Performance of bycatch reduction devices varies for chondrichthyan, reptile, and cetacean mitigation in demersal fish trawls: assimilating subsurface interactions and unaccounted mortality

Authors

Corey B. Wakefield, Department of Fisheries, Western Australia Edit author details Remove authorFollow
Julia Santana-Garcon, Department of Fisheries, Western Australia
Stacey R. Dorman, Department of Fisheries, Western Australia
Stuart J. Blight, Department of Fisheries, Western AustraliaFollow
Ainslie Denham, Department of Fisheries, Western AustraliaFollow
John Wakeford, M.G. Kailis Group,, Western Australia
Brett W. Molony, Department of Fisheries, Western AustraliaFollow
Stephen J. Newman, Department of Fisheries, Western AustraliaFollow

Document Type

Article

Publication Date

8-17-2016

Journal Title

ICES Journal of Marine Science

ISSN

Print: 1054-3139 Electronic: 1095-9289

Keywords

Bottlenose dolphins, Electronic monitoring, Endangered threatened protected, Species, Rays, Seasnakes, Sharks, Skates, Turtles

Disciplines

Aquaculture and Fisheries | Environmental Monitoring | Marine Biology | Natural Resources and Conservation | Natural Resources Management and Policy | Sustainability

Abstract

To improve bycatch mitigation of chondrichthyans, reptiles and cetaceans for a tropical demersal fish-trawl fishery, species-specific responses to bycatch reduction devices (BRDs) were investigated using both in situ subsurface and onboard observations. There are few, if any, studies that have determined mitigation performances of BRDs from subsurface interactions for these species, as most are rarely encountered and thus require substantial levels of observer coverage for robust assessments. This study combined in-net and onboard (774 day trawls and 1320 day trawl hours of subsurface observer coverage) electronic monitoring on all fish-trawl vessels (n = 3) to compare bycatch mitigation performances among nine megafauna groups, based on escape rates and interaction durations for three BRDs over 6 months (June to December 2012). Overall, 26.9% of day trawls had no megafauna interactions and 38.3% of the 1826 interactions escaped, with most in rapid time (91.4% in ≤ 5 min). The upward inclined exclusion grid significantly improved the escape proportions for most chondrichthyans by 20–30%. All BRDs were highly effective in reducing reptile (turtles and seasnakes) bycatch, but irrelevant for the few sawfish (n = 13) that readily entangled in the anterior of the net. Cetacean (bottlenose dolphins only) interactions with BRDs were very rare (n = 7) despite high levels of attendance and depredation during trawling. Loss of targeted teleosts through the BRD hatch was rare (1.3% of day trawls). This relatively cost-effective method of electronic monitoring achieved very high levels of subsurface observer coverage (60% of day trawls or 56% of day trawl hours), and provided evidence that the subsurface expulsion of megafauna in poor condition is negligible. Furthermore, this study provides species-specific improvements toward bycatch mitigation strategies for demersal fish trawling.

Recommended Citation

Corey B. Wakefield, Julia Santana-Garcon, Stacey R. Dorman, Stuart Blight, Ainslie Denham, John Wakeford, Brett W. Molony, Stephen J. Newman, Performance of bycatch reduction devices varies for chondrichthyan, reptile, and cetacean mitigation in demersal fish trawls: assimilating subsurface interactions and unaccounted mortality, ICES Journal of Marine Science, Volume 74, Issue 1, January-February 2017, Pages 343–358, https://doi.org/10.1093/icesjms/fsw143