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Tracking data reveal both indirect and direct interactions between killer whales and fisheries in subantarctic waters

Tracking data reveal both indirect and direct interactions between killer whales and fisheries in subantarctic waters
Tracking data reveal both indirect and direct interactions between killer whales and fisheries in subantarctic waters

Conflicts between large marine predators and fisheries often involve both indirect (competition for fish stocks) and direct negative interactions (bycatch or depredation). However, the extent and the mechanisms of these conflicts are hampered by lack of data on the behavior of predators in natural situations (absence of fishing vessels) and in response to fishing activities. For killer whales Orcinus orca in the remote subantarctic waters of the southern South Atlantic and Indian Oceans, this lack of understanding is particularly problematic since negative interactions with industrial fisheries targeting toothfish affect the conservation of populations. In this study, we combined data from 36 satellite tags deployed on killer whales in these regions between 2011 and 2024 with tracking (AIS) data of toothfish fishing vessels to i) assess the overlap between killer whale offshore foraging areas and fishing areas, and ii) examine the factors influencing the decision of individuals to engage in depredation. Through kernel utilization distributions and statistical models we show that killer whales foraged in offshore areas used by fishing vessels to catch toothfish, but this overlap varied greatly across individuals within populations. We found that killer whales changed their trajectories and headed toward fishing vessels as far as > 100 km from them, possibly to engage in depredation. However, this behavior was not systematic and differed across individuals and areas. The behavior was detected only 55% of the times killer whales entered a 60 km range from a vessel. By highlighting areas of co-occurrence of killer whales and fisheries and the extent to which killer whales are able to change their behavior in response to fishing activities, our findings provide information that can be used to mitigate the negative impacts of interactions.

Conservation, Depredation, Human-wildlife conflict, Satellite tracking, Toothfish fisheries
0141-1136
Robert, Vinicius
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Laurioux, Anaïs
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Reisinger, Ryan R.
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Towers, Jared R.
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Auguin, Erwan
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Mollier, Margaux
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Richard, Gaëtan
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Nico de Bruyn, P. J.
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Guinet, Christophe
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Tixier, Paul
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Robert, Vinicius
727dacb3-8a92-4db9-8191-da1fc30c3773
Laurioux, Anaïs
e90da259-0296-4c23-ac95-d071cafdaba8
Reisinger, Ryan R.
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Towers, Jared R.
aed5a92a-ae6d-49ef-9ade-e2d0953c1f6a
Auguin, Erwan
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Mollier, Margaux
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Richard, Gaëtan
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Nico de Bruyn, P. J.
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Guinet, Christophe
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Tixier, Paul
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Robert, Vinicius, Laurioux, Anaïs, Reisinger, Ryan R., Towers, Jared R., Auguin, Erwan, Mollier, Margaux, Richard, Gaëtan, Nico de Bruyn, P. J., Guinet, Christophe and Tixier, Paul (2026) Tracking data reveal both indirect and direct interactions between killer whales and fisheries in subantarctic waters. Marine Environmental Research, 217, [107938]. (doi:10.1016/j.marenvres.2026.107938).

Record type: Article

Abstract

Conflicts between large marine predators and fisheries often involve both indirect (competition for fish stocks) and direct negative interactions (bycatch or depredation). However, the extent and the mechanisms of these conflicts are hampered by lack of data on the behavior of predators in natural situations (absence of fishing vessels) and in response to fishing activities. For killer whales Orcinus orca in the remote subantarctic waters of the southern South Atlantic and Indian Oceans, this lack of understanding is particularly problematic since negative interactions with industrial fisheries targeting toothfish affect the conservation of populations. In this study, we combined data from 36 satellite tags deployed on killer whales in these regions between 2011 and 2024 with tracking (AIS) data of toothfish fishing vessels to i) assess the overlap between killer whale offshore foraging areas and fishing areas, and ii) examine the factors influencing the decision of individuals to engage in depredation. Through kernel utilization distributions and statistical models we show that killer whales foraged in offshore areas used by fishing vessels to catch toothfish, but this overlap varied greatly across individuals within populations. We found that killer whales changed their trajectories and headed toward fishing vessels as far as > 100 km from them, possibly to engage in depredation. However, this behavior was not systematic and differed across individuals and areas. The behavior was detected only 55% of the times killer whales entered a 60 km range from a vessel. By highlighting areas of co-occurrence of killer whales and fisheries and the extent to which killer whales are able to change their behavior in response to fishing activities, our findings provide information that can be used to mitigate the negative impacts of interactions.

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Accepted/In Press date: 19 February 2026
e-pub ahead of print date: 26 February 2026
Published date: 1 March 2026
Additional Information: Publisher Copyright: © 2026
Related URLs:
Keywords: Conservation, Depredation, Human-wildlife conflict, Satellite tracking, Toothfish fisheries
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Identifiers

Local EPrints ID: 511052
URI: http://eprints.soton.ac.uk/id/eprint/511052
DOI: doi:10.1016/j.marenvres.2026.107938
ISSN: 0141-1136
PURE UUID: 2939f065-2525-4330-a5cb-3ec829ca89b7
ORCID for Ryan R. Reisinger: ORCID iD orcid.org/0000-0002-8933-6875

Catalogue record

Date deposited: 29 Apr 2026 16:43
Last modified: 30 Apr 2026 02:05

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Contributors

Author: Vinicius Robert
Author: Anaïs Laurioux
Author: Ryan R. Reisinger ORCID iD
Author: Jared R. Towers
Author: Erwan Auguin
Author: Margaux Mollier
Author: Gaëtan Richard
Author: P. J. Nico de Bruyn
Author: Christophe Guinet
Author: Paul Tixier

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