Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change

There is an urgent need for a better understanding of animal migratory ecology under the influence of climate change. Most current analyses require long-term monitoring of populations on the move, and shorter-term approaches are needed. Here, we analysed the ecological drivers of seabird migration w...

Full description

Bibliographic Details
Main Authors: F. Amélineau, J. Fort, P.D. Mathewson, D.C. Speirs, N. Courbin, S. Perret, W.P. Porter, R.J. Wilson, D. Grémillet
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Physiology
Environmental Science
Ecology
bioenergetics
biologging
habitat modelling
little auk (Alle alle)
migration
spatial ecology
Arctic
Greenland
Alle alle
Calanus finmarchicus
Climate change
East Greenland
little auk
Newfoundland
North Atlantic
Online Access:https://doi.org/10.6084/m9.figshare.5745378.v1
https://figshare.com/articles/journal_contribution/Results_of_the_sensitivity_analysis_in_Niche_Mapper_for_the_daily_energy_requirements_of_little_auks_in_winter_from_Energyscapes_and_prey_fields_shape_a_North_Atlantic_seabird_wintering_hotspot_under_climate_change/5745378
id ftroysocietyfig:oai:figshare.com:article/5745378
record_format openpolar
spelling ftroysocietyfig:oai:figshare.com:article/5745378 2023-05-15T13:16:15+02:00 Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change F. Amélineau J. Fort P.D. Mathewson D.C. Speirs N. Courbin S. Perret W.P. Porter R.J. Wilson D. Grémillet 2017-12-30T03:41:07Z https://doi.org/10.6084/m9.figshare.5745378.v1 https://figshare.com/articles/journal_contribution/Results_of_the_sensitivity_analysis_in_Niche_Mapper_for_the_daily_energy_requirements_of_little_auks_in_winter_from_Energyscapes_and_prey_fields_shape_a_North_Atlantic_seabird_wintering_hotspot_under_climate_change/5745378 unknown doi:10.6084/m9.figshare.5745378.v1 https://figshare.com/articles/journal_contribution/Results_of_the_sensitivity_analysis_in_Niche_Mapper_for_the_daily_energy_requirements_of_little_auks_in_winter_from_Energyscapes_and_prey_fields_shape_a_North_Atlantic_seabird_wintering_hotspot_under_climate_change/5745378 CC BY CC-BY Physiology Environmental Science Ecology bioenergetics biologging habitat modelling little auk (Alle alle) migration spatial ecology Text Journal contribution 2017 ftroysocietyfig https://doi.org/10.6084/m9.figshare.5745378.v1 2022-01-01T19:50:45Z There is an urgent need for a better understanding of animal migratory ecology under the influence of climate change. Most current analyses require long-term monitoring of populations on the move, and shorter-term approaches are needed. Here, we analysed the ecological drivers of seabird migration within the framework of the energyscape concept, which we defined as the variations in the energy requirements of an organism across geographical space as a function of environmental conditions. We compared the winter location of seabirds with their modelled energy requirements and prey fields throughout the North Atlantic. Across six winters, we tracked the migration of 94 little auks ( Alle alle ), a key sentinel Arctic species, between their East-Greenland breeding site and wintering areas off Newfoundland. Winter energyscapes were modelled with Niche Mapper™, a mechanistic tool which takes into account local climate and bird ecophysiology. Subsequently, we used a resource selection function to explain seabird distributions through modelled energyscapes and winter surface distribution of one of their main prey, Calanus finmarchicus . Finally, future energyscapes were calculated according to IPCC climate change scenarios. We found that little auks targeted areas with high prey densities and moderately elevated energyscapes. Predicted energyscapes for 2050 and 2095 showed a decrease in winter energy requirements under the high emission scenario, which may be beneficial if prey availability is maintained. Overall, our study demonstrates the great potential of the energyscape concept for the study of animal spatial ecology, in particular in the context of global change. Other Non-Article Part of Journal/Newspaper Alle alle Arctic Calanus finmarchicus Climate change East Greenland Greenland little auk Newfoundland North Atlantic The Royal Society: Figshare Arctic Greenland
institution Open Polar
collection The Royal Society: Figshare
op_collection_id ftroysocietyfig
language unknown
topic Physiology
Environmental Science
Ecology
bioenergetics
biologging
habitat modelling
little auk (Alle alle)
migration
spatial ecology
spellingShingle Physiology
Environmental Science
Ecology
bioenergetics
biologging
habitat modelling
little auk (Alle alle)
migration
spatial ecology
F. Amélineau
J. Fort
P.D. Mathewson
D.C. Speirs
N. Courbin
S. Perret
W.P. Porter
R.J. Wilson
D. Grémillet
Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
topic_facet Physiology
Environmental Science
Ecology
bioenergetics
biologging
habitat modelling
little auk (Alle alle)
migration
spatial ecology
description There is an urgent need for a better understanding of animal migratory ecology under the influence of climate change. Most current analyses require long-term monitoring of populations on the move, and shorter-term approaches are needed. Here, we analysed the ecological drivers of seabird migration within the framework of the energyscape concept, which we defined as the variations in the energy requirements of an organism across geographical space as a function of environmental conditions. We compared the winter location of seabirds with their modelled energy requirements and prey fields throughout the North Atlantic. Across six winters, we tracked the migration of 94 little auks ( Alle alle ), a key sentinel Arctic species, between their East-Greenland breeding site and wintering areas off Newfoundland. Winter energyscapes were modelled with Niche Mapper™, a mechanistic tool which takes into account local climate and bird ecophysiology. Subsequently, we used a resource selection function to explain seabird distributions through modelled energyscapes and winter surface distribution of one of their main prey, Calanus finmarchicus . Finally, future energyscapes were calculated according to IPCC climate change scenarios. We found that little auks targeted areas with high prey densities and moderately elevated energyscapes. Predicted energyscapes for 2050 and 2095 showed a decrease in winter energy requirements under the high emission scenario, which may be beneficial if prey availability is maintained. Overall, our study demonstrates the great potential of the energyscape concept for the study of animal spatial ecology, in particular in the context of global change.
format Other Non-Article Part of Journal/Newspaper
author F. Amélineau
J. Fort
P.D. Mathewson
D.C. Speirs
N. Courbin
S. Perret
W.P. Porter
R.J. Wilson
D. Grémillet
author_facet F. Amélineau
J. Fort
P.D. Mathewson
D.C. Speirs
N. Courbin
S. Perret
W.P. Porter
R.J. Wilson
D. Grémillet
author_sort F. Amélineau
title Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
title_short Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
title_full Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
title_fullStr Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
title_full_unstemmed Results of the sensitivity analysis in Niche Mapper for the daily energy requirements of little auks in winter from Energyscapes and prey fields shape a North Atlantic seabird wintering hotspot under climate change
title_sort results of the sensitivity analysis in niche mapper for the daily energy requirements of little auks in winter from energyscapes and prey fields shape a north atlantic seabird wintering hotspot under climate change
publishDate 2017
url https://doi.org/10.6084/m9.figshare.5745378.v1
https://figshare.com/articles/journal_contribution/Results_of_the_sensitivity_analysis_in_Niche_Mapper_for_the_daily_energy_requirements_of_little_auks_in_winter_from_Energyscapes_and_prey_fields_shape_a_North_Atlantic_seabird_wintering_hotspot_under_climate_change/5745378
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Alle alle
Arctic
Calanus finmarchicus
Climate change
East Greenland
Greenland
little auk
Newfoundland
North Atlantic
genre_facet Alle alle
Arctic
Calanus finmarchicus
Climate change
East Greenland
Greenland
little auk
Newfoundland
North Atlantic
op_relation doi:10.6084/m9.figshare.5745378.v1
https://figshare.com/articles/journal_contribution/Results_of_the_sensitivity_analysis_in_Niche_Mapper_for_the_daily_energy_requirements_of_little_auks_in_winter_from_Energyscapes_and_prey_fields_shape_a_North_Atlantic_seabird_wintering_hotspot_under_climate_change/5745378
op_rights CC BY
op_rightsnorm CC-BY
op_doi https://doi.org/10.6084/m9.figshare.5745378.v1
_version_ 1766273242879754240

Similar Items