Habitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian Ocean
Habitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian Ocean
Aim: The distribution of marine predators is driven by the distribution and abundance of their prey; areas preferred by multiple marine predator species should therefore indicate areas of ecological significance. The Southern Ocean supports large populations of seabirds and marine mammals and is undergoing rapid environmental change. The management and conservation of these predators and their environment relies on understanding their distribution and its link with the biophysical environment, as the latter determines the distribution and abundance of prey. We addressed this issue using tracking data from 14 species of marine predators to identify important habitat. Location: Indian Ocean sector of the Southern Ocean. Methods: We used tracking data from 538 tag deployments made over a decade at the Subantarctic Prince Edward Islands. For each real track, we simulated a set of pseudo-tracks that allowed a presence-availability habitat modelling approach that estimates an animal's habitat preference. Using model ensembles of boosted regression trees and random forests, we modelled these tracks as a response to a set of 17 environmental variables. We combined the resulting species-specific models to evaluate areas of mean importance. Results: Real tracking locations covered 39.75 million km2, up to 7,813 km from the Prince Edward Islands. Areas of high mean importance were located broadly from the Subtropical Zone to the Polar Frontal Zone in summer and from the Subantarctic to Antarctic Zones in winter. Areas of high mean importance were best predicted by factors including wind speed, sea surface temperature, depth and current speed. Main conclusions: The models and predictions developed here identify important habitat of marine predators around the Prince Edward Islands and can support the large-scale conservation and management of Subantarctic ecosystems and the marine predators they sustain. The results also form the basis of future efforts to predict the consequences of environmental change.
areas of ecological significance, distribution, distribution models, hotspots, marine mammals, marine protected areas, seabirds
535-550
Reisinger, Ryan R.
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Raymond, Ben
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Hindell, Mark A.
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Bester, Marthán N.
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Crawford, Robert J.M.
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Davies, Delia
26632226-f37c-4b54-b55d-8d5e6ca2f6d0
de Bruyn, P. J.Nico
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Dilley, Ben J.
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Kirkman, Stephen P.
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Makhado, Azwianewi B.
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Ryan, Peter G.
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Schoombie, Stefan
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Stevens, Kim
acff965d-6cf5-45eb-ac11-a90457dc148f
Sumner, Michael D.
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Tosh, Cheryl A.
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Wege, Mia
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Whitehead, Thomas Otto
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Wotherspoon, Simon
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Pistorius, Pierre A.
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April 2018
Reisinger, Ryan R.
4eaf9440-48e5-41fa-853f-d46457e5444e
Raymond, Ben
e5616757-da17-44a3-a745-f827d33d1487
Hindell, Mark A.
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Bester, Marthán N.
41dd4579-d0bb-430f-9044-9d98a55d548c
Crawford, Robert J.M.
70efab42-9994-4a63-8923-cdd1fd101474
Davies, Delia
26632226-f37c-4b54-b55d-8d5e6ca2f6d0
de Bruyn, P. J.Nico
3257867f-eda3-4ddf-baa3-aaf692de19bb
Dilley, Ben J.
b5f02c44-da7b-4dbd-aa58-94448f38f4a3
Kirkman, Stephen P.
73111260-8696-4709-ab2f-f3138e01cb57
Makhado, Azwianewi B.
33039c27-9987-4b7a-b95a-3745db700c14
Ryan, Peter G.
e0459c57-0c5e-43c4-b48b-7043faaf4df0
Schoombie, Stefan
de67ce16-58f3-4d02-b268-26781d882092
Stevens, Kim
acff965d-6cf5-45eb-ac11-a90457dc148f
Sumner, Michael D.
ca9d8591-13f0-410e-825c-d9eb59651293
Tosh, Cheryl A.
f90378e0-5386-4395-9576-f9f0d460ad23
Wege, Mia
d5c48d5b-9587-45e3-be59-273d1b59f938
Whitehead, Thomas Otto
1e42f934-28d1-4e52-ad4d-9e56d8fe03db
Wotherspoon, Simon
b21d6268-d6da-4a7e-96dc-694d18debcea
Pistorius, Pierre A.
5a585272-2721-45dd-9384-56a05a477b36
Reisinger, Ryan R., Raymond, Ben, Hindell, Mark A., Bester, Marthán N., Crawford, Robert J.M., Davies, Delia, de Bruyn, P. J.Nico, Dilley, Ben J., Kirkman, Stephen P., Makhado, Azwianewi B., Ryan, Peter G., Schoombie, Stefan, Stevens, Kim, Sumner, Michael D., Tosh, Cheryl A., Wege, Mia, Whitehead, Thomas Otto, Wotherspoon, Simon and Pistorius, Pierre A.
(2018)
Habitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian Ocean.
Diversity and Distributions, 24 (4), .
(doi:10.1111/ddi.12702).
Abstract
Aim: The distribution of marine predators is driven by the distribution and abundance of their prey; areas preferred by multiple marine predator species should therefore indicate areas of ecological significance. The Southern Ocean supports large populations of seabirds and marine mammals and is undergoing rapid environmental change. The management and conservation of these predators and their environment relies on understanding their distribution and its link with the biophysical environment, as the latter determines the distribution and abundance of prey. We addressed this issue using tracking data from 14 species of marine predators to identify important habitat. Location: Indian Ocean sector of the Southern Ocean. Methods: We used tracking data from 538 tag deployments made over a decade at the Subantarctic Prince Edward Islands. For each real track, we simulated a set of pseudo-tracks that allowed a presence-availability habitat modelling approach that estimates an animal's habitat preference. Using model ensembles of boosted regression trees and random forests, we modelled these tracks as a response to a set of 17 environmental variables. We combined the resulting species-specific models to evaluate areas of mean importance. Results: Real tracking locations covered 39.75 million km2, up to 7,813 km from the Prince Edward Islands. Areas of high mean importance were located broadly from the Subtropical Zone to the Polar Frontal Zone in summer and from the Subantarctic to Antarctic Zones in winter. Areas of high mean importance were best predicted by factors including wind speed, sea surface temperature, depth and current speed. Main conclusions: The models and predictions developed here identify important habitat of marine predators around the Prince Edward Islands and can support the large-scale conservation and management of Subantarctic ecosystems and the marine predators they sustain. The results also form the basis of future efforts to predict the consequences of environmental change.
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Published date: April 2018
Keywords:
areas of ecological significance, distribution, distribution models, hotspots, marine mammals, marine protected areas, seabirds
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Local EPrints ID: 455665
URI: http://eprints.soton.ac.uk/id/eprint/455665
ISSN: 1366-9516
PURE UUID: 1d52ea03-0735-4fc8-80d6-0b70dbb01502
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Date deposited: 30 Mar 2022 16:41
Last modified: 18 Mar 2024 04:03
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Contributors
Author:
Ben Raymond
Author:
Mark A. Hindell
Author:
Marthán N. Bester
Author:
Robert J.M. Crawford
Author:
Delia Davies
Author:
P. J.Nico de Bruyn
Author:
Ben J. Dilley
Author:
Stephen P. Kirkman
Author:
Azwianewi B. Makhado
Author:
Peter G. Ryan
Author:
Stefan Schoombie
Author:
Kim Stevens
Author:
Michael D. Sumner
Author:
Cheryl A. Tosh
Author:
Mia Wege
Author:
Thomas Otto Whitehead
Author:
Simon Wotherspoon
Author:
Pierre A. Pistorius
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