Refuges and risks: Evaluating the benefits of an expanded MPA network for mobile apex predators

Aim: Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable information that can be integrated into conservation management planning. Tiger sharks (Galeocerdo cuvier) are a wide-ranging ecologically important...

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Published inDiversity & distributions Vol. 24; no. 9/10; pp. 1217 - 1230
Main Authors Daly, Ryan, Smale, Malcolm J., Singh, Sarika, Anders, Darrell, Shivji, Mahmood, Daly, Clare A. K., Lea, James S. E., Sousa, Lara L., Wetherbee, Bradley M., Fitzpatrick, Richard, Clarke, Christopher R., Sheaves, Marcus, Barnett, Adam
Format Journal Article
LanguageEnglish
Published Oxford John Wiley & Sons Ltd 01.09.2018
John Wiley & Sons, Inc
Subjects
Aquatic habitats
BIODIVERSITY RESEARCH
coasts
Conservation
Culling
Fish conservation
Fisheries
Fishing
Galeocerdo cuvier
habitat preferences
Habitat utilization
Habitats
humans
Indian Ocean
longline fisheries
Management planning
marine protected area
Marine protected areas
Mozambique
planning
Predators
Protected areas
risk
satellite telemetry
satellites
Sharks
South Africa
Spatial data
Species
top predators
Wireless networks
South Africa
Mozambique
Indian Ocean
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Abstract Aim: Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable information that can be integrated into conservation management planning. Tiger sharks (Galeocerdo cuvier) are a wide-ranging ecologically important species subject to various threats. The aim of this study was to identify "hotspots" of tiger shark habitat use in relation to protected areas and potential risks from fishing. Location: Southwest Indian Ocean, east coast of South Africa and Mozambique. Methods: Satellite tags were fitted to 26 tiger sharks. A subset of 19 sharks with an average period at liberty of 197 (SD = 110) days were analysed using hotspot analysis to identify areas of core habitat use. The spatial and temporal overlap of significant hotspots with current and planned marine protected areas as well as risks from fishing and culling was then calculated. Results: There was a 5.97% spatial overlap between tiger shark hotspots and marine protected areas, which would increase significantly (p < .05) to 24.36% with the expansion of planned protected areas in South Africa and could be as high as 41.43% if Mozambique similarly expanded neighbouring protected area boundaries. Tiger sharks remained largely coastal, but only showed a spatial overlap of 5.12% with shark culling nets in South Africa. Only three sharks undertook open ocean migrations during which they were more likely to interact with longline fisheries in the region. Main conclusions: This study demonstrates how spatial information can be used to assess the overlap between marine protected areas and the core habitats of top marine predators and highlights how congruent transnational conservation management can improve the effectiveness of protected areas. Core habitat use of marine apex predators may also be indicative of productive habitats, and therefore, predators such as tiger sharks could act as surrogate species for identifying key habitats to prioritize for conservation planning.
AbstractList AimConcurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable information that can be integrated into conservation management planning. Tiger sharks (Galeocerdo cuvier) are a wide‐ranging ecologically important species subject to various threats. The aim of this study was to identify “hotspots” of tiger shark habitat use in relation to protected areas and potential risks from fishing.LocationSouthwest Indian Ocean, east coast of South Africa and Mozambique.MethodsSatellite tags were fitted to 26 tiger sharks. A subset of 19 sharks with an average period at liberty of 197 (SD = 110) days were analysed using hotspot analysis to identify areas of core habitat use. The spatial and temporal overlap of significant hotspots with current and planned marine protected areas as well as risks from fishing and culling was then calculated.ResultsThere was a 5.97% spatial overlap between tiger shark hotspots and marine protected areas, which would increase significantly (p < .05) to 24.36% with the expansion of planned protected areas in South Africa and could be as high as 41.43% if Mozambique similarly expanded neighbouring protected area boundaries. Tiger sharks remained largely coastal, but only showed a spatial overlap of 5.12% with shark culling nets in South Africa. Only three sharks undertook open ocean migrations during which they were more likely to interact with longline fisheries in the region.Main conclusionsThis study demonstrates how spatial information can be used to assess the overlap between marine protected areas and the core habitats of top marine predators and highlights how congruent transnational conservation management can improve the effectiveness of protected areas. Core habitat use of marine apex predators may also be indicative of productive habitats, and therefore, predators such as tiger sharks could act as surrogate species for identifying key habitats to prioritize for conservation planning.
Aim Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable information that can be integrated into conservation management planning. Tiger sharks (Galeocerdo cuvier) are a wide‐ranging ecologically important species subject to various threats. The aim of this study was to identify “hotspots” of tiger shark habitat use in relation to protected areas and potential risks from fishing. Location Southwest Indian Ocean, east coast of South Africa and Mozambique. Methods Satellite tags were fitted to 26 tiger sharks. A subset of 19 sharks with an average period at liberty of 197 (SD = 110) days were analysed using hotspot analysis to identify areas of core habitat use. The spatial and temporal overlap of significant hotspots with current and planned marine protected areas as well as risks from fishing and culling was then calculated. Results There was a 5.97% spatial overlap between tiger shark hotspots and marine protected areas, which would increase significantly (p < .05) to 24.36% with the expansion of planned protected areas in South Africa and could be as high as 41.43% if Mozambique similarly expanded neighbouring protected area boundaries. Tiger sharks remained largely coastal, but only showed a spatial overlap of 5.12% with shark culling nets in South Africa. Only three sharks undertook open ocean migrations during which they were more likely to interact with longline fisheries in the region. Main conclusions This study demonstrates how spatial information can be used to assess the overlap between marine protected areas and the core habitats of top marine predators and highlights how congruent transnational conservation management can improve the effectiveness of protected areas. Core habitat use of marine apex predators may also be indicative of productive habitats, and therefore, predators such as tiger sharks could act as surrogate species for identifying key habitats to prioritize for conservation planning.
Aim: Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable information that can be integrated into conservation management planning. Tiger sharks (Galeocerdo cuvier) are a wide-ranging ecologically important species subject to various threats. The aim of this study was to identify "hotspots" of tiger shark habitat use in relation to protected areas and potential risks from fishing. Location: Southwest Indian Ocean, east coast of South Africa and Mozambique. Methods: Satellite tags were fitted to 26 tiger sharks. A subset of 19 sharks with an average period at liberty of 197 (SD = 110) days were analysed using hotspot analysis to identify areas of core habitat use. The spatial and temporal overlap of significant hotspots with current and planned marine protected areas as well as risks from fishing and culling was then calculated. Results: There was a 5.97% spatial overlap between tiger shark hotspots and marine protected areas, which would increase significantly (p < .05) to 24.36% with the expansion of planned protected areas in South Africa and could be as high as 41.43% if Mozambique similarly expanded neighbouring protected area boundaries. Tiger sharks remained largely coastal, but only showed a spatial overlap of 5.12% with shark culling nets in South Africa. Only three sharks undertook open ocean migrations during which they were more likely to interact with longline fisheries in the region. Main conclusions: This study demonstrates how spatial information can be used to assess the overlap between marine protected areas and the core habitats of top marine predators and highlights how congruent transnational conservation management can improve the effectiveness of protected areas. Core habitat use of marine apex predators may also be indicative of productive habitats, and therefore, predators such as tiger sharks could act as surrogate species for identifying key habitats to prioritize for conservation planning.
Author Barnett, Adam
Daly, Clare A. K.
Sheaves, Marcus
Singh, Sarika
Wetherbee, Bradley M.
Anders, Darrell
Lea, James S. E.
Daly, Ryan
Clarke, Christopher R.
Sousa, Lara L.
Shivji, Mahmood
Fitzpatrick, Richard
Smale, Malcolm J.
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Lea J. S. E. (e_1_2_7_43_1) 2015; 5
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SSID ssj0003352
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Snippet Aim: Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable...
Aim Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable...
AimConcurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable...
AIM: Concurrently, assessing the effectiveness of marine protected areas and evaluating the degree of risk from humans to key species provide valuable...
SourceID proquest
crossref
wiley
jstor
SourceType Aggregation Database
Enrichment Source
Index Database
Publisher
StartPage 1217
SubjectTerms Aquatic habitats
BIODIVERSITY RESEARCH
coasts
Conservation
Culling
Fish conservation
Fisheries
Fishing
Galeocerdo cuvier
habitat preferences
Habitat utilization
Habitats
humans
Indian Ocean
longline fisheries
Management planning
marine protected area
Marine protected areas
Mozambique
planning
Predators
Protected areas
risk
satellite telemetry
satellites
Sharks
South Africa
Spatial data
Species
top predators
Wireless networks
Title Refuges and risks: Evaluating the benefits of an expanded MPA network for mobile apex predators
URI https://www.jstor.org/stable/44896834
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fddi.12758
https://www.proquest.com/docview/2095078846
https://www.proquest.com/docview/2153631536
Volume 24
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