diatoms, a key phytoplankton functional group. Our model results suggest that climate change leads to more nutrient-depleted conditions in the surface ocean and that it favors small phytoplankton at the expense of diatoms. At 4×CO2, diatoms relative abundance is reduced by more than 10% at the global scale and by up to 60% in the North Atlantic and in the subantarctic Pacific. This simulated change in the ecosystem structure impacts oceanic carbon uptake by reducing the efficiency of the biological pump, thus contributing to the positive feedback between climate change and the ocean carbon cycle. However, our model simulations do not identify this biological mechanism as a first-order process in the response of ocean carbon uptake to climate change.

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JO - Geophysical Research Letters

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ER -

Response of diatoms distribution to global warming and potential implications: A global model study

Abstract

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