Browse > Article
http://dx.doi.org/10.3796/KSFT.2012.48.4.337

Operating Performance of hair-tail angling vessel using the LED and metal halide fishing lamp combination  

An, Heui-Chun (Aquaculture Industry Division, East Sea Fisheries Research Institute, NFRDI)
Bae, Bong-Seong (Fisheries System Engineering Division, National Fisheries Research & Development Institute)
Lee, Kyoung-Hoon (Fisheries System Engineering Division, National Fisheries Research & Development Institute)
Park, Seong-Wook (Fisheries System Engineering Division, National Fisheries Research & Development Institute)
Bae, Jae-Hyun (Aquaculture Industry Division, East Sea Fisheries Research Institute, NFRDI)
Publication Information
Journal of the Korean Society of Fisheries and Ocean Technology / v.48, no.4, 2012 , pp. 337-345 More about this Journal
Abstract
One of representative Korean fisheries, jigging and angling has 5,700 vessels for squid and hairtail. Hairtail angling is the most typical fishery in Jeju and has an enormous impact on regional economy. However, the price hike in oil and labor costs triggered the necessity of developing a high efficient and energy saving fish luring lamp in recent times. For that reason, this study aimed to analyze the fishing performance of the aircooled LED lamp targeting hairtail angling fishery. The experiment was conducted from September through October in 2009-2011 for a 9.77 ton of fishing vessel setting up 100 lamps. The fishing performance was tested compared with 6 vessels using metal halide lamps in the same waters. As the LED lamp's performance goes up, different lamps were used in 2008 for 80W, 2009 for 120W and 2011 for 180W respectively. The catch and CPUE of the experimental vessel have gradually increased respectively taking the $4^{th}$ and $6^{th}$ place in 2009, the $4^{th}$ and $2^{nd}$ place in 2010, the $1^{st}$ and $1^{st}$ place in 2011 among the 7 vessels. In summary, the LED fishing lamp showed higher fishing performance than comparison groups. It saved 33% of oil consumption and cut down on operating expenses and greenhouse gases emission.
Keywords
LED fishing lamp; Hairtail angling; Metal halide lamp;
Citations & Related Records
Times Cited By KSCI : 6  (Citation Analysis)
연도 인용수 순위
1 An HC and Choo HD. 1993. Fishing efficiency of squid jigging in relation to the variation of fishing lamp power. Bull Nat Fish Res Dev Agency 48, 179-186.
2 An YI and Arimoto T. 1994. Avoidance Response of Jack Mackerel to Strobe Light Barrier. Nipppon Suisan Gakkaishi 60, 713-718.   DOI   ScienceOn
3 An YI, Jeong HG and Jung BM. 2009. Behavioral reaction of common squid Todarodes pacificus to different colors of LED Light. J Kor Soc Fish Tech 45, 135-143.   과학기술학회마을   DOI
4 Arakawa H, Choi SJ, Arimoto T and Nakamura Y. 1998. Relationship Between Underwater Irradiance and Distribution of Japanese Common Squid Under Fishing Lights of a Squid Jigging Boat. Fish Sci 64, 553-557.   DOI
5 Bae BS, Jeong EC, Park HH, Chang DS and Yang YS. 2008. Behavioral characteristic of Japanese flying squid, Todarodes pacificus to LED light. J Kor Soc Fish Tech 44, 294-303.   과학기술학회마을   DOI
6 Bae BS, Park BJ, Jeong EC, Yang YS, Park HH, Chun YY and Chang DS. 2009. Design and performance evaluation of fish-luring system using the air-cooled LED lamp for jigging and angling boat. J Kor Soc Fish Tech 45, 85-95.   과학기술학회마을   DOI
7 Bae BS, Park HH, Jeong EC, An HC, Yang YS and Chun YY. 2009. An analysis on catch fishing power of trammel nets by fishing ground. J Kor Soc Fish Tech 45, 96-105.   과학기술학회마을   DOI
8 Choi SJ. 2002. Relationship between the boat sizes, light source output for fishing lamps and the catch of squid, Todarodes pacificus Steenstrup, in coastal squid jigging fishery of Japan. J Korean Fish Soc 35, 644-653.
9 Choi SJ. 2006. Radiation and Underwater Transmission Characteristics of a high-luminance light-emitting diode as the light source for fishing lamps. J Korean Fish Soc 39, 480-486.   과학기술학회마을   DOI
10 Choi SJ. 2008. Comparison of radiation characteristics and radiant quantities per unit electrical power between high luminance light emitting diode and fishing lamp light source. J Korean Fish Soc 41, 511-517.   과학기술학회마을   DOI
11 Choi SJ and Arakawa H, 2001. Relatonship between the catch of squid, Todarodes pacificus Steenstrup, according to the jigging depth of hooks and underwater illumination in squid jigging boat. J Korean Fish Soc 34, 624-632.
12 Driscoll J and Tyedmers P. 2010. Fuel use and greenhouse gas emission implications of fisheries management: the case of the new england atlantic herring fishery. Marine Policy 34 (2010), 353-359.   DOI   ScienceOn
13 Hasegawa E, Kobayashi H and Niwa H. 1990. Retinomotor reaction of the fish concentrated around an underwater lamp. Nippon Suisan Gakkaishi 56, 367.   DOI
14 Imamura Y. 1961. Studies on the fisheries with lureing lights-II. Study on the pole and line fishery for mackerel. Nipppon Suisan Gakkaishi 27, 430-436.   DOI
15 Inada H, Hirokawa S, Miyazaki K and Kimura M, 1995. Capturing characteristics on Daytime Jigging Operation for Large-size Neon Flying Squid Ommastrephes bartrami with Underwater Fishing Light. Nippon Suisan Gakkaishi 61, 732-737.   DOI
16 Inada H and Arimoto T, 2007. Trends on research and development of fishing light in Japan. J Illum Engng Inst Jpn 91, 205.
17 Yamashita Y, Matsushita Y and Azuno T. 2012. Catch performance of coastal squid jigging boats using LED panels in combination with metal halide lamps. Fish Res 113, 182-189.   DOI   ScienceOn
18 Ministry of Maritime Affairs & Fisheries. 2003. Statistical yearbook of Maritime Affairs & Fisheries, 218-220.
19 Peter RB. 2009. The impact of light in buildings on human health. SHB2009-2nd International Conference on Sustainable Healthy Buildings. Seoul, Korea, 4-5.