Browse > Article
http://dx.doi.org/10.3796/KSFT.2009.45.4.234

Development of artificial spawning seaweeds of the sandfish, Arctoscopus japonicus  

Yang, Jae-Hyeong (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Lee, Sung-Il (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Bae, Bong Seong (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Cha, Hyung-Kee (Fisheries Resources Research Division, NFRDI)
Yoon, Sang-Chul (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Chun, Young-Yull (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Kim, Jong-Bin (Fisheries Resources and Environment Division, East Sea Fisheries Research Institute, NFRDI)
Chang, Dae-Soo (Fisheries Resources Research Division, NFRDI)
Publication Information
Journal of the Korean Society of Fisheries and Ocean Technology / v.45, no.4, 2009 , pp. 234-242 More about this Journal
Abstract
To develop the artificial spawning seaweeds of the sandfish, Arctoscopus japonicus, the effects by the material type of artificial spawning seaweeds were investigated at Dongsan port in Gangwon-do from December 2006 to March 2007. Sargassum fulvellum, S. horneri, rope and net were used as materials for artificial spawning seaweeds, and the most effective thing among them was S. fulvellum. A. japonicus began to attach the egg mass to artificial spawning seaweeds when sea temperature dropped below 10${^{\circ}C}$ in December, spawned heavily when it was around 8${^{\circ}C}$ in January, and completed the behavior when it started to increase over 10${^{\circ}C}$ in February. The hatching period of eggs was estimated to be about 60 days. The middle position in artificial spawning seaweed had the highest number of egg masses and the diameter of the egg mass ranged from 25mm to 62mm. Based on the result for the effects, the artificial spawning seaweeds of A. japonicus were developed and it is possible to use them to form seaweed forests or spawning grounds of other species.
Keywords
Sandfish; Arctoscopus japonicus; Artificial spawning seaweeds;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Choi, C.G., 2008. Marine communities around artificial reefs located in Ikata, Shikoku, Japan. J. Kor. Fish. Soc., 41(3), 208-214   과학기술학회마을   DOI
2 Chyung, M.G., 1977. The fishes of Korea. Il-Ji Sa Publishing Co., Seoul, pp. 376
3 Fitzhardinge, R.C. and J.H. Bailey-Brock, 1989. Colonization of artificial reef materials by corals and other sessile organism. Bulletin of Marine Science, 44, 567-579
4 Fukunaga, A. and J.H. Bailey-Brock, 2008. Benthic infaunal communities around two artificial reefs in Mamala Bay, Oahu, Hawaii. Marine Environmental Research, 65, 250-263   DOI   ScienceOn
5 NFRDI(National Fisheries Research and Development Institute), 2004. Commercial fishes of the coastal and offshore waters in Korea. 2nd ed. Hangul Press, Busan, pp. 210
6 NFRDI(National Fisheries Research and Development Institute), 2007a. A study on construction of seaweed forest in the east sea. Bull. Nat. Fish. Res. Dev. Agency, pp. 197
7 NFRDI(National Fisheries Research and Development Institute), 2007b. Illustrated ecological book of marine algae in the East Sea. Dain Communications, Busan, pp. 165
8 Ahn, Y.W., H.K. Rho, S.J. Kim, D.G. Jeung and M.K. Kim, 1999. Studies on the improvement of the fish gathering effect of artificial fish reefs in the coastal area of Cheju Island. Jour. Fish. Mar. Sci. Edu., 11(1), 59-68
9 Ahn, Y.W. and J.T. Kim, 2000. Studies on the product efficiency of artificial reefs in the coastal area Jeju Island. Bull. Mar. Res. Inst. Cheju Nat. Univ., 24, 27-35
10 Baynes, T.W. and A.M. Smant, 1989. Effect of current on the sessile benthic community structure of an artificial reef. Bulletin of Marine Science, 44, 545-566
11 Brock, R.E. and J.H. Norris, 1989. An analysis of the efficacy of four artificial reef designs in tropical waters. Bulletin of marine science, 44, 934-941
12 Mori, N., T. Ito and T. Kishi, 2003. Study on durability of artificial spawning bad in the real sea field. Monthly report of Civil Engineering Research Institute for Cold Region, 598, pp.18-25
13 Kikuchi, S., 2002. Fish-spawning reef planted with artificial seaweeds thereon. Artificial reef patents of Japan, A01K 61. pp. 28
14 KORDI(Korea Ocean Research and Development Institute), 2004. The encyclopaedia of fish and seafood. Ⅳ. Algae, fishes and sea animals etc. Goryeo press, pp. 19
15 Lee, S.W., J.G. Ryu and J.W. Hwang, 1998. A study on the economic effects of artificial reefs-In case of Suwoo-do artificial reefs-. J. Fish. Business Administration, 29(2), 177-197   과학기술학회마을
16 Myoung, J.G., J.M. Kim and Y.U. Kim, 1989. Egg development and morphology of sandfish, Arctoscopus japonicus larvae and juveniles reared in the laboratory. J. Kor. Fish. Soc., 22(3), 129-137   과학기술학회마을
17 Myoung, J.G., B.I. Kim, S.M. Lee and G.B. Jeon, 2002. The sea fishes of Korea. Darakwon Press, Seoul, pp. 196
18 Wolfert, D.R., W.N. Busch and C.T. Baker, 1975. Predation by fish on walleye eggs on a spawning reef in western Lake Erie, 1969 71. Ohio J. Sci., 75(3), 118-125
19 Park, H.H., J.K. Shin, J.O. Kim, S.Y. Park, H.S. Kim, D.H. Lim, Y.C. Park, S.H. Cho, S.H. Hong, J.W. Lee and B.G. Ahn, 2003. An effect on fisheries resource enhancement of hollow jumbo structure and a search for artificial reefs by side scan sonar in the Western sea of Korea. Bull. Korean Soc. Fish. Tech., 39(3), 230-238   과학기술학회마을   DOI   ScienceOn
20 Ryu, J.G. and M.S. Jeong, 2000. A study on the economic appraisals of artificial reefs. Ocean Policy Research, 15(2), 1-27