A comprehensive large-scale assessment of fisheries bycatch risk to threatened seabird populations

Thomas A. Clay; Cleo Small; Geoffrey N. Tuck; Deborah Pardo; Ana P.B. Carneiro; Andrew G. Wood; John P. Croxall; Glenn T. Crossin; Richard A. Phillips

doi:10.1111/1365-2664.13407

A comprehensive large-scale assessment of fisheries bycatch risk to threatened seabird populations

Thomas A. Clay, Cleo Small, Geoffrey N. Tuck, Deborah Pardo, Ana P.B. Carneiro, Andrew G. Wood, John P. Croxall, Glenn T. Crossin, Richard A. Phillips

Medicine

Research output: Contribution to journal › Article › peer-review

92 Citations (Scopus)

Abstract

Incidental mortality (bycatch) in fisheries remains the greatest threat to many large marine vertebrates and is a major barrier to fisheries sustainability. Robust assessments of bycatch risk are crucial for informing effective mitigation strategies, but are hampered by missing information on the distributions of key life-history stages (adult breeders and non-breeders, immatures and juveniles). Using a comprehensive biologging dataset (1,692 tracks, 788 individuals) spanning all major life-history stages, we assessed spatial overlap of four threatened seabird populations from South Georgia, with longline and trawl fisheries in the Southern Ocean. We generated monthly population-level distributions, weighting each life-history stage according to population age structure based on demographic models. Specifically, we determined where and when birds were at greatest potential bycatch risk, and from which fleets. Overlap with both pelagic and demersal longline fisheries was highest for black-browed albatrosses, then white-chinned petrels, wandering and grey-headed albatrosses, whereas overlap with trawl fisheries was highest for white-chinned petrels. Hotspots of fisheries overlap occurred in all major ocean basins, but particularly the south-east and south-west Atlantic Ocean (longline and trawl) and south-west Indian Ocean (pelagic longline). Overlap was greatest with pelagic longline fleets in May–September, when fishing effort south of 25°S is highest, and with demersal and trawl fisheries in January–June. Overlap scores were dominated by particular fleets: pelagic longline—Japan, Taiwan; demersal longline and trawl—Argentina, Namibia, Falklands, South Africa; demersal longline—Convention for Conservation of Antarctic Marine Living Resources (CCAMLR) waters, Chile, New Zealand. Synthesis and applications. We provide a framework for calculating appropriately weighted population-level distributions from biologging data, which we recommend for future fisheries bycatch risk assessments. Many regions of high spatial overlap corresponded with high seabird bycatch rates recorded by on-board observers, indicating that our approach reliably mapped relative bycatch risk at large spatial scales. Implementation of effective bycatch mitigation in these high-risk regions varies considerably. Although potential bycatch risk appears to have decreased since the early 2000s, albatross and petrel populations from South Georgia and elsewhere are still declining, emphasizing the need for much improved observer coverage and monitoring of compliance with bycatch regulations.

Original language	English
Pages (from-to)	1882-1893
Number of pages	12
Journal	Journal of Applied Ecology
Volume	56
Issue number	8
DOIs	https://doi.org/10.1111/1365-2664.13407
Publication status	Published - 2019

Bibliographical note

Funding Information:
We are grateful to all those involved in the long-term population monitoring at Bird Island. Paulo Catry, Isaac Forster, Ben Phalan, Jose Xavier, Ewan Wakefield and Hannah Froy were closely involved in tracking data collection. We also thank those who helped collate and process fishing effort data (listed individually in Appendix S6), Berry Mulligan for useful discussions and Sebastián Jiménez, Mark Belchier, Steph Winnard, Senior Editor Phil Stephens, Associate Editor Vitor Paiva and two anonymous reviewers for helpful comments on earlier versions of this manuscript. We are also grateful to Yasuko Suzuki, Scott Pursner and Woei-horng Fang for their help with foreign language abstracts. This analysis was made possible with funding from the Government of South Georgia and the Sandwich Islands (GSGSSI) to the British Antarctic Survey (BAS) and the Royal Society for the Protection of Birds (RSPB). DP, RAP and AGW were funded by the Natural Environment Research Council (NERC) Standard Grant NE/J021083/1. Fieldwork by GTC was supported by the BAS through the NERC Collaborative Gearing Scheme and the Natural Sciences and Engineering Research Council of Canada. This study represents a contribution to the Ecosystems component of the BAS Polar Science for Planet Earth Programme, funded by NERC.

Publisher Copyright:
© 2019 Crown copyright. Journal of Applied Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society

ASJC Scopus Subject Areas

Ecology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1111/1365-2664.13407

Cite this

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title = "A comprehensive large-scale assessment of fisheries bycatch risk to threatened seabird populations",

abstract = "Incidental mortality (bycatch) in fisheries remains the greatest threat to many large marine vertebrates and is a major barrier to fisheries sustainability. Robust assessments of bycatch risk are crucial for informing effective mitigation strategies, but are hampered by missing information on the distributions of key life-history stages (adult breeders and non-breeders, immatures and juveniles). Using a comprehensive biologging dataset (1,692 tracks, 788 individuals) spanning all major life-history stages, we assessed spatial overlap of four threatened seabird populations from South Georgia, with longline and trawl fisheries in the Southern Ocean. We generated monthly population-level distributions, weighting each life-history stage according to population age structure based on demographic models. Specifically, we determined where and when birds were at greatest potential bycatch risk, and from which fleets. Overlap with both pelagic and demersal longline fisheries was highest for black-browed albatrosses, then white-chinned petrels, wandering and grey-headed albatrosses, whereas overlap with trawl fisheries was highest for white-chinned petrels. Hotspots of fisheries overlap occurred in all major ocean basins, but particularly the south-east and south-west Atlantic Ocean (longline and trawl) and south-west Indian Ocean (pelagic longline). Overlap was greatest with pelagic longline fleets in May–September, when fishing effort south of 25°S is highest, and with demersal and trawl fisheries in January–June. Overlap scores were dominated by particular fleets: pelagic longline—Japan, Taiwan; demersal longline and trawl—Argentina, Namibia, Falklands, South Africa; demersal longline—Convention for Conservation of Antarctic Marine Living Resources (CCAMLR) waters, Chile, New Zealand. Synthesis and applications. We provide a framework for calculating appropriately weighted population-level distributions from biologging data, which we recommend for future fisheries bycatch risk assessments. Many regions of high spatial overlap corresponded with high seabird bycatch rates recorded by on-board observers, indicating that our approach reliably mapped relative bycatch risk at large spatial scales. Implementation of effective bycatch mitigation in these high-risk regions varies considerably. Although potential bycatch risk appears to have decreased since the early 2000s, albatross and petrel populations from South Georgia and elsewhere are still declining, emphasizing the need for much improved observer coverage and monitoring of compliance with bycatch regulations.",

author = "Clay, {Thomas A.} and Cleo Small and Tuck, {Geoffrey N.} and Deborah Pardo and Carneiro, {Ana P.B.} and Wood, {Andrew G.} and Croxall, {John P.} and Crossin, {Glenn T.} and Phillips, {Richard A.}",

note = "Funding Information: We are grateful to all those involved in the long-term population monitoring at Bird Island. Paulo Catry, Isaac Forster, Ben Phalan, Jose Xavier, Ewan Wakefield and Hannah Froy were closely involved in tracking data collection. We also thank those who helped collate and process fishing effort data (listed individually in Appendix S6), Berry Mulligan for useful discussions and Sebasti{\'a}n Jim{\'e}nez, Mark Belchier, Steph Winnard, Senior Editor Phil Stephens, Associate Editor Vitor Paiva and two anonymous reviewers for helpful comments on earlier versions of this manuscript. We are also grateful to Yasuko Suzuki, Scott Pursner and Woei-horng Fang for their help with foreign language abstracts. This analysis was made possible with funding from the Government of South Georgia and the Sandwich Islands (GSGSSI) to the British Antarctic Survey (BAS) and the Royal Society for the Protection of Birds (RSPB). DP, RAP and AGW were funded by the Natural Environment Research Council (NERC) Standard Grant NE/J021083/1. Fieldwork by GTC was supported by the BAS through the NERC Collaborative Gearing Scheme and the Natural Sciences and Engineering Research Council of Canada. This study represents a contribution to the Ecosystems component of the BAS Polar Science for Planet Earth Programme, funded by NERC. Publisher Copyright: {\textcopyright} 2019 Crown copyright. Journal of Applied Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society",

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doi = "10.1111/1365-2664.13407",

language = "English",

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T1 - A comprehensive large-scale assessment of fisheries bycatch risk to threatened seabird populations

AU - Clay, Thomas A.

AU - Small, Cleo

AU - Tuck, Geoffrey N.

AU - Pardo, Deborah

AU - Carneiro, Ana P.B.

AU - Wood, Andrew G.

AU - Croxall, John P.

AU - Crossin, Glenn T.

AU - Phillips, Richard A.

N1 - Funding Information: We are grateful to all those involved in the long-term population monitoring at Bird Island. Paulo Catry, Isaac Forster, Ben Phalan, Jose Xavier, Ewan Wakefield and Hannah Froy were closely involved in tracking data collection. We also thank those who helped collate and process fishing effort data (listed individually in Appendix S6), Berry Mulligan for useful discussions and Sebastián Jiménez, Mark Belchier, Steph Winnard, Senior Editor Phil Stephens, Associate Editor Vitor Paiva and two anonymous reviewers for helpful comments on earlier versions of this manuscript. We are also grateful to Yasuko Suzuki, Scott Pursner and Woei-horng Fang for their help with foreign language abstracts. This analysis was made possible with funding from the Government of South Georgia and the Sandwich Islands (GSGSSI) to the British Antarctic Survey (BAS) and the Royal Society for the Protection of Birds (RSPB). DP, RAP and AGW were funded by the Natural Environment Research Council (NERC) Standard Grant NE/J021083/1. Fieldwork by GTC was supported by the BAS through the NERC Collaborative Gearing Scheme and the Natural Sciences and Engineering Research Council of Canada. This study represents a contribution to the Ecosystems component of the BAS Polar Science for Planet Earth Programme, funded by NERC. Publisher Copyright: © 2019 Crown copyright. Journal of Applied Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society

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N2 - Incidental mortality (bycatch) in fisheries remains the greatest threat to many large marine vertebrates and is a major barrier to fisheries sustainability. Robust assessments of bycatch risk are crucial for informing effective mitigation strategies, but are hampered by missing information on the distributions of key life-history stages (adult breeders and non-breeders, immatures and juveniles). Using a comprehensive biologging dataset (1,692 tracks, 788 individuals) spanning all major life-history stages, we assessed spatial overlap of four threatened seabird populations from South Georgia, with longline and trawl fisheries in the Southern Ocean. We generated monthly population-level distributions, weighting each life-history stage according to population age structure based on demographic models. Specifically, we determined where and when birds were at greatest potential bycatch risk, and from which fleets. Overlap with both pelagic and demersal longline fisheries was highest for black-browed albatrosses, then white-chinned petrels, wandering and grey-headed albatrosses, whereas overlap with trawl fisheries was highest for white-chinned petrels. Hotspots of fisheries overlap occurred in all major ocean basins, but particularly the south-east and south-west Atlantic Ocean (longline and trawl) and south-west Indian Ocean (pelagic longline). Overlap was greatest with pelagic longline fleets in May–September, when fishing effort south of 25°S is highest, and with demersal and trawl fisheries in January–June. Overlap scores were dominated by particular fleets: pelagic longline—Japan, Taiwan; demersal longline and trawl—Argentina, Namibia, Falklands, South Africa; demersal longline—Convention for Conservation of Antarctic Marine Living Resources (CCAMLR) waters, Chile, New Zealand. Synthesis and applications. We provide a framework for calculating appropriately weighted population-level distributions from biologging data, which we recommend for future fisheries bycatch risk assessments. Many regions of high spatial overlap corresponded with high seabird bycatch rates recorded by on-board observers, indicating that our approach reliably mapped relative bycatch risk at large spatial scales. Implementation of effective bycatch mitigation in these high-risk regions varies considerably. Although potential bycatch risk appears to have decreased since the early 2000s, albatross and petrel populations from South Georgia and elsewhere are still declining, emphasizing the need for much improved observer coverage and monitoring of compliance with bycatch regulations.

AB - Incidental mortality (bycatch) in fisheries remains the greatest threat to many large marine vertebrates and is a major barrier to fisheries sustainability. Robust assessments of bycatch risk are crucial for informing effective mitigation strategies, but are hampered by missing information on the distributions of key life-history stages (adult breeders and non-breeders, immatures and juveniles). Using a comprehensive biologging dataset (1,692 tracks, 788 individuals) spanning all major life-history stages, we assessed spatial overlap of four threatened seabird populations from South Georgia, with longline and trawl fisheries in the Southern Ocean. We generated monthly population-level distributions, weighting each life-history stage according to population age structure based on demographic models. Specifically, we determined where and when birds were at greatest potential bycatch risk, and from which fleets. Overlap with both pelagic and demersal longline fisheries was highest for black-browed albatrosses, then white-chinned petrels, wandering and grey-headed albatrosses, whereas overlap with trawl fisheries was highest for white-chinned petrels. Hotspots of fisheries overlap occurred in all major ocean basins, but particularly the south-east and south-west Atlantic Ocean (longline and trawl) and south-west Indian Ocean (pelagic longline). Overlap was greatest with pelagic longline fleets in May–September, when fishing effort south of 25°S is highest, and with demersal and trawl fisheries in January–June. Overlap scores were dominated by particular fleets: pelagic longline—Japan, Taiwan; demersal longline and trawl—Argentina, Namibia, Falklands, South Africa; demersal longline—Convention for Conservation of Antarctic Marine Living Resources (CCAMLR) waters, Chile, New Zealand. Synthesis and applications. We provide a framework for calculating appropriately weighted population-level distributions from biologging data, which we recommend for future fisheries bycatch risk assessments. Many regions of high spatial overlap corresponded with high seabird bycatch rates recorded by on-board observers, indicating that our approach reliably mapped relative bycatch risk at large spatial scales. Implementation of effective bycatch mitigation in these high-risk regions varies considerably. Although potential bycatch risk appears to have decreased since the early 2000s, albatross and petrel populations from South Georgia and elsewhere are still declining, emphasizing the need for much improved observer coverage and monitoring of compliance with bycatch regulations.

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A comprehensive large-scale assessment of fisheries bycatch risk to threatened seabird populations

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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