Using Global-Scale Earth System Models for Regional Fisheries Applications

Climate change may impact ocean ecosystems through a number of mechanisms, including shifts in primary productivity or plankton community structure, ocean acidification, and deoxygenation. These processes can be simulated with global Earth system models (ESMs), which are increasingly being used in t...

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Bibliographic Details
Published in:Frontiers in Marine Science
Main Authors: Kelly A. Kearney, Steven J. Bograd, Elizabeth Drenkard, Fabian A. Gomez, Melissa Haltuch, Albert J. Hermann, Michael G. Jacox, Isaac C. Kaplan, Stefan Koenigstein, Jessica Y. Luo, Michelle Masi, Barbara Muhling, Mercedes Pozo Buil, Phoebe A. Woodworth-Jefcoats
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S.A. 2021
Subjects:
living marine resources
earth system models
modeling
primary production
biogeochemistry
CMIP6
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
Ocean acidification
Online Access:https://doi.org/10.3389/fmars.2021.622206
https://doaj.org/article/020526a9c069466b8b0eb31dcef1588c
Description
Summary:Climate change may impact ocean ecosystems through a number of mechanisms, including shifts in primary productivity or plankton community structure, ocean acidification, and deoxygenation. These processes can be simulated with global Earth system models (ESMs), which are increasingly being used in the context of fisheries management and other living marine resource (LMR) applications. However, projections of LMR-relevant metrics such as net primary production can vary widely between ESMs, even under identical climate scenarios. Therefore, the use of ESM should be accompanied by an understanding of the structural differences in the biogeochemical sub-models within ESMs that may give rise to these differences. This review article provides a brief overview of some of the most prominent differences among the most recent generation of ESM and how they are relevant to LMR application.

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