Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning

Per Fauchald; Arnaud Tarroux; F. Amélineau; Vegard S. Bråthen; Sébastien Descamps; M. Ekker; Hálfdan H.  Helgason; Malin K. Johansen; Benjamin Merkel; Børge Moe; J. Åström; Tycho Anker-Nilssen; O. Bjørnstad; Olivier Chastel; Signe Christensen-Dalsgaard; Jóhannis Danielsen; Francis Daunt; Nina Dehnhard; Kjell E. Erikstad; Alexey Ezhov; Maria Gavrilo; Gunnar Thor Hallgrimsson; Erpur S. Hansen; Mike P. Harris; M. Helberg; Jón Einar Jónsson; Yann Kolbeinsson; Yuri Krasnov; Magdalene Langset; Svein-Håkon Lorentsen; E. Lorentzen; Mark Newell; Bergur  Olsen; Tone K. Reiertsen; Geir Helge Systad; Paul Thompson; Thorkell L. Thórarinsson; Sarah Wanless; K. Wojczulanis-Jakubas; Hallvard Strøm

doi:10.3354/meps13854

Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning

Per Fauchald, Arnaud Tarroux, F. Amélineau, Vegard S. Bråthen, Sébastien Descamps, M. Ekker, Hálfdan H. Helgason, Malin K. Johansen, Benjamin Merkel, Børge Moe, J. Åström, Tycho Anker-Nilssen, O. Bjørnstad, Olivier Chastel, Signe Christensen-Dalsgaard, Jóhannis Danielsen, Francis Daunt, Nina Dehnhard, Kjell E. Erikstad, Alexey EzhovMaria Gavrilo, Gunnar Thor Hallgrimsson, Erpur S. Hansen, Mike P. Harris, M. Helberg, Jón Einar Jónsson, Yann Kolbeinsson, Yuri Krasnov, Magdalene Langset, Svein-Håkon Lorentsen, E. Lorentzen, Mark Newell, Bergur Olsen, Tone K. Reiertsen, Geir Helge Systad, Paul Thompson, Thorkell L. Thórarinsson, Sarah Wanless, K. Wojczulanis-Jakubas, Hallvard Strøm

Havstovan - Faroe Marine Research Institute

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

19 Citations (Scopus)

Abstract

Tracking data of marine predators are increasingly used in marine spatial management. We developed a spatial data set with estimates of the monthly distribution of 6 pelagic seabird species breeding in the Northeast Atlantic. The data set was based on year-round global location sensor (GLS) tracking data of 2356 adult seabirds from 2006−2019 from a network of seabird colonies, data describing the physical environment and data on seabird population sizes. Tracking and environmental data were combined in monthly species distribution models (SDMs). Crossvalidations were used to assess the transferability of models between years and breeding locations. The analyses showed that birds from colonies close to each other (<500 km apart) used the same nonbreeding habitats, while birds from distant colonies (>1000 km) used colony-specific and, in many cases, non-overlapping habitats. Based on these results, the SDM from the nearest model colony was used to predict the distribution of all seabird colonies lying within a speciesspecific cut-off distance (400−500 km). Uncertainties in the predictions were estimated by cluster bootstrap sampling. The resulting data set consisted of 4692 map layers, each layer predicting the densities of birds from a given species, colony and month across the North Atlantic. This data set represents the annual distribution of 23.5 million adult pelagic seabirds, or 87% of the Northeast Atlantic breeding population of the study species. We show how the data set can be used in population and spatial management applications, including the detection of population-specific nonbreeding habitats and identifying populations influenced by marine protected areas.

Original language	English
Pages (from-to)	255-276
Number of pages	22
Journal	Marine Ecology Progress Series
Volume	676
DOIs	https://doi.org/10.3354/meps13854
Publication status	Published - Oct 2021

Keywords

Fulmarus glacialis
Rissa tridactyla
Uria aalge
Uria lomvia
Alle alle
Fratercula arctica
Marine spatial planning
SEATRACK

UN SDGs

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

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10.3354/meps13854Licence: CC BY

Fauchald et al 2021Licence: CC BY

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Fauchald, P., Tarroux, A., Amélineau, F., Bråthen, V. S., Descamps, S., Ekker, M., Helgason, H. H., Johansen, M. K., Merkel, B., Moe, B., Åström, J., Anker-Nilssen, T., Bjørnstad, O., Chastel, O., Christensen-Dalsgaard, S., Danielsen, J., Daunt, F., Dehnhard, N., Erikstad, K. E., ... Strøm, H. (2021). Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning. Marine Ecology Progress Series, 676, 255-276. https://doi.org/10.3354/meps13854

@article{20a7732f3fe0416d8e07807c0e1722f4,

title = "Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning",

abstract = "Tracking data of marine predators are increasingly used in marine spatial management. We developed a spatial data set with estimates of the monthly distribution of 6 pelagic seabird species breeding in the Northeast Atlantic. The data set was based on year-round global location sensor (GLS) tracking data of 2356 adult seabirds from 2006−2019 from a network of seabird colonies, data describing the physical environment and data on seabird population sizes. Tracking and environmental data were combined in monthly species distribution models (SDMs). Crossvalidations were used to assess the transferability of models between years and breeding locations. The analyses showed that birds from colonies close to each other (<500 km apart) used the same nonbreeding habitats, while birds from distant colonies (>1000 km) used colony-specific and, in many cases, non-overlapping habitats. Based on these results, the SDM from the nearest model colony was used to predict the distribution of all seabird colonies lying within a speciesspecific cut-off distance (400−500 km). Uncertainties in the predictions were estimated by cluster bootstrap sampling. The resulting data set consisted of 4692 map layers, each layer predicting the densities of birds from a given species, colony and month across the North Atlantic. This data set represents the annual distribution of 23.5 million adult pelagic seabirds, or 87\% of the Northeast Atlantic breeding population of the study species. We show how the data set can be used in population and spatial management applications, including the detection of population-specific nonbreeding habitats and identifying populations influenced by marine protected areas.",

keywords = "Fulmarus glacialis, Rissa tridactyla, Uria aalge, Uria lomvia, Alle alle, Fratercula arctica, Marine spatial planning, SEATRACK",

author = "Per Fauchald and Arnaud Tarroux and F. Am{\'e}lineau and Br{\aa}then, \{Vegard S.\} and S{\'e}bastien Descamps and M. Ekker and Helgason, \{H{\'a}lfdan H.\} and Johansen, \{Malin K.\} and Benjamin Merkel and B{\o}rge Moe and J. {\AA}str{\"o}m and Tycho Anker-Nilssen and O. Bj{\o}rnstad and Olivier Chastel and Signe Christensen-Dalsgaard and J{\'o}hannis Danielsen and Francis Daunt and Nina Dehnhard and Erikstad, \{Kjell E.\} and Alexey Ezhov and Maria Gavrilo and Hallgrimsson, \{Gunnar Thor\} and Hansen, \{Erpur S.\} and Harris, \{Mike P.\} and M. Helberg and J{\'o}nsson, \{J{\'o}n Einar\} and Yann Kolbeinsson and Yuri Krasnov and Magdalene Langset and Svein-H{\aa}kon Lorentsen and E. Lorentzen and Mark Newell and Bergur Olsen and Reiertsen, \{Tone K.\} and Systad, \{Geir Helge\} and Paul Thompson and Th{\'o}rarinsson, \{Thorkell L.\} and Sarah Wanless and K. Wojczulanis-Jakubas and Hallvard Str{\o}m",

year = "2021",

month = oct,

doi = "10.3354/meps13854",

language = "English",

volume = "676",

pages = "255--276",

journal = "Marine Ecology Progress Series",

issn = "0171-8630",

publisher = "Inter-Research",

}

Fauchald, P, Tarroux, A, Amélineau, F, Bråthen, VS, Descamps, S, Ekker, M, Helgason, HH, Johansen, MK, Merkel, B, Moe, B, Åström, J, Anker-Nilssen, T, Bjørnstad, O, Chastel, O, Christensen-Dalsgaard, S, Danielsen, J, Daunt, F, Dehnhard, N, Erikstad, KE, Ezhov, A, Gavrilo, M, Hallgrimsson, GT, Hansen, ES, Harris, MP, Helberg, M, Jónsson, JE, Kolbeinsson, Y, Krasnov, Y, Langset, M, Lorentsen, S-H, Lorentzen, E, Newell, M, Olsen, B, Reiertsen, TK, Systad, GH, Thompson, P, Thórarinsson, TL, Wanless, S, Wojczulanis-Jakubas, K & Strøm, H 2021, 'Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning', Marine Ecology Progress Series, vol. 676, pp. 255-276. https://doi.org/10.3354/meps13854

TY - JOUR

T1 - Year-round distribution of Northeast Atlantic seabird populations

T2 - applications for population management and marine spatial planning

AU - Fauchald, Per

AU - Tarroux, Arnaud

AU - Amélineau, F.

AU - Bråthen, Vegard S.

AU - Descamps, Sébastien

AU - Ekker, M.

AU - Helgason, Hálfdan H.

AU - Johansen, Malin K.

AU - Merkel, Benjamin

AU - Moe, Børge

AU - Åström, J.

AU - Anker-Nilssen, Tycho

AU - Bjørnstad, O.

AU - Chastel, Olivier

AU - Christensen-Dalsgaard, Signe

AU - Danielsen, Jóhannis

AU - Daunt, Francis

AU - Dehnhard, Nina

AU - Erikstad, Kjell E.

AU - Ezhov, Alexey

AU - Gavrilo, Maria

AU - Hallgrimsson, Gunnar Thor

AU - Hansen, Erpur S.

AU - Harris, Mike P.

AU - Helberg, M.

AU - Jónsson, Jón Einar

AU - Kolbeinsson, Yann

AU - Krasnov, Yuri

AU - Langset, Magdalene

AU - Lorentsen, Svein-Håkon

AU - Lorentzen, E.

AU - Newell, Mark

AU - Olsen, Bergur

AU - Reiertsen, Tone K.

AU - Systad, Geir Helge

AU - Thompson, Paul

AU - Thórarinsson, Thorkell L.

AU - Wanless, Sarah

AU - Wojczulanis-Jakubas, K.

AU - Strøm, Hallvard

PY - 2021/10

Y1 - 2021/10

N2 - Tracking data of marine predators are increasingly used in marine spatial management. We developed a spatial data set with estimates of the monthly distribution of 6 pelagic seabird species breeding in the Northeast Atlantic. The data set was based on year-round global location sensor (GLS) tracking data of 2356 adult seabirds from 2006−2019 from a network of seabird colonies, data describing the physical environment and data on seabird population sizes. Tracking and environmental data were combined in monthly species distribution models (SDMs). Crossvalidations were used to assess the transferability of models between years and breeding locations. The analyses showed that birds from colonies close to each other (<500 km apart) used the same nonbreeding habitats, while birds from distant colonies (>1000 km) used colony-specific and, in many cases, non-overlapping habitats. Based on these results, the SDM from the nearest model colony was used to predict the distribution of all seabird colonies lying within a speciesspecific cut-off distance (400−500 km). Uncertainties in the predictions were estimated by cluster bootstrap sampling. The resulting data set consisted of 4692 map layers, each layer predicting the densities of birds from a given species, colony and month across the North Atlantic. This data set represents the annual distribution of 23.5 million adult pelagic seabirds, or 87% of the Northeast Atlantic breeding population of the study species. We show how the data set can be used in population and spatial management applications, including the detection of population-specific nonbreeding habitats and identifying populations influenced by marine protected areas.

AB - Tracking data of marine predators are increasingly used in marine spatial management. We developed a spatial data set with estimates of the monthly distribution of 6 pelagic seabird species breeding in the Northeast Atlantic. The data set was based on year-round global location sensor (GLS) tracking data of 2356 adult seabirds from 2006−2019 from a network of seabird colonies, data describing the physical environment and data on seabird population sizes. Tracking and environmental data were combined in monthly species distribution models (SDMs). Crossvalidations were used to assess the transferability of models between years and breeding locations. The analyses showed that birds from colonies close to each other (<500 km apart) used the same nonbreeding habitats, while birds from distant colonies (>1000 km) used colony-specific and, in many cases, non-overlapping habitats. Based on these results, the SDM from the nearest model colony was used to predict the distribution of all seabird colonies lying within a speciesspecific cut-off distance (400−500 km). Uncertainties in the predictions were estimated by cluster bootstrap sampling. The resulting data set consisted of 4692 map layers, each layer predicting the densities of birds from a given species, colony and month across the North Atlantic. This data set represents the annual distribution of 23.5 million adult pelagic seabirds, or 87% of the Northeast Atlantic breeding population of the study species. We show how the data set can be used in population and spatial management applications, including the detection of population-specific nonbreeding habitats and identifying populations influenced by marine protected areas.

KW - Fulmarus glacialis

KW - Rissa tridactyla

KW - Uria aalge

KW - Uria lomvia

KW - Alle alle

KW - Fratercula arctica

KW - Marine spatial planning

KW - SEATRACK

U2 - 10.3354/meps13854

DO - 10.3354/meps13854

M3 - Article

SN - 0171-8630

VL - 676

SP - 255

EP - 276

JO - Marine Ecology Progress Series

JF - Marine Ecology Progress Series

ER -

Year-round distribution of Northeast Atlantic seabird populations: applications for population management and marine spatial planning

Abstract

Keywords

UN SDGs

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