Toward elimination of unwanted catches using a 100 mm T90 extension and codend in demersal mixed fisheries

Type Article
Date 2020-07
Language English
Author(s) Robert MarianneORCID1, Morandeau Fabien1, Scavinner Marion2, Fiche Marion3, Patterson Heather M.
Affiliation(s) 1 : Ifremer, Unité de Sciences et Technologies Halieutiques, Laboratoire de Technologie et Biologie Halieutique, Lorient, France
2 : Ifremer, Unité de Sciences et Technologies halieutiques, Plouzane, France
3 : Les Pêcheurs de Bretagne, Quimper, France
Source Plos One (1932-6203) (Public Library of Science (PLoS)), 2020-07 , Vol. 15 , N. 7 , P. e0235368 (12p.)
DOI 10.1371/journal.pone.0235368
WOS© Times Cited 13

Most European fishing fleets will need to drastically reduce their unwanted catches to comply with new rules of the common fisheries policy. A more practical way to avoid increasing on-board sorting time and issues linked to storage capacity is to prevent unwanted catches in the first place. We assessed the selectivity properties of an experimental fishing gear that combined a 100 mm T90 cylinder with 130 meshes in the extension and a 100 mm T90 codend of 33 meshes (experimental gear) compared to a 100 mm diamond mesh extension and codend (control gear) during commercial trips using twin trawls. Analysis of the relative size composition of catches indicated a significantly higher escapement of small fish of several target species (e.g. Lepidorhombus whiffiagonis, Melanogrammus aeglefinus, Raja spp, and Lophius spp) and non-target species (e.g. Capros aper and Gurnards spp) from the T90 experimental trawl compared to the control trawl (n = 49 hauls), resulting in a significant reduction of unwanted catches of Gadidae, Triglidae, and Caproidae. In contrast, nonnegligible commercial losses of small grade target gadoid species were observed. Mixed general linear models showed that the proportion of ray, haddock and anglerfish retained per length class decreased with increased tow duration. The T90 experimental gear will perform at a commercial level when targeting monkfish, megrim, rays and large haddock, however fishers are not likely to use this gear when targeting smaller-bodied species such as cephalopods, small haddock, whiting (Merlangius merlangus) and hake (Merluccius merluccius), because the gear is likely to allow large numbers to escape. Selectivity studies often focus on a short list of target species; however, catches of non-target species under quota can be problematic for some fisheries. For example, under the implementation of the Landing Obligation catches of boarfish could choke the French whitefish demersal fisheries in the Celtic sea, as France has no national quota for that species. The device tested constitutes an efficient solution to mitigate catches for such non-target schooling fish.

Full Text
File Pages Size Access
Publisher's official version 12 1 MB Open access
S1 Table. Haul characteristics in mean depth, duration, quarter and total catch weight. 15 KB Open access
S2 Table. Catch characteristic per haul. 27 KB Open access
S3 Table. Mean observed weight (in kg) per species in the wanted catches (LAN) and unwanted catches (DIS). 14 KB Open access
S1 Dataset. 256 KB Open access
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