Effects of phytoplankton community composition and productivity on sea surface pCO2 variations in the Southern Ocean

https://doi.org/10.1016/j.dsr.2020.103263Get rights and content
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Highlights

  • We investigated relationships between sea surface pCO2 and phytoplankton community and net primary productivity.

  • Sea surface pCO2 was negatively correlated with diatom abundance, but not correlated with haptophyte abundance.

  • Stronger correlation was found between sea surface pCO2 and net primary productivity, rather than phytoplankton abundance.

  • Changes in phytoplankton community composition may control CO2 dynamics in the Southern Ocean.

Abstract

The Southern Ocean is a vast net sink for atmospheric carbon dioxide (CO2), with marine phytoplankton playing a crucial role in CO2 fixation. We assessed how changes in the dominant phytoplankton community and net primary productivity (NPP) affected variations in the partial pressure of CO2 in surface water (pCO2sw) in the Indian sector of the Southern Ocean during austral summer. pCO2sw was negatively correlated with total phytoplankton and diatom abundances, as estimated from pigment signatures, in the zone south of the Antarctic Circumpolar Current; however, pCO2sw was not correlated with haptophyte abundance. Additionally, a stronger correlation was found between pCO2sw and total phytoplankton NPP than between chlorophyll a concentration and pCO2sw. We reconstructed pCO2sw at inter-annual scale using satellite data and assessed the inter-annual variability of air-sea CO2 flux. Over the period from 1997 to 2007, the integrated CO2 fluxes over the study region showed very large variations from a small source to a strong sink. Variations in the integrated CO2 fluxes were also correlated with changes in satellite-derived phytoplankton community in the Indian sector of the Southern Ocean and changes in the dominant phytoplankton community may control CO2 dynamics in the marginal ice zone.

Keywords

Phytoplankton community composition
Diatoms
Southern Ocean
Net primary productivity
Carbon dioxide

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