Some Effects of Shape and Structure of Fish on Selectivity of Gillnets

McCombie, A. M.; Berst, A. H.

doi:10.1139/f69-260

Cited by 33 publications

(22 citation statements)

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“…Gray, in review). Asymmetry in size selection can be caused by a volume-based capture allometry (McCombie and Berst 1969) or multiple capture processes (Hamley 1975), and nonzero asymptotic selection can occur because of ontogenetic changes mediating behavioural responses to, or physical exposure to, certain gear types (J.A. Smith, M.D.…”

Section: Introductionmentioning

confidence: 99%

A peaked logistic-based selection curve

Smith

TaylorMatthew

2014

Can. J. Fish. Aquat. Sci.

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Length-based selection curves define the relative catchability of fish to specific types of fishing gear, with catchability often highest at intermediate fish lengths. Distributions such as the normal, lognormal, or gamma are often used to define "peaked" selection curves, but these have limited capabilities to describe strongly asymmetric selection relationships, such as those sometimes observed for hooks or gillnets. Another, more flexible, peaked selection curve is proposed, which is derived by combining multiple logistic distributions. While the logistic distribution is frequently used to describe monotonic selection curves, incorporating multiple logistic equations (that describe either the increasing or decreasing catchability) can define a large range of asymmetric peaked selection curves. This "peak-logistic" curve also allows nonzero asymptotic selection for the largest size classes, which may be the selection occurring in some hook-and-line fisheries. We demonstrate examples of selection in hook, haul net, and mixed hook fisheries, for which the peak-logistic curve is more appropriate than comparative lognormal and binormal selection curves. We also promote an alternative to the peak-logistic: the two-sided normal curve.Résumé : Les courbes de sélection en fonction de la longueur définissent la capturabilité relative des poissons pour des types donnés d'engins de pêche, cette capturabilité étant souvent à son plus fort pour des longueurs de poisson intermédiaires. Des distributions de types normal, log-normal ou gamma sont souvent utilisées pour définir des courbes de sélection « à pic », mais celles-ci se prêtent mal à la description de relations de sélection très asymétriques, comme celles qui sont parfois observées pour la pêche à la ligne ou au filet maillant. Une courbe de sélection à pic plus versatile est proposée qui est obtenue en combinant des distributions logistiques multiples. Si la distribution logistique est fréquemment utilisée pour décrire des courbes de sélection monotones, l'intégration d'équations logistiques multiples (qui décrivent une capturabilité soit croissante ou décroissante) peut permettre de définir une grande gamme de courbes de sélection avec pic asymétriques. Cette courbe « logistique à pic » permet également une sélection asymptotique ne tendant pas vers zéro pour les plus grandes catégories de tailles, une situation possible pour certaines pêches à la ligne. Nous présentons des exemples de sélection pour des pêches à la ligne, au filet traînant et aux hameçons mixtes, auxquelles la courbe logistique à pic se prête mieux que les courbes de sélection lognormales et binormales comparatives. Nous mettons également en avant une autre solution, à savoir la courbe normale bilatérale. [Traduit par la Rédaction]

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Section: Introductionmentioning

confidence: 99%

A peaked logistic-based selection curve

Smith

TaylorMatthew

2014

Can. J. Fish. Aquat. Sci.

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“…Bycatch mitigation focuses primarily on changes to the design of a gillnet that results in applicable management tools (for example, mesh size). Speciesspecific size selectivity is characterized by an upper and lower size limit and few fish are caught whose lengths differ from the target size by more than 20% for a specific mesh size (Baranov, 1948;Garrod, 1961;McCombie and Berst, 1969). Other gillnet design techniques that influence the catch size distribution include hanging ratio (Samaranayaka et al, 1997;Moth-Poulsen, 2003), twine color (Tweddle and Bowa, 1990;Wardle et al, 1991), twine thickness (Hovgård and Lassen, 2000;He, 2006) and twine material (Balik, 2003;Ayaz et al, 2006;Maki et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

Bycatch mitigation assessment for sharks caught in coastal anchored gillnets

Thorpe¹,

Frierson

2009

Fisheries Research

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“…doi:10.1016/j.fishres.2007.11.009 (according to Baranov;Hamley, 1975): (i) wedged-when the fish is held tightly by the mesh around the body; most fish are caught in this way (Yokota et al, 2001); (ii) gilled-when the fish is prevented from backing out of the net by the mesh caught behind the gillcover; (iii) tangled-when the fish is held in the net by teeth, opercular spines, maxillaries, or other projections, without necessarily penetrating the mesh. In this respect, the morphology of the fish body is very important (McCombie and Berst, 1969;Pet et al, 1995;Reis and Pawson, 1999) and gillnets tend to be more efficient in capturing fishes adorned with external projections, teeth, etc. (Lagler, 1978).…”

Section: Introductionmentioning

confidence: 99%

“…are very rarely caught in gillnets (Hammar and Filipsson, 1985;Degerman et al, 1988;Rossier, 1997;Holmgren, 1999;Vetemaa et al, 2006); thanks to their smooth body morphology and motoric abilities. Tangling particularly has a very close association with the properties of the fish body, which may differ among families (McCombie and Berst, 1969;Reis and Pawson, 1999). For example, common European percid species (family Percidae), such as perch Perca fluviatilis, pikeperch Sander lucioperca and ruffe Gymnocephalus cernuus, possess structured body surfaces and have a relatively firm body structure (Kipling, 1963;Hamley and Regier, 1973).…”

Section: Introductionmentioning

confidence: 99%