The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic

Biological production in the oceanic zone (i.e. waters beyond the continental shelves) is typically spatially patchy and strongly seasonal. In response, seabirds have adapted to move rapidly within and between ocean basins, making them important pelagic consumers. Studies in the Pacific, Southern an...

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Published in:Progress in Oceanography
Main Authors: Wakefield, Ewan D., Miller, David L., Bond, Sarah L., le Bouard, Fabrice, Carvalho, Paloma C., Catry, Paulo, Dilley, Ben J., Fifield, David A., Gjerdrum, Carina, González-Solís, Jacob, Hogan, Holly, Laptikhovsky, Vladimir, Merkel, Benjamin, A. O. Miller, Julie, Miller, Peter I., Pinder, Simon J., Pipa, Tânia, Ryan, Peter M., Thompson, Laura A., Thompson, Paul M., Matthiopoulos, Jason
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Distance sampling
Habitat model
Mesoscale eddy
Marine protected area
Procellariiformes
Shearwater
Indian
Mid-Atlantic Ridge
Pacific
Fulmarus glacialis
North Atlantic
Northwest Atlantic
Oceanodroma leucorhoa
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/the-summer-distribution-habitat-associations-and-abundance-of-seabirds-in-the-subpolar-frontal-zone-of-the-northwest-atlantic(79c280a3-5f28-415f-968e-13e4ad27c137).html
https://doi.org/10.1016/j.pocean.2021.102657
https://research-repository.st-andrews.ac.uk/bitstream/10023/23883/1/Wakefield_2021_PO_Summer_CC.pdf
id ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/79c280a3-5f28-415f-968e-13e4ad27c137
record_format openpolar
spelling ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/79c280a3-5f28-415f-968e-13e4ad27c137 2023-05-15T16:18:34+02:00 The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic Wakefield, Ewan D. Miller, David L. Bond, Sarah L. le Bouard, Fabrice Carvalho, Paloma C. Catry, Paulo Dilley, Ben J. Fifield, David A. Gjerdrum, Carina González-Solís, Jacob Hogan, Holly Laptikhovsky, Vladimir Merkel, Benjamin A. O. Miller, Julie Miller, Peter I. Pinder, Simon J. Pipa, Tânia Ryan, Peter M. Thompson, Laura A. Thompson, Paul M. Matthiopoulos, Jason 2021-11 application/pdf https://risweb.st-andrews.ac.uk/portal/en/researchoutput/the-summer-distribution-habitat-associations-and-abundance-of-seabirds-in-the-subpolar-frontal-zone-of-the-northwest-atlantic(79c280a3-5f28-415f-968e-13e4ad27c137).html https://doi.org/10.1016/j.pocean.2021.102657 https://research-repository.st-andrews.ac.uk/bitstream/10023/23883/1/Wakefield_2021_PO_Summer_CC.pdf eng eng info:eu-repo/semantics/openAccess Wakefield , E D , Miller , D L , Bond , S L , le Bouard , F , Carvalho , P C , Catry , P , Dilley , B J , Fifield , D A , Gjerdrum , C , González-Solís , J , Hogan , H , Laptikhovsky , V , Merkel , B , A. O. Miller , J , Miller , P I , Pinder , S J , Pipa , T , Ryan , P M , Thompson , L A , Thompson , P M & Matthiopoulos , J 2021 , ' The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic ' , Progress in Oceanography , vol. 198 , 102657 . https://doi.org/10.1016/j.pocean.2021.102657 Distance sampling Habitat model Mesoscale eddy Marine protected area Procellariiformes Shearwater article 2021 ftunstandrewcris https://doi.org/10.1016/j.pocean.2021.102657 2022-06-02T07:53:20Z Biological production in the oceanic zone (i.e. waters beyond the continental shelves) is typically spatially patchy and strongly seasonal. In response, seabirds have adapted to move rapidly within and between ocean basins, making them important pelagic consumers. Studies in the Pacific, Southern and Indian Oceans have shown that seabirds are relatively abundant in major frontal systems, with species composition varying by water mass. In contrast, surprisingly little was known about seabird distribution in the oceanic North Atlantic until recent tracking showed that relative abundance and diversity peak in the Sub-polar Frontal Zone, west of the Mid-Atlantic Ridge, now proposed as a Marine Protected Area. However, absolute seabird abundance, distribution, age and species composition, and their potential environmental drivers in the oceanic temperate NW Atlantic remain largely unknown. Consequently, we systematically surveyed seabirds and environmental conditions across this area by ship in June, 2017, then modelled the density of common species as functions of environmental covariates, validating model predictions against independent tracking data. Medium-sized petrels (99.8%), especially Great Shearwaters ( Ardenna gravis , 63%), accounted for the majority of total avian biomass, which correlated at the macroscale with net primary production and peaked at the sub-polar front. At the mesoscale, the density of each species was associated with sea surface temperature, indicating zonation by water mass. Most species also exhibited scale-dependent associations with eddies and fronts. Approximately 51, 26, 23, 7 and 1 % of the currently estimated Atlantic populations of Cory's Shearwaters ( Calonectris borealis ), Great Shearwaters, Sooty Shearwaters ( A. grisea ), Northern Fulmars ( Fulmarus glacialis ) and Leach’s Storm-petrels ( Oceanodroma leucorhoa ) occurred in the area during our survey, many of which were undergoing moult (a vital maintena nce activity). For some species, these estimates are higher than ... Article in Journal/Newspaper Fulmarus glacialis North Atlantic Northwest Atlantic Oceanodroma leucorhoa University of St Andrews: Research Portal Indian Mid-Atlantic Ridge Pacific Progress in Oceanography 198 102657
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic Distance sampling
Habitat model
Mesoscale eddy
Marine protected area
Procellariiformes
Shearwater
spellingShingle Distance sampling
Habitat model
Mesoscale eddy
Marine protected area
Procellariiformes
Shearwater
Wakefield, Ewan D.
Miller, David L.
Bond, Sarah L.
le Bouard, Fabrice
Carvalho, Paloma C.
Catry, Paulo
Dilley, Ben J.
Fifield, David A.
Gjerdrum, Carina
González-Solís, Jacob
Hogan, Holly
Laptikhovsky, Vladimir
Merkel, Benjamin
A. O. Miller, Julie
Miller, Peter I.
Pinder, Simon J.
Pipa, Tânia
Ryan, Peter M.
Thompson, Laura A.
Thompson, Paul M.
Matthiopoulos, Jason
The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
topic_facet Distance sampling
Habitat model
Mesoscale eddy
Marine protected area
Procellariiformes
Shearwater
description Biological production in the oceanic zone (i.e. waters beyond the continental shelves) is typically spatially patchy and strongly seasonal. In response, seabirds have adapted to move rapidly within and between ocean basins, making them important pelagic consumers. Studies in the Pacific, Southern and Indian Oceans have shown that seabirds are relatively abundant in major frontal systems, with species composition varying by water mass. In contrast, surprisingly little was known about seabird distribution in the oceanic North Atlantic until recent tracking showed that relative abundance and diversity peak in the Sub-polar Frontal Zone, west of the Mid-Atlantic Ridge, now proposed as a Marine Protected Area. However, absolute seabird abundance, distribution, age and species composition, and their potential environmental drivers in the oceanic temperate NW Atlantic remain largely unknown. Consequently, we systematically surveyed seabirds and environmental conditions across this area by ship in June, 2017, then modelled the density of common species as functions of environmental covariates, validating model predictions against independent tracking data. Medium-sized petrels (99.8%), especially Great Shearwaters ( Ardenna gravis , 63%), accounted for the majority of total avian biomass, which correlated at the macroscale with net primary production and peaked at the sub-polar front. At the mesoscale, the density of each species was associated with sea surface temperature, indicating zonation by water mass. Most species also exhibited scale-dependent associations with eddies and fronts. Approximately 51, 26, 23, 7 and 1 % of the currently estimated Atlantic populations of Cory's Shearwaters ( Calonectris borealis ), Great Shearwaters, Sooty Shearwaters ( A. grisea ), Northern Fulmars ( Fulmarus glacialis ) and Leach’s Storm-petrels ( Oceanodroma leucorhoa ) occurred in the area during our survey, many of which were undergoing moult (a vital maintena nce activity). For some species, these estimates are higher than ...
format Article in Journal/Newspaper
author Wakefield, Ewan D.
Miller, David L.
Bond, Sarah L.
le Bouard, Fabrice
Carvalho, Paloma C.
Catry, Paulo
Dilley, Ben J.
Fifield, David A.
Gjerdrum, Carina
González-Solís, Jacob
Hogan, Holly
Laptikhovsky, Vladimir
Merkel, Benjamin
A. O. Miller, Julie
Miller, Peter I.
Pinder, Simon J.
Pipa, Tânia
Ryan, Peter M.
Thompson, Laura A.
Thompson, Paul M.
Matthiopoulos, Jason
author_facet Wakefield, Ewan D.
Miller, David L.
Bond, Sarah L.
le Bouard, Fabrice
Carvalho, Paloma C.
Catry, Paulo
Dilley, Ben J.
Fifield, David A.
Gjerdrum, Carina
González-Solís, Jacob
Hogan, Holly
Laptikhovsky, Vladimir
Merkel, Benjamin
A. O. Miller, Julie
Miller, Peter I.
Pinder, Simon J.
Pipa, Tânia
Ryan, Peter M.
Thompson, Laura A.
Thompson, Paul M.
Matthiopoulos, Jason
author_sort Wakefield, Ewan D.
title The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
title_short The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
title_full The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
title_fullStr The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
title_full_unstemmed The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic
title_sort summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the northwest atlantic
publishDate 2021
url https://risweb.st-andrews.ac.uk/portal/en/researchoutput/the-summer-distribution-habitat-associations-and-abundance-of-seabirds-in-the-subpolar-frontal-zone-of-the-northwest-atlantic(79c280a3-5f28-415f-968e-13e4ad27c137).html
https://doi.org/10.1016/j.pocean.2021.102657
https://research-repository.st-andrews.ac.uk/bitstream/10023/23883/1/Wakefield_2021_PO_Summer_CC.pdf
geographic Indian
Mid-Atlantic Ridge
Pacific
geographic_facet Indian
Mid-Atlantic Ridge
Pacific
genre Fulmarus glacialis
North Atlantic
Northwest Atlantic
Oceanodroma leucorhoa
genre_facet Fulmarus glacialis
North Atlantic
Northwest Atlantic
Oceanodroma leucorhoa
op_source Wakefield , E D , Miller , D L , Bond , S L , le Bouard , F , Carvalho , P C , Catry , P , Dilley , B J , Fifield , D A , Gjerdrum , C , González-Solís , J , Hogan , H , Laptikhovsky , V , Merkel , B , A. O. Miller , J , Miller , P I , Pinder , S J , Pipa , T , Ryan , P M , Thompson , L A , Thompson , P M & Matthiopoulos , J 2021 , ' The summer distribution, habitat associations and abundance of seabirds in the sub-polar frontal zone of the Northwest Atlantic ' , Progress in Oceanography , vol. 198 , 102657 . https://doi.org/10.1016/j.pocean.2021.102657
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1016/j.pocean.2021.102657
container_title Progress in Oceanography
container_volume 198
container_start_page 102657
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