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Evaluating the effects of climate change in the southern Benguela upwelling system using the Atlantis modelling framework

Evaluating the effects of climate change in the southern Benguela upwelling system using the Atlantis modelling framework
Evaluating the effects of climate change in the southern Benguela upwelling system using the Atlantis modelling framework

The ocean is affected by multiple anthropogenic stressors including climate change, the effects of which are already evident in many ocean ecosystems. The ABACuS v2 end-to-end model together with climate projections from the NEMO-MEDUSA 2.0 model were used to evaluate the effects of fishing, warming and horizontal and vertical mixing on the southern Benguela upwelling system. Of the drivers examined in this study, warming had the greatest effect on species biomass, with mainly negative effects. The magnitude of the impacts of warming intensified from the RCP 2.6 to the 8.5 emission scenario. Fishing negatively affected demersal and large pelagic fish, which in turn resulted in a biomass increase of forage fish due to a decrease in predation pressure. Water mixing was found to have minor indirect effects on zooplankton biomass and fish. The responses of species and species groups to the combined effects of fishing and warming were approximately equally divided between additive, synergistic and antagonistic. Interpretation of our model results suggests that the southern Benguela system is likely to be affected by climate change, including substantial changes in the abundance of some species important to the region's fisheries. Future planning for fisheries needs to take this into account, including through management that strives to maintain the resilience of key species and the system as a whole. In line with previous studies on the southern Benguela, the results reinforce the importance of including consideration of the indirect and combined impacts of climate change and fishing in management and planning.

Climate change, Ecosystem impacts, Fishing, Southern Benguela
1054-6006
1-15
Ortega-Cisneros, Kelly
7a5be9e5-3161-4e76-a09c-df45ae257af6
Cochrane, Kevern L.
da809857-0d6c-4c39-b6be-c3e6b03247c9
Fulton, Elizabeth A.
04b5f453-6eae-4ecd-8582-c281e6fe9855
Gorton, Rebecca
9a270973-d4fb-4aac-b6c8-21f8828d80c9
Popova, Ekaterina
3ea572bd-f37d-4777-894b-b0d86f735820
Ortega-Cisneros, Kelly
7a5be9e5-3161-4e76-a09c-df45ae257af6
Cochrane, Kevern L.
da809857-0d6c-4c39-b6be-c3e6b03247c9
Fulton, Elizabeth A.
04b5f453-6eae-4ecd-8582-c281e6fe9855
Gorton, Rebecca
9a270973-d4fb-4aac-b6c8-21f8828d80c9
Popova, Ekaterina
3ea572bd-f37d-4777-894b-b0d86f735820

Ortega-Cisneros, Kelly, Cochrane, Kevern L., Fulton, Elizabeth A., Gorton, Rebecca and Popova, Ekaterina (2018) Evaluating the effects of climate change in the southern Benguela upwelling system using the Atlantis modelling framework. Fisheries Oceanography, 1-15. (doi:10.1111/fog.12268).

Record type: Article

Abstract

The ocean is affected by multiple anthropogenic stressors including climate change, the effects of which are already evident in many ocean ecosystems. The ABACuS v2 end-to-end model together with climate projections from the NEMO-MEDUSA 2.0 model were used to evaluate the effects of fishing, warming and horizontal and vertical mixing on the southern Benguela upwelling system. Of the drivers examined in this study, warming had the greatest effect on species biomass, with mainly negative effects. The magnitude of the impacts of warming intensified from the RCP 2.6 to the 8.5 emission scenario. Fishing negatively affected demersal and large pelagic fish, which in turn resulted in a biomass increase of forage fish due to a decrease in predation pressure. Water mixing was found to have minor indirect effects on zooplankton biomass and fish. The responses of species and species groups to the combined effects of fishing and warming were approximately equally divided between additive, synergistic and antagonistic. Interpretation of our model results suggests that the southern Benguela system is likely to be affected by climate change, including substantial changes in the abundance of some species important to the region's fisheries. Future planning for fisheries needs to take this into account, including through management that strives to maintain the resilience of key species and the system as a whole. In line with previous studies on the southern Benguela, the results reinforce the importance of including consideration of the indirect and combined impacts of climate change and fishing in management and planning.

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More information

Accepted/In Press date: 18 December 2017
e-pub ahead of print date: 10 April 2018
Keywords: Climate change, Ecosystem impacts, Fishing, Southern Benguela

Identifiers

Local EPrints ID: 422496
URI: http://eprints.soton.ac.uk/id/eprint/422496
ISSN: 1054-6006
PURE UUID: be754404-1dbb-4b5d-9ec9-63caccf63bc6

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Date deposited: 24 Jul 2018 16:31
Last modified: 15 Mar 2024 19:36

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Contributors

Author: Kelly Ortega-Cisneros
Author: Kevern L. Cochrane
Author: Elizabeth A. Fulton
Author: Rebecca Gorton
Author: Ekaterina Popova

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