Low trophic redundancy among temperate wrasse species implies ecosystem risks associated with a multi-species inshore fishery
Low trophic redundancy among temperate wrasse species implies ecosystem risks associated with a multi-species inshore fishery
Understanding levels of resource-use overlap or trophic redundancy both within and between species can help predict ecosystem-level impacts of fishery removals and ultimately help define management priorities to preserve ecosystem function. Here, we use stable isotope analysis to investigate inter- and intra-specific variation and overlap in resource use among co-occurring temperate wrasse (Labridae) species. We use the results as a first step to predicting the potential for ecosystem-level impacts of the recently developed multi-species inshore fisheries for live wrasse in England and Scotland. We highlight the likely importance of the primary target species (ballan wrasse), particularly individuals of a landable size, to maintaining the overall function of inshore reef ecosystems, evidenced by the unreciprocated resource use overlap that this species provides for other wrasse species. We also highlight that trophic redundancy is typically low both between and within wrasse species, suggesting that the maintenance of both species diversity and demographic structure of wrasse populations should be a priority when developing fishery management measures. Live wrasse fisheries operate within various marine protected areas (MPAs) across the south coast of England and in Scotland. An overarching aim of ecosystem-based fisheries management, particularly within MPAs, is to support diversity and redundancy within an ecosystem to help maintain resilience to future perturbations. Our study provides some of the first quantitative evidence to support the classification of wrasses (particularly ballan and corkwing) as influential species—defined as having a key role affecting the structure and function of the habitat—within MPAs designated for reef habitats.
Live wrasse fisheries, Niche overlap, Stable isotopes, Trophic redundancy
105-121
Henly, Lauren
071f8ec2-fd27-44d2-b777-51ceaa46706b
Stewart, James E.
257ef2ac-4aff-4935-a10b-727adf480551
Newton, Jason
52526442-209d-4bb8-878a-0298786f4616
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Henly, Lauren
071f8ec2-fd27-44d2-b777-51ceaa46706b
Stewart, James E.
257ef2ac-4aff-4935-a10b-727adf480551
Newton, Jason
52526442-209d-4bb8-878a-0298786f4616
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Henly, Lauren, Stewart, James E., Newton, Jason and Trueman, Clive
(2024)
Low trophic redundancy among temperate wrasse species implies ecosystem risks associated with a multi-species inshore fishery.
Marine Ecology Progress Series, 734, .
(doi:10.3354/meps14568).
Abstract
Understanding levels of resource-use overlap or trophic redundancy both within and between species can help predict ecosystem-level impacts of fishery removals and ultimately help define management priorities to preserve ecosystem function. Here, we use stable isotope analysis to investigate inter- and intra-specific variation and overlap in resource use among co-occurring temperate wrasse (Labridae) species. We use the results as a first step to predicting the potential for ecosystem-level impacts of the recently developed multi-species inshore fisheries for live wrasse in England and Scotland. We highlight the likely importance of the primary target species (ballan wrasse), particularly individuals of a landable size, to maintaining the overall function of inshore reef ecosystems, evidenced by the unreciprocated resource use overlap that this species provides for other wrasse species. We also highlight that trophic redundancy is typically low both between and within wrasse species, suggesting that the maintenance of both species diversity and demographic structure of wrasse populations should be a priority when developing fishery management measures. Live wrasse fisheries operate within various marine protected areas (MPAs) across the south coast of England and in Scotland. An overarching aim of ecosystem-based fisheries management, particularly within MPAs, is to support diversity and redundancy within an ecosystem to help maintain resilience to future perturbations. Our study provides some of the first quantitative evidence to support the classification of wrasses (particularly ballan and corkwing) as influential species—defined as having a key role affecting the structure and function of the habitat—within MPAs designated for reef habitats.
Text
Henley et al_post_review
- Accepted Manuscript
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e-pub ahead of print date: 18 April 2024
Keywords:
Live wrasse fisheries, Niche overlap, Stable isotopes, Trophic redundancy
Identifiers
Local EPrints ID: 492685
URI: http://eprints.soton.ac.uk/id/eprint/492685
ISSN: 0171-8630
PURE UUID: c5854c2e-1977-4351-936a-b153e2f5bd93
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Date deposited: 12 Aug 2024 16:34
Last modified: 13 Aug 2024 01:38
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Author:
Lauren Henly
Author:
James E. Stewart
Author:
Jason Newton
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