Pelagic sharks target long‐lived, retentive anticyclonic eddies in the Northwest Atlantic Ocean
Pelagic sharks target long‐lived, retentive anticyclonic eddies in the Northwest Atlantic Ocean
Open ocean ecosystems represent the largest habitat on Earth and are highly dynamic in time and space. Mesoscale eddies are a primary driver of this variability and serve a key structural role in ocean ecosystems. Eddies modulate marine biodiversity beyond their impacts on plankton, influencing many ecologically and commercially important predators that may preferentially occupy anticyclonic eddies. However, how animal-eddy interactions scale across predator species and the mechanistic drivers of these relationships remain an area of active research. We integrated satellite tracking data for sharks with observations of mesoscale eddies to determine how four shark species interact with eddies in the Gulf Stream region. Based on over 24,000 tracking days, we found that blue, white, and shortfin mako sharks selected for the cores of anticyclones while the use of eddies by tiger sharks was less conspicuous. Some particularly large and long-lived anticyclones were occupied by tagged sharks for multiple weeks suggesting that these eddies may serve as hotspots for pelagic predators.
3972-3982
Braun, Camrin D.
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Gaube, Peter
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Della Penna, Alice
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Thorrold, Simon R.
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McDonnell, Laura H.
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Fischer, G. Chris
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Mucientes, Gonzalo
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Queiroz, Nuno
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Shivji, Mahmood
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Sims, David W.
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Skomal, Gregory B.
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Wetherbee, Bradley
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Arostegui, Martin C.
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December 2025
Braun, Camrin D.
f53f1c67-16ce-4d16-996e-5b6ed7caae9d
Gaube, Peter
f7fc2fff-f45c-4b90-bb9b-a3b699f356bf
Della Penna, Alice
8f108e07-23ad-4cd0-af6e-586b67a00225
Thorrold, Simon R.
fc28835b-1422-46dd-98e8-af2170f4680c
McDonnell, Laura H.
f9ae4d6a-3443-4adb-8398-e4ded2ddf964
Fischer, G. Chris
dde0b225-c54a-419d-8133-1ec5ee883334
Mucientes, Gonzalo
9caa809a-57b0-4037-80e7-896db3abf9d5
Queiroz, Nuno
d2412325-a4b3-49c1-ae49-c8370b6720ab
Shivji, Mahmood
621c86a5-3cc1-4a90-8c65-ee8d81e81aae
Sims, David W.
7234b444-25e2-4bd5-8348-a1c142d0cf81
Skomal, Gregory B.
c33644a8-c2da-4188-becd-0f368a3a51c9
Wetherbee, Bradley
cee3a705-eb60-4815-ae8f-d1f3fa3aed4a
Arostegui, Martin C.
b25b5e24-9e1a-4ff0-ade9-20040a07e91c
Braun, Camrin D., Gaube, Peter, Della Penna, Alice, Thorrold, Simon R., McDonnell, Laura H., Fischer, G. Chris, Mucientes, Gonzalo, Queiroz, Nuno, Shivji, Mahmood, Sims, David W., Skomal, Gregory B., Wetherbee, Bradley and Arostegui, Martin C.
(2025)
Pelagic sharks target long‐lived, retentive anticyclonic eddies in the Northwest Atlantic Ocean.
Limnology and Oceanography, 70 (12), .
(doi:10.1002/lno.70260).
Abstract
Open ocean ecosystems represent the largest habitat on Earth and are highly dynamic in time and space. Mesoscale eddies are a primary driver of this variability and serve a key structural role in ocean ecosystems. Eddies modulate marine biodiversity beyond their impacts on plankton, influencing many ecologically and commercially important predators that may preferentially occupy anticyclonic eddies. However, how animal-eddy interactions scale across predator species and the mechanistic drivers of these relationships remain an area of active research. We integrated satellite tracking data for sharks with observations of mesoscale eddies to determine how four shark species interact with eddies in the Gulf Stream region. Based on over 24,000 tracking days, we found that blue, white, and shortfin mako sharks selected for the cores of anticyclones while the use of eddies by tiger sharks was less conspicuous. Some particularly large and long-lived anticyclones were occupied by tagged sharks for multiple weeks suggesting that these eddies may serve as hotspots for pelagic predators.
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Braun et al - sharks eddies_ACCEPTED
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Accepted/In Press date: 24 October 2025
e-pub ahead of print date: 20 November 2025
Published date: December 2025
Identifiers
Local EPrints ID: 508610
URI: http://eprints.soton.ac.uk/id/eprint/508610
ISSN: 0024-3590
PURE UUID: 80cd3516-03fd-4524-8fe8-6eacd607818c
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Date deposited: 28 Jan 2026 17:37
Last modified: 31 Jan 2026 04:52
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Contributors
Author:
Camrin D. Braun
Author:
Peter Gaube
Author:
Alice Della Penna
Author:
Simon R. Thorrold
Author:
Laura H. McDonnell
Author:
G. Chris Fischer
Author:
Gonzalo Mucientes
Author:
Nuno Queiroz
Author:
Mahmood Shivji
Author:
Gregory B. Skomal
Author:
Bradley Wetherbee
Author:
Martin C. Arostegui
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