Browse > Article
http://dx.doi.org/10.3796/KSFT.2007.43.4.291

Development of artificial bait for octopus drift line  

An, Young-Il (Department of marine police and Technology, Gangwon Provincial College)
Arimoto, Takafumi (Department of Marine Biosciences, Tokyo University of Marine science and Technology)
Publication Information
Journal of the Korean Society of Fisheries and Ocean Technology / v.43, no.4, 2007 , pp. 291-300 More about this Journal
Abstract
The crayfish-shaped artificial bait for octopus drift line is manufactured, into which is made to insert ordinary bait. The effects of the artificial bait are confirmed through the analysis of octopus' behavior in the laboratory in comparison with the existing bait of pig-fat skin, and the investigation of the octopus catch on the sea, and in addition, the examination of the water quality in relation to the bait to be inserted into the artificial bait is done together. The artificial bait is red in color, 10.5cm in the length of the body, and 29g in weight. The octopus behavior in relation to the bait in the laboratory has shown a good result in which more than 30% of the octopuses rushed to the artificial bait. In the analysis of the octopus sitting time by the bait, the octopus stayed longer with the artificial bait(63.7%) than the pig-fat skin(25.1%). The octopus sitting time at the artificial bait inserted with frozen squid(48.8%, 44.6%) is shown to be longer than that of the pig-fat skin(36.9%) or boiled fish paste(21.2%). In the analysis of sitting frequency to the bait, the case of the artificial bait(total 17 times) was more than that of the pig-fat skin(total 3 times), and the case of the artificial bait with frozen squid attracted the octopuses more frequently than that of the pig-fat skin or the boiled fish paste. In the field experiment, the fishing boat A(Manseon-ho, 1.22tons) caught the total 93 octopuses, while the fishing boat B(Ilho-ho, 0.73tons) caught the total 154 octopuses, all of which weighed less than 9.0kg. In the comparison with the total catch, the case with the artificial bait was a little higher than that of the pig-fat skin($^{**}p\;<\;0.05$). In the analysis of the water quality in relation to the baits, the COD showed the descending order of frozen squid(0.57mg/g), boiled fish paste(0.18mg/g), and pig-fat skin(0.10mg/g), and the case with frozen squid was the highest and the case of the pig-fat skin, lowest. The total phosphorus, like the COD, showed the highest in frozen squid(0.02mg/g), and in case of the total nitrogen, unlike the COD, the pig-fat skin was shown to be the highest(0.006mg/g).
Keywords
Octopus drift-line; Artificial bait; Practical use;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Smale, M.J. and P.R. Buchan, 1981. Biology of octopus vulgaris off the east coast of South Africa. Mar. Biol., 65, 1.1   DOI
2 Vincent, T.L.S., D. Scheel and K.R. Hough, 1988. Some aspects of diet and foraging behavior of Octopus dofleini(Wulker, 1910) in its northernmost range. Marine Ecology, 19, 13.29   DOI   ScienceOn
3 Boletzky, V.S. and R.T. Hanlon, 1983. A review of the laboratory maintenance, rearing and culture of cephalopod molluscs. Mem. Natl. Mus. Vic., 44, 147.187
4 Forsythe, J.W. and R.T. Hanlon, 1997. Foraging and associated behaviour by Octopus cyanea Gray, 1849 on a coral atoll, French Polynesia. J. Exp. Mar. Biol. Ecol., 209, 15.31   DOI   ScienceOn
5 Hughes, R.N., 1980. Optimal foraging theory in the marine context. Oceanogr. Mar. Biol. Annu. Rev., 18, 423.481
6 Takeuchi, S., 1981. Fishing with pots Pot fishery. Fisheries series 36, Kouseisha.kouseikaku, Tokyo, pp. 22.35
7 Stomer, A.W., 2003. Hunger and light level alter response to bait by Pacific halibut: laboratory analysis of detection, location and attack. Journal of Fish Biology, 62, 1176.1193   DOI   ScienceOn
8 Yarnall, J.L., 1969. Aspects of the behaviour of Octopus cyanea Gray. Anim. Behav., 17, 747.754   DOI
9 Ambrose, R.F., 1984. Food preferences, prey availability, and the diet of Octopus bimaculatus Verrill. J. Exp. Mar. Biol. Ecol., 77, 29.44   DOI   ScienceOn
10 Ambrose, R.F., 1982. Shelter utilization by the molluscan cephalopod Octopus bimaculatus. Mar. Ecol. Prog. Ser., 7, 67.73   DOI
11 An, Y.I. and J.Y, Park, 2006. Octopus fisheries in the coastal waters of Gangneung II.octopus drift-line fishery. J. Kor. Soc. Fish. Tech., 42, 78.85   과학기술학회마을   DOI   ScienceOn
12 Mather, J.A., 1988. Daytime activity of juvenile Octopus vulgaris(Mollusca, Cephalopoda)in Bermuda. Malacologia, 29. 69.76
13 Inoue, M., 1978. Fish behaviour and fishing method. Kouseisha-kouseikaku, Tokyo, pp. 63.100
14 Kaimmer, S.M., 1999. Direct observations on the hooking behavior of Pacific halibut, Hippoglossus stenolepis. Fishery Bulletin, 97, 873.883
15 Lokkeborg, S. and A. Bjordal, 1992. Species and size selectivity in longline fishing-a review. Fish. Res., 13, 311.322   DOI
16 Mather, J.A., 1991. Foraging, feeding and prey remains in middens of juvenile Octopus vulgaris(Mollusca, Cephalopoda). J. Zool. lond., 224. 27.39   DOI
17 Mather, J.A., 1993. Recent advances in cephalopod fiheries biology, Okutani, T., R.K. O'Dor and T. Kubodera ed. Tokai universsity press, Tokyo, pp. 275-282
18 Ogura, M., 1975. Studies on the catching efficiency of angling baits. Journal of the Tokyo University of Fisheries, 61, 17.22
19 Ookilyou, K., 1993. The earth of animals 65. Asahi encyclopedia, pp. 146
20 Sawara,Y., 1987. Foraging behavior of fish. University of Tokyo press, Tokyo, pp. 1.12
21 Lokkeborg, S. and A. Bjordal, 1995. Size-selective effects of increasing bait size by using an inedible body on longline hooks. Fisheries Research, 24, 273.279   DOI   ScienceOn
22 Januma, S., K. Miyajima, and T. Abe, 2003. Development and comparative test of squid liver artificial bait for tuna longline. Fisheries Science, 69, 288.292   DOI   ScienceOn
23 Fiorito, G., and F. Gherardi, 1999. Prey-handling behaviour of Octopus vulgaris(Mollusca,Cephalopoda) on Bivalve preys. Behavioural Processes, 46, 75.88   DOI   ScienceOn