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Marine heatwaves in a shifting Southern Ocean induce dynamical changes in primary production

Earth Sciences

Marine heatwaves in a shifting Southern Ocean induce dynamical changes in primary production

M. Fernández-barba, O. Belyaev, et al.

This groundbreaking research by Manuel Fernández-Barba, Oleg Belyaev, I. Emma Huertas, and Gabriel Navarro uncovers how marine heatwaves (MHWs) are transforming the Southern Ocean ecosystem. The study reveals that the increased activity of MHWs is enhancing net primary production, particularly in subantarctic regions, contributing to carbon assimilation amidst climate change. Dive in to explore the dynamic relationship between MHWs and oceanic biogeochemistry!

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Playback language: English
Abstract
This study investigates the impact of marine heatwaves (MHWs) on the Southern Ocean ecosystem, focusing on their effects on primary production. Using satellite and model data (1982-2021), the researchers characterized MHW spatiotemporal patterns, identified their drivers (sea-air heat fluxes, vertical diffusion), and explored their relationship with marine biogeochemistry. They found that increasing MHW activity enhances net primary production through water column stabilization, particularly in subantarctic areas where sea ice decrease also plays a role. Zonal asymmetry in primary producer responses was also observed. The results highlight the role of MHWs in promoting carbon assimilation in the Southern Ocean, influencing the oceanic carbon cycle under climate change.
Publisher
Communications Earth & Environment
Published On
Jul 27, 2024
Authors
Manuel Fernández-Barba, Oleg Belyaev, I. Emma Huertas, Gabriel Navarro
Tags
marine heatwaves
Southern Ocean
primary production
carbon assimilation
climate change
biogeochemistry
ocean ecosystem

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