Abstract
Fisheries bycatch threatens the viability of some seabird populations and reduces fishing efficiency. Albatross bycatch in a US North Pacific tuna longline fishery has increased over the past decade and now exceeds 1000 annual captures. Seabirds interacting with this fishery reach hooks at depths up to 1 m. A branchline weight’s mass and distance from the hook affect seabird catch rates. We conducted experimental fishing to compare the commercial viability of a weighted hook relative to conventional gear with weights attached 0.75 m from the hook. We used a Bayesian random effects meta-analytic regression modelling approach to estimate pooled expected species-specific log relative risk of capture on conventional versus experimental gear. There was a significant 53% (95% HDI: − 75 to − 25%) decrease in retained species’ catch rates on experimental hooks, indicating an unacceptable economic cost, and no significant effect for discarded species. Using a Bayesian general linear mixed regression modelling approach, experimental hooks sank to 85 cm ca. 1.4 times (95% HDI: 1.37–1.48) faster than control hooks. Given their potential to reduce seabird catch rates, eliminate safety risks from bite-offs and facilitate robust compliance monitoring, it is a priority to find a weighted hook design with acceptable catch rates.
Highlights
Fisheries bycatch threatens the viability of some seabird populations and reduces fishing efficiency
Over 90% of the seabird bycatch in the US central North Pacific tuna longline fishery is comprised of Laysan (Phoebastria immutabilis) and black-footed (P. nigripes) albatrosses, which are categorized as Near Threatened with stable and increasing population trends, r espectively[3,7]
The reporting in the article follows the recommendations in the Animal Research Reporting of In Vivo Experiments (ARRIVE) guidelines
Summary
Fisheries bycatch threatens the viability of some seabird populations and reduces fishing efficiency. Albatross bycatch in a US North Pacific tuna longline fishery has increased over the past decade and exceeds 1000 annual captures Seabirds interacting with this fishery reach hooks at depths up to 1 m. The mass of a pelagic longline branchline’s weight and distance between the weight and the hook significantly affect seabird catch risk during s etting[15,16,17,18], as well as during the gear soak and h aul[19,20]. During gear setting, these two variables affect the sink rate of baited hooks and their availability to seabirds. Secondary interactions occur when deep-diving seabirds access baited hooks at depth and return them to the sea surface providing larger surface-foraging seabird species with a second opportunity to access the terminal tackle and become c aptured[17,25]
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