Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore

Climate change is driving worldwide shifts in the distribution of biodiversity, and fundamental changes to global avian migrations. Some arctic‐nesting species may shorten their migration distance as warmer temperatures allow them to winter closer to their high‐latitude breeding grounds. However, su...

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Published in:Ecosphere
Main Authors: Stillman, R.A., Rivers, E.M., Gilkerson, W., Wood, K.A., Nolet, B.A., Clausen, P., Wilson, H.M., Ward, D.H.
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Arctic
Brant
Branta bernicla
Climate change
High Latitude Breeding
Alaska
Online Access:https://dare.uva.nl/personal/pure/en/publications/predicting-impacts-of-food-competition-climate-and-disturbance-on-a-longdistance-migratory-herbivore(f46d14f0-64ec-478a-aeb8-1b6dfc6f8874).html
https://doi.org/10.1002/ecs2.3405
https://hdl.handle.net/11245.1/f46d14f0-64ec-478a-aeb8-1b6dfc6f8874
https://pure.uva.nl/ws/files/59192469/ecs2.3405.pdf
id ftunivamstpubl:oai:dare.uva.nl:openaire_cris_publications/f46d14f0-64ec-478a-aeb8-1b6dfc6f8874
record_format openpolar
spelling ftunivamstpubl:oai:dare.uva.nl:openaire_cris_publications/f46d14f0-64ec-478a-aeb8-1b6dfc6f8874 2024-09-30T14:30:27+00:00 Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore Stillman, R.A. Rivers, E.M. Gilkerson, W. Wood, K.A. Nolet, B.A. Clausen, P. Wilson, H.M. Ward, D.H. 2021-03 application/pdf https://dare.uva.nl/personal/pure/en/publications/predicting-impacts-of-food-competition-climate-and-disturbance-on-a-longdistance-migratory-herbivore(f46d14f0-64ec-478a-aeb8-1b6dfc6f8874).html https://doi.org/10.1002/ecs2.3405 https://hdl.handle.net/11245.1/f46d14f0-64ec-478a-aeb8-1b6dfc6f8874 https://pure.uva.nl/ws/files/59192469/ecs2.3405.pdf eng eng https://dare.uva.nl/personal/pure/en/publications/predicting-impacts-of-food-competition-climate-and-disturbance-on-a-longdistance-migratory-herbivore(f46d14f0-64ec-478a-aeb8-1b6dfc6f8874).html info:eu-repo/semantics/openAccess Stillman , R A , Rivers , E M , Gilkerson , W , Wood , K A , Nolet , B A , Clausen , P , Wilson , H M & Ward , D H 2021 , ' Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore ' , Ecosphere , vol. 12 , no. 3 , e03405 . https://doi.org/10.1002/ecs2.3405 article 2021 ftunivamstpubl https://doi.org/10.1002/ecs2.3405 2024-09-12T16:38:39Z Climate change is driving worldwide shifts in the distribution of biodiversity, and fundamental changes to global avian migrations. Some arctic‐nesting species may shorten their migration distance as warmer temperatures allow them to winter closer to their high‐latitude breeding grounds. However, such decisions are not without risks, since this intensifies pressure on resources when they are used for greater periods of time. In this study, we used an individual‐based model to predict how future changes in food abundance, winter ice coverage, and human disturbance could impact an Arctic/sub‐Arctic breeding goose species, black brant ( Branta bernicla nigricans , Lawrence 1846), and their primary food source, common eelgrass ( Zostera marina L. ), at the Izembek Lagoon complex in southwest Alaska. Brant use the site during fall and spring migrations, and increasingly, for the duration of winter. The model was validated by comparing predictions to empirical observations of proportion of geese surviving, proportion of geese emigrating, mean duration of stay, mean rate of mass gain/loss, percentage of time spent feeding, number of bird days, peak population numbers, and distribution across the complex. The model predicted that reductions >50% of the current decadal (2007–2015) mean of eelgrass biomass, which have been observed in some years, or increases in the number of brant, could lead to a reduction in the proportion of birds that successfully migrate to their breeding grounds from the site. The model also predicted that access to eelgrass in lagoons other than Izembek was critical for overwinter survival and spring migration of brant, if overall eelgrass biomass was 50% of the decadal mean biomass. Geese were typically predicted to be more vulnerable to environmental change during winter and spring, when eelgrass biomass is lower, and thermoregulatory costs for the geese are higher than in fall. We discuss the consequences of these predictions for goose population trends in the face of natural and human ... Article in Journal/Newspaper Arctic Branta bernicla Climate change High Latitude Breeding Alaska Universiteit van Amsterdam: Digital Academic Repository (UvA DARE) Arctic Brant ENVELOPE(7.105,7.105,62.917,62.917) Ecosphere 12 3
institution Open Polar
collection Universiteit van Amsterdam: Digital Academic Repository (UvA DARE)
op_collection_id ftunivamstpubl
language English
description Climate change is driving worldwide shifts in the distribution of biodiversity, and fundamental changes to global avian migrations. Some arctic‐nesting species may shorten their migration distance as warmer temperatures allow them to winter closer to their high‐latitude breeding grounds. However, such decisions are not without risks, since this intensifies pressure on resources when they are used for greater periods of time. In this study, we used an individual‐based model to predict how future changes in food abundance, winter ice coverage, and human disturbance could impact an Arctic/sub‐Arctic breeding goose species, black brant ( Branta bernicla nigricans , Lawrence 1846), and their primary food source, common eelgrass ( Zostera marina L. ), at the Izembek Lagoon complex in southwest Alaska. Brant use the site during fall and spring migrations, and increasingly, for the duration of winter. The model was validated by comparing predictions to empirical observations of proportion of geese surviving, proportion of geese emigrating, mean duration of stay, mean rate of mass gain/loss, percentage of time spent feeding, number of bird days, peak population numbers, and distribution across the complex. The model predicted that reductions >50% of the current decadal (2007–2015) mean of eelgrass biomass, which have been observed in some years, or increases in the number of brant, could lead to a reduction in the proportion of birds that successfully migrate to their breeding grounds from the site. The model also predicted that access to eelgrass in lagoons other than Izembek was critical for overwinter survival and spring migration of brant, if overall eelgrass biomass was 50% of the decadal mean biomass. Geese were typically predicted to be more vulnerable to environmental change during winter and spring, when eelgrass biomass is lower, and thermoregulatory costs for the geese are higher than in fall. We discuss the consequences of these predictions for goose population trends in the face of natural and human ...
format Article in Journal/Newspaper
author Stillman, R.A.
Rivers, E.M.
Gilkerson, W.
Wood, K.A.
Nolet, B.A.
Clausen, P.
Wilson, H.M.
Ward, D.H.
spellingShingle Stillman, R.A.
Rivers, E.M.
Gilkerson, W.
Wood, K.A.
Nolet, B.A.
Clausen, P.
Wilson, H.M.
Ward, D.H.
Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
author_facet Stillman, R.A.
Rivers, E.M.
Gilkerson, W.
Wood, K.A.
Nolet, B.A.
Clausen, P.
Wilson, H.M.
Ward, D.H.
author_sort Stillman, R.A.
title Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
title_short Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
title_full Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
title_fullStr Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
title_full_unstemmed Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
title_sort predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore
publishDate 2021
url https://dare.uva.nl/personal/pure/en/publications/predicting-impacts-of-food-competition-climate-and-disturbance-on-a-longdistance-migratory-herbivore(f46d14f0-64ec-478a-aeb8-1b6dfc6f8874).html
https://doi.org/10.1002/ecs2.3405
https://hdl.handle.net/11245.1/f46d14f0-64ec-478a-aeb8-1b6dfc6f8874
https://pure.uva.nl/ws/files/59192469/ecs2.3405.pdf
long_lat ENVELOPE(7.105,7.105,62.917,62.917)
geographic Arctic
Brant
geographic_facet Arctic
Brant
genre Arctic
Branta bernicla
Climate change
High Latitude Breeding
Alaska
genre_facet Arctic
Branta bernicla
Climate change
High Latitude Breeding
Alaska
op_source Stillman , R A , Rivers , E M , Gilkerson , W , Wood , K A , Nolet , B A , Clausen , P , Wilson , H M & Ward , D H 2021 , ' Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore ' , Ecosphere , vol. 12 , no. 3 , e03405 . https://doi.org/10.1002/ecs2.3405
op_relation https://dare.uva.nl/personal/pure/en/publications/predicting-impacts-of-food-competition-climate-and-disturbance-on-a-longdistance-migratory-herbivore(f46d14f0-64ec-478a-aeb8-1b6dfc6f8874).html
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1002/ecs2.3405
container_title Ecosphere
container_volume 12
container_issue 3
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