Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools

Ian R. Cleasby; Ellie Owen; Adam Butler; Julia Baer; Jez Blackburn; Maria I. Bogdanova; Tessa Coledale; Francis Daunt; Stephen Dodd; Julian C. Evans; Jonathan A. Green; Tim Guilford; Michael P. Harris; Robert Hughes; Mark A. Newell; Stephen F. Newton; Gail S. Robertson; Lise Ruffino; Akiko Shoji; Louise M. Soanes; Stephen C. Votier; Ewan D. Wakefield; Sarah Wanless; Linda J. Wilson; Mark Bolton

doi:10.1111/ibi.13284

Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools

Ian R. Cleasby^*, Ellie Owen, Adam Butler, Julia Baer, Jez Blackburn, Maria I. Bogdanova, Tessa Coledale, Francis Daunt, Stephen Dodd, Julian C. Evans, Jonathan A. Green, Tim Guilford, Michael P. Harris, Robert Hughes, Mark A. Newell, Stephen F. Newton, Gail S. Robertson, Lise Ruffino, Akiko Shoji, Louise M. SoanesStephen C. Votier, Ewan D. Wakefield, Sarah Wanless, Linda J. Wilson, Mark Bolton

^*Corresponding author for this work

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Abstract

Knowledge of seabird distributions plays a key role in seabird conservation and sustainable marine management, underpinning efforts to designate protected areas or assess the impact of human developments. Technological advances in animal tracking devices increasingly allow researchers to acquire information on the movement of birds from specific colonies. Nevertheless, most seabird colonies have not been subject to such tracking and another means must be found to assess their likely foraging distribution. Consequently, foraging range data collated and summarized across other tracking studies has often been used to estimate species-level foraging distances for use within applied settings. However, generic species-specific foraging ranges must be used with caution because of the amount of variation in seabird foraging behaviour at both the individual and colony levels. Specifically, although current reviews of seabird foraging ranges provide summary estimates of maximum foraging range, they typically do not assess the extent of among-colony or among-individual variation around such estimates. To address this, we conducted a variance component analysis of the maximum distance reached from the breeding colony per foraging trip (foraging range) using multi-colony tracking datasets to estimate the degree of between-individual, between-year and between-colony variation in foraging range in four UK breeding seabirds (Black-legged Kittiwake Rissa tridactyla, Common Guillemot Uria aalge, Razorbill Alca torda and European Shag Gulosus aristotelis). We also provide updated estimates of typical foraging ranges for each species and quantify the influence of breeding stage and colony size. Overall, between-colony variation was typically the largest variance component, explaining 20–30% of the observed variation in foraging range across the four species. Individual-level variation was also relatively large among Shag. In Kittiwake, Guillemot and Shag, but not Razorbill, average foraging ranges were positively associated with colony size. In addition, Kittiwake and Razorbill travelled further during incubation than during chick-rearing. More generally, our estimates of mean foraging ranges for each species were subject to a high degree of uncertainty, which should be incorporated into impact assessments carried out using such data.

Original language	English
Pages (from-to)	871-895
Number of pages	25
Journal	Ibis
Volume	166
Issue number	3
Early online date	17 Oct 2023
DOIs	https://doi.org/10.1111/ibi.13284
Publication status	Published - Jul 2024

Keywords

between-group variation
GPS tracking
individual variation
marine conservation
movement ecology

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Animal Science and Zoology

UN SDGs

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

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10.1111/ibi.13284

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This is the peer reviewed version of the following article: Cleasby, I.R., Owen, E., Butler, A., Baer, J., Blackburn, J., Bogdanova, M.I., Coledale, T., Daunt, F., Dodd, S., Evans, J.C., Green, J.A., Guilford, T., Harris, M.P., Hughes, R., Newell, M.A., Newton, S.F., Robertson, G.S., Ruffino, L., Shoji, A., Soanes, L.M., Votier, S.C., Wakefield, E.D., Wanless, S., Wilson, L.J. and Bolton, M. (2024), Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools. Ibis, 166: 871-895., which has been published in final form at https://doi.org/10.1111/ibi.13284 This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions.
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Cleasby, I. R., Owen, E., Butler, A., Baer, J., Blackburn, J., Bogdanova, M. I., Coledale, T., Daunt, F., Dodd, S., Evans, J. C., Green, J. A., Guilford, T., Harris, M. P., Hughes, R., Newell, M. A., Newton, S. F., Robertson, G. S., Ruffino, L., Shoji, A., ... Bolton, M. (2024). Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools. Ibis, 166(3), 871-895. https://doi.org/10.1111/ibi.13284

@article{90452d29bbf0443c9dfff90afffd0831,

title = "Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools",

abstract = "Knowledge of seabird distributions plays a key role in seabird conservation and sustainable marine management, underpinning efforts to designate protected areas or assess the impact of human developments. Technological advances in animal tracking devices increasingly allow researchers to acquire information on the movement of birds from specific colonies. Nevertheless, most seabird colonies have not been subject to such tracking and another means must be found to assess their likely foraging distribution. Consequently, foraging range data collated and summarized across other tracking studies has often been used to estimate species-level foraging distances for use within applied settings. However, generic species-specific foraging ranges must be used with caution because of the amount of variation in seabird foraging behaviour at both the individual and colony levels. Specifically, although current reviews of seabird foraging ranges provide summary estimates of maximum foraging range, they typically do not assess the extent of among-colony or among-individual variation around such estimates. To address this, we conducted a variance component analysis of the maximum distance reached from the breeding colony per foraging trip (foraging range) using multi-colony tracking datasets to estimate the degree of between-individual, between-year and between-colony variation in foraging range in four UK breeding seabirds (Black-legged Kittiwake Rissa tridactyla, Common Guillemot Uria aalge, Razorbill Alca torda and European Shag Gulosus aristotelis). We also provide updated estimates of typical foraging ranges for each species and quantify the influence of breeding stage and colony size. Overall, between-colony variation was typically the largest variance component, explaining 20–30% of the observed variation in foraging range across the four species. Individual-level variation was also relatively large among Shag. In Kittiwake, Guillemot and Shag, but not Razorbill, average foraging ranges were positively associated with colony size. In addition, Kittiwake and Razorbill travelled further during incubation than during chick-rearing. More generally, our estimates of mean foraging ranges for each species were subject to a high degree of uncertainty, which should be incorporated into impact assessments carried out using such data.",

keywords = "between-group variation, GPS tracking, individual variation, marine conservation, movement ecology",

author = "Cleasby, {Ian R.} and Ellie Owen and Adam Butler and Julia Baer and Jez Blackburn and Bogdanova, {Maria I.} and Tessa Coledale and Francis Daunt and Stephen Dodd and Evans, {Julian C.} and Green, {Jonathan A.} and Tim Guilford and Harris, {Michael P.} and Robert Hughes and Newell, {Mark A.} and Newton, {Stephen F.} and Robertson, {Gail S.} and Lise Ruffino and Akiko Shoji and Soanes, {Louise M.} and Votier, {Stephen C.} and Wakefield, {Ewan D.} and Sarah Wanless and Wilson, {Linda J.} and Mark Bolton",

note = "Funding Information: Marine Scotland, Joint Nature Conservation Committee, Natural England, Scottish Natural Heritage, European Regional Development Fund, Fair Isle Bird Observatory Trust, Natural Resources Wales, Royal Society for the Protection of Birds, Argyll Bird Club, Environment Wales. Funding Information: We thank the Sule Skerry ringing group, S. Adlard, D. Aitken, G. Anderson, C. Bell, A. Bellamy, R. Brown, R. Bufton, M. Chimienti, D. Evans, D. Fox, C. Gunn, J. Lamb, R. Langton, L. Mackley, A. Macmillan, T. Newman, M. Nydegger, L. Quinn, N. Richardson, Y. Satg{\'e}, E. Scragg, J. Sturgeon, K. Snell, C. Taylor, J. Taylor and others who collected data for this study. We are grateful to Robbie, Rory and Ruby for their comments on earlier drafts and their unique perspective. We thank Scottish Natural Heritage (now NatureScot), National Trust for Scotland, Natural England, Natural Resources Wales, Northern Ireland Environment Agency and the National Parks and Wildlife Service and private landowners for permission to work at protected sites. We also thank the Isle of May Bird Observatory Trust for supporting the long‐term ringing of seabirds on the Isle of May. We thank two anonymous reviewers as well as the Associate Editor (Rosemarie Kentie) and Editor (Ruedi Nager) for comments that improved the manuscript. Funding was provided by the European regional development fund through its Atlantic Area programme, the Joint Nature Conservation Committee, Marine Scotland, Scottish Natural Heritage, Natural England, Natural Resources Wales, Environment Wales, Argyll Bird Club, Fair Isle Bird Observatory Trust and the Royal Society for the Protection of Birds. Publisher Copyright: {\textcopyright} 2023 British Ornithologists' Union.",

year = "2024",

month = jul,

doi = "10.1111/ibi.13284",

language = "English",

volume = "166",

pages = "871--895",

journal = "Ibis",

issn = "0019-1019",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "3",

}

Cleasby, IR, Owen, E, Butler, A, Baer, J, Blackburn, J, Bogdanova, MI, Coledale, T, Daunt, F, Dodd, S, Evans, JC, Green, JA, Guilford, T, Harris, MP, Hughes, R, Newell, MA, Newton, SF, Robertson, GS, Ruffino, L, Shoji, A, Soanes, LM, Votier, SC, Wakefield, ED, Wanless, S, Wilson, LJ & Bolton, M 2024, 'Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools', Ibis, vol. 166, no. 3, pp. 871-895. https://doi.org/10.1111/ibi.13284

TY - JOUR

T1 - Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools

AU - Cleasby, Ian R.

AU - Owen, Ellie

AU - Butler, Adam

AU - Baer, Julia

AU - Blackburn, Jez

AU - Bogdanova, Maria I.

AU - Coledale, Tessa

AU - Daunt, Francis

AU - Dodd, Stephen

AU - Evans, Julian C.

AU - Green, Jonathan A.

AU - Guilford, Tim

AU - Harris, Michael P.

AU - Hughes, Robert

AU - Newell, Mark A.

AU - Newton, Stephen F.

AU - Robertson, Gail S.

AU - Ruffino, Lise

AU - Shoji, Akiko

AU - Soanes, Louise M.

AU - Votier, Stephen C.

AU - Wakefield, Ewan D.

AU - Wanless, Sarah

AU - Wilson, Linda J.

AU - Bolton, Mark

N1 - Funding Information: Marine Scotland, Joint Nature Conservation Committee, Natural England, Scottish Natural Heritage, European Regional Development Fund, Fair Isle Bird Observatory Trust, Natural Resources Wales, Royal Society for the Protection of Birds, Argyll Bird Club, Environment Wales. Funding Information: We thank the Sule Skerry ringing group, S. Adlard, D. Aitken, G. Anderson, C. Bell, A. Bellamy, R. Brown, R. Bufton, M. Chimienti, D. Evans, D. Fox, C. Gunn, J. Lamb, R. Langton, L. Mackley, A. Macmillan, T. Newman, M. Nydegger, L. Quinn, N. Richardson, Y. Satgé, E. Scragg, J. Sturgeon, K. Snell, C. Taylor, J. Taylor and others who collected data for this study. We are grateful to Robbie, Rory and Ruby for their comments on earlier drafts and their unique perspective. We thank Scottish Natural Heritage (now NatureScot), National Trust for Scotland, Natural England, Natural Resources Wales, Northern Ireland Environment Agency and the National Parks and Wildlife Service and private landowners for permission to work at protected sites. We also thank the Isle of May Bird Observatory Trust for supporting the long‐term ringing of seabirds on the Isle of May. We thank two anonymous reviewers as well as the Associate Editor (Rosemarie Kentie) and Editor (Ruedi Nager) for comments that improved the manuscript. Funding was provided by the European regional development fund through its Atlantic Area programme, the Joint Nature Conservation Committee, Marine Scotland, Scottish Natural Heritage, Natural England, Natural Resources Wales, Environment Wales, Argyll Bird Club, Fair Isle Bird Observatory Trust and the Royal Society for the Protection of Birds. Publisher Copyright: © 2023 British Ornithologists' Union.

PY - 2024/7

Y1 - 2024/7

N2 - Knowledge of seabird distributions plays a key role in seabird conservation and sustainable marine management, underpinning efforts to designate protected areas or assess the impact of human developments. Technological advances in animal tracking devices increasingly allow researchers to acquire information on the movement of birds from specific colonies. Nevertheless, most seabird colonies have not been subject to such tracking and another means must be found to assess their likely foraging distribution. Consequently, foraging range data collated and summarized across other tracking studies has often been used to estimate species-level foraging distances for use within applied settings. However, generic species-specific foraging ranges must be used with caution because of the amount of variation in seabird foraging behaviour at both the individual and colony levels. Specifically, although current reviews of seabird foraging ranges provide summary estimates of maximum foraging range, they typically do not assess the extent of among-colony or among-individual variation around such estimates. To address this, we conducted a variance component analysis of the maximum distance reached from the breeding colony per foraging trip (foraging range) using multi-colony tracking datasets to estimate the degree of between-individual, between-year and between-colony variation in foraging range in four UK breeding seabirds (Black-legged Kittiwake Rissa tridactyla, Common Guillemot Uria aalge, Razorbill Alca torda and European Shag Gulosus aristotelis). We also provide updated estimates of typical foraging ranges for each species and quantify the influence of breeding stage and colony size. Overall, between-colony variation was typically the largest variance component, explaining 20–30% of the observed variation in foraging range across the four species. Individual-level variation was also relatively large among Shag. In Kittiwake, Guillemot and Shag, but not Razorbill, average foraging ranges were positively associated with colony size. In addition, Kittiwake and Razorbill travelled further during incubation than during chick-rearing. More generally, our estimates of mean foraging ranges for each species were subject to a high degree of uncertainty, which should be incorporated into impact assessments carried out using such data.

AB - Knowledge of seabird distributions plays a key role in seabird conservation and sustainable marine management, underpinning efforts to designate protected areas or assess the impact of human developments. Technological advances in animal tracking devices increasingly allow researchers to acquire information on the movement of birds from specific colonies. Nevertheless, most seabird colonies have not been subject to such tracking and another means must be found to assess their likely foraging distribution. Consequently, foraging range data collated and summarized across other tracking studies has often been used to estimate species-level foraging distances for use within applied settings. However, generic species-specific foraging ranges must be used with caution because of the amount of variation in seabird foraging behaviour at both the individual and colony levels. Specifically, although current reviews of seabird foraging ranges provide summary estimates of maximum foraging range, they typically do not assess the extent of among-colony or among-individual variation around such estimates. To address this, we conducted a variance component analysis of the maximum distance reached from the breeding colony per foraging trip (foraging range) using multi-colony tracking datasets to estimate the degree of between-individual, between-year and between-colony variation in foraging range in four UK breeding seabirds (Black-legged Kittiwake Rissa tridactyla, Common Guillemot Uria aalge, Razorbill Alca torda and European Shag Gulosus aristotelis). We also provide updated estimates of typical foraging ranges for each species and quantify the influence of breeding stage and colony size. Overall, between-colony variation was typically the largest variance component, explaining 20–30% of the observed variation in foraging range across the four species. Individual-level variation was also relatively large among Shag. In Kittiwake, Guillemot and Shag, but not Razorbill, average foraging ranges were positively associated with colony size. In addition, Kittiwake and Razorbill travelled further during incubation than during chick-rearing. More generally, our estimates of mean foraging ranges for each species were subject to a high degree of uncertainty, which should be incorporated into impact assessments carried out using such data.

KW - between-group variation

KW - GPS tracking

KW - individual variation

KW - marine conservation

KW - movement ecology

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JO - Ibis

JF - Ibis

IS - 3

ER -

Assessing the importance of individual- and colony-level variation when using seabird foraging ranges as impact assessment and conservation tools

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UN SDGs

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