Researchers atĀ Pacific Whale FoundationĀ (PWF), a nonprofit organization protecting the ocean through science and advocacy since 1980, dove deep below the surface in a new study that could revolutionize how researchers evaluate the impact of fisheries interactions on dolphin populations. Using dorsal fin, mouth line and underwater body imagery, the latter a first of its kind for this type of study, researchers found that fisheries interactions on Maui Nui dolphins may be more pervasive than initially thought.Ā
Principal investigator Jens Currie, PWFās Chief Scientist and co-author oversaw the recently published paper,Ā External Scarring as an Indicator of Fisheries Interactions with Bottlenose (TursiopsĀ truncatus) and Pantropical Spotted (StenellaĀ attenuata) Dolphins in Maui Nui, HawaiāiĀ which used PWFās long-term historic data on bottlenose and spotted dolphins collected over a 24-year period from 1996-2020. AĀ recent paperĀ citing an apparent decline in bottlenose dolphin population in Maui Nui highlights the importance of PWFās study in exploring the potential impacts of fisheries interaction to these dolphins.Ā
AbigailĀ Machernis, PWF Research Biologist and lead author of the paper, examined data collected in the Maui Nui region ofĀ Hawaiāi, which consists of the islands of Maui,Ā Molokaāi,Ā LanaāiĀ andĀ KahoāolaweĀ and found 27% of 255 identified bottlenose dolphins and 13% of 374Ā identified spotted dolphins displayed one or more fishery gear-related scars. Every image in the nonprofitās extensive photo-ID catalog, was reviewed to identify dolphins with scars on dorsal fins, mouthlines and bodies of dolphins that indicate past interactions with fisheries and fishing gear. The objectives of PWFās research were (1) to determine the number of bottlenose and spotted dolphins that showed evidence of a fisheries interaction in Maui Nui; and (2) to determine if underwater body images, in addition to the traditionally used dorsal fin and mouthline images, increased detection rates of evidence of fisheries interactions.Ā
Building on established methodology,Ā focused primarily onĀ dorsal fin analysis,Ā researchers used underwater body images to gain a new perspective for assessing fisheries interactions.Ā The inclusion of underwater photoĀ analysis was a game changer, according toĀ Machernis. āMost research literature that examines fisheries interactionsĀ look primarily atĀ dorsal finsĀ and we wanted to use all the data we have collected to examine as much of the dolphinsā body as possible for evidence of fishing-gear related scars.āĀ
The studyās innovative approach involves combining individual assessments of dolphinsā dorsal fins, mouthlines and bodies into a single assessment and found the inclusion of underwater imagery increased scar detection rates by 51% for bottlenose dolphins and 40% for spotted dolphins. Using past research on fisheries interactions coupled with forward-thinking research methods, the studyĀ is the first to presentĀ a standardized approachĀ for usingĀ photos of dorsal fins, mouthlines, and underwater body footageĀ intoĀ theĀ assessment of fisheries interactions.Ā Ā
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āWithout documenting real-time interactions or observing physical gear on an animalās body, photo analysis is the best available proxy for quantifying fisheries interactions,ā notes Currie.Ā āThere is still more research to be done and we want to make sure we have all the information needed to determine if there is a conservation concern and then work with fishers on a solution if warranted.āĀ
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Worldwide, interactions with fisheries have been identified as one of the leading conservation concerns for cetaceans resulting in lethal or non-lethal consequences. The full extent is hard to assess as most entanglements are never observed, but researchĀ noted by the International Whaling Commission (IWC)Ā suggests that over 300,000 whales and dolphins die annually due to entanglement in marine debris. This can have a devastating, long-term conservation impact on those populations that are already threatened, in some cases critically.Ā Ā
Past and ongoing research confirms that direct interactions between cetaceans and fishing gear typically transpire in one of two ways: (1) animals unintentionally swim into gear becoming entangled or entrapped or (2) animals deliberately remove fish captured in gear, a behavior known as depredating, and become hooked and/or entangled as a result. Some fishing gear interactions can result in serious injury or mortality from entanglement or ingestion of gear.Ā You can read more about the threats to marine life from fisheries interactions and learn what you can do to help inĀ PWFāsĀ Making Waves: Fisheries InteractionsĀ series.Ā
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These types of interactions occur globally and are likely to increase due to the potential for continued human encroachment on cetacean habitats. Thus, the paper asserts, population-level impacts of fisheries on cetaceans are of great concern and there is a critical need to identify which species interact with which fisheries and the location(s) these interactions occur so researchers can work with fishers to find sustainable solutions.Ā Ā
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In short,Ā MachernisĀ concludes that these findings suggest that fisheries interactions are more widespread than we previously thought, and this can have implications on how we manage these near shore island-associated populations. In addition to informing management and conservation actions, the study and paper support outreach efforts targeting recreational and commercial fishers that provide education on best fishing practices when dolphins are present.Ā Ā Ā
āWe highly recommend researchers interested in examining the threat of fisheries interactions to dolphins make a concerted effort in the field to collect above-waterĀ mouth lineĀ and body shots, in addition to underwater footage,āĀ MachernisĀ advises, emphasizing the value of images such as those studied in providing a more accurate analysis of scar detection rates.Ā Ā
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PWFās scientific paper,Ā External Scarring as an Indicator of Fisheries Interactions with Bottlenose (TursiopsĀ truncatus) and Pantropical SpottedĀ (StenellaĀ attenuata) Dolphins in Maui Nui, HawaiāiĀ authoredĀ by AbigailĀ Machernis,Ā Stephanie H. Stack, Grace L.Ā Olson, Florence A. Sullivan and Jens Currie,Ā isĀ published inĀ Aquatic Mammals and available for review. All Pacific Whale Foundation publications are freely available at www.pacificwhale.org/what-we-do/research/publications-references/.
Learn more or make a contribution to support PWFās dolphin research.