Retention bans are beneficial but insufficient to stop shark overfishing
Sharks are among the most threatened exploited fishes, yet the population‑level effects of retention bans remain unclear. By synthesizing mortality data from 160 studies and modeling outcomes for 341 species caught in longlines and gillnets, this work reveals strong predictors of mortality—small, shallow‑water species suffer high at‑vessel mortality, while deep‑water species face greater post‑release mortality. Simulations show that retention bans reduce fishing mortality but still leave most species above sustainable thresholds, with only 18% achieving near‑sustainable PMAX/FMSY levels. Threatened species fare slightly better but still require additional management. The findings demonstrate that retention bans help but must be paired with broader measures to halt overfishing, particularly for low‑productivity sharks.
Subject Tags
- Fisheries
- Wildlife
Abstract
Sharks are among the most threatened groups of exploited fishes, comprising common bycatch across many fisheries. Management efforts intended to safeguard threatened species have increasingly focused on retention bans to reduce bycatch mortality. However, the population effects of such measures remain unevaluated across species. We combined available data from 160 studies providing estimates of at-vessel or post-release mortality for 147 taxa caught by different fishing gears to create random-forest regression models and predict mortality rates for 341 shark species incidentally captured by longlines or gillnets. Smaller-bodied species inhabiting shallow waters were more likely to suffer at-vessel mortality compared to their deep-water counterparts, for which post-release mortality was more likely to occur. We then used results for longlines to simulate the effect of retention bans in reducing fishing mortality to sustainable levels. Our metric consists of the ratio between the proportion of each species' population caught and discarded (PMAX) under a retention ban divided by the fishing mortality (F) predicted to achieve maximum sustainable yield (FMSY). Our calculations show that a retention ban yielded an average ~ three-fold higher PMAX compared to FMSY, with 18% of the species having PMAX/FMSY < 2, 72.3% having 2 < PMAX/FMSY < 5, and 9.7% having PMAX/FMSY > 5. For threatened species, median PMAX/FMSY = 2.28 and non-threatened ones had median PMAX/FMSY = 2.77. Our study shows that retention bans could reduce shark mortality, but must be combined with additional measures to stop overfishing, especially for low-productivity species.
Citation
Feitosa, L. M., Caughman, A. M., D'Costa, N. G., Orofino, S., Burns, E. S., Schiller, L., ... & Bradley, D. (2025). Retention bans are beneficial but insufficient to stop shark overfishing. Fish and Fisheries, 26(3), 473-487. https://doi.org/10.1111/faf.12892
TNC Authors
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Darcy Bradley
Lead Ocean Scientist, California
The Nature Conservancy
Email: darcy.bradley@tnc.org