[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.3796/KSFT.2015.51.2.171

Analysis of body size selectivity of by-catch using the cover net method for a shrimp beam trawl

Kim, Yonghae (Institute of Marine Industry, Department of Marine Production technology, Gyeongsang National University)

Publication Information

Journal of the Korean Society of Fisheries and Ocean Technology / v.51, no.2, 2015 , pp. 171-178 More about this Journal

Abstract

Selectivity and by-catch are the main features used to define fish catch for fisheries management or to determine fishing gear efficiency. A fish girth distribution analysis was carried out to determine the retention rate of juveniles discarded and to establish common selectivity for a multispecies catch. Total body length, body weight, and girth of juvenile fish retained in the cod-end and cover net separately were collected using an 18-mm mesh cover net during 12 fishing trials with a 41-mm cod-end beam trawl. The by-catch weight ratio in the cod-end was twice that of the by-catch ratio in number. The 50% selectivity of body length and 50% girth of redfin velvet fish were not significantly different between the cod-end and cover net, whereas those of other fish species were significantly different between the cod-end and cover net. The difference in 50% selectivity girth of other fish between the cod-end and cover net was similar between cod-end mesh size and cover net mesh size. Furthermore, the difference in 50% body length selectivity of other fish between the cod-end and cover net was almost double the difference in girth. Girth selectivity in a multispecies catch using towed fishing gear was effectively used to determine fish and net mesh size.

Keywords

Cover net; By-catch ratio; Selection body length; Selection girth; Multi-species;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Santos MN, Canas A, Lino PG and Monteiro CC. 2006. Length- girth relationships for 30 marine fish species. Fish Res 78, 368-373. (doi:10.1016/j.fishres.2006.01.008) DOI
2	Scholten GD and Bettoli PW. 2007. Lack of size selectivity for paddlefish for captures in hobbled gillnets. Fish Res 83, 355-359. (doi:10.1016/j.fisres.2006.11.005) DOI
3	Sea Grant. 2014. Fisheries Bycatch- Global issues and creative solutions. 29th Lowell Wakerfield fisheries symposium (May 13-16, 2014, Anchorage, Alaska. USA. Program and Abstracts, pp.106.
4	Stergiou KI and S. Karpouzi VS. 2003. Length-girth relationships for several marine fishes. Fish Res 60, 161-168. DOI
5	Tokac A, Ozbilgin H and Tosunoglu Z. 2004. Effect of PA and PE material on codend selectivity in Turkish bottom trawl. Fish Res 67, 317-327. (doi:10.1016/j.fishres.2003.10.001) DOI
6	Tokai T, Omoto T and Matsuda K. 1994. Mesh selectivity of unmarketable trash fish by a small trawl fishery in the Seto inland sea. Nippon Suisan Gakkaishi 60, 347-352. DOI
7	Wardle CS. 1993. Fish behaviour and fishing gear. In Behaviour of Teleost Fishes, 2nd edn, Pitcher TJ, ed. Chapman & Hall, London, UK., 609-644.
8	Chopin F and Suuronen P. 2009. The development of international guidelines on bycatch management and reduction of discards. ICES CM 2009/M:01. ICES ASC 2009, Sept. 21-25, Berlin, Germany.
9	Deval MC, Bok T, Ates C and Ozbilgin H. 2006. Selectivity of PE and PA material codends for rose shrimp (Parapenaus longirostris) in Turkish twin rigged beam trawl fishery. Fish Res 81, 72-79. (doi:10.1016/j.fishres.2006.05.007) DOI
10	Herrmann B. 2005. Effect of catch size and shape on the selectivity of diamond mesh cod-ends: I. Model development. Fish Res 71, 1-13.(doi:10.1016/j.fisres.2004.08.024) DOI
11	Ingolfsson OA. 2011. The effect of forced mesh opening in the upper panel of a Nephrops trawl on size selection of Nephrops, haddock and whiting. Fish Res 108, 218-222. (doi:10.1016/j.fishres.2010.11.024) DOI
12	Kim YH and Whang DS. 2014. Effects on bycatch reduction in a shaking cod end generated by canvas in a shrimp trawl. J Kor Soc Fish Technol 50, 342-350. (http://dx.doi.org/10.3796/KSFT.2014.50.3.342) DOI
13	Kurkilahti M, Appelberg M, Hesthagen T and Rask M. 2002. Effect of fish shape on gillnet selectivity: a study with Fulton's condition factor. Fish Res 54, 153-170 DOI
14	MacLennan DN. 1993. Fishing gear selectivity : an overview. Fish Res 13, 201-204.
15	Matsushita Y and Ali R. 1997. Investigation of trawl landings for the purpose of reducing the capture of non-target species and sizes of fish. Fish Res 29, 133-143. DOI
16	Mituhasi T, Tokai T, Ercoli R, Garcia JC, Salvini L, Bartozzetti J and Roth R. 2000. Estimating codend selectivity and fish escapement from a cover net of an insufficiently small mesh size. Fish Sci 66, 327-333. DOI ScienceOn
17	O'Neill FG and Kynoch RJ. 1996. The effect of cover mesh size and cod-end catch size on cod-end selectivity. Fish Res 28, 291-303. DOI
18	Reis EG and Pawson MG. 1999. Fis morphology and estimating selectivity by gillnets. Fish Res 39, 263-273. DOI
19	Ryer CH. 2008. A review of flatfish behavior relative to trawls. Fish Res 90, 138-146. (doi:10.1016/j.fishres.2007.10.005) DOI