open access
메뉴ISSN : 1225-3480
2001년 8월 8일부터 12월 5일까지 말백합 대량 인공종묘생산 실험을 실시하였다. 채란은 평균각장 65.8 ± 8.4 mm의어미 100 개체로부터 공기노출과 수온상승자극 방법으로 채란하였으며, 수정란에서 D형유생까지 발생 소요시간은 수온 27℃에서 17시간 40분, 발생률은 6.1%, D형유생은 각장131.4 ± 2.6 μm였다. D형유생은 4일간 사육하여 각장190.2 ± 7.5 μm의 침착기 유생으로 성장하였고, 생존율은48.1%였다. 이후 침착기 유생 130,000 개체를 저면 모래순환여과 방법으로 침착시켜 사육하였으며, 46일째 평균각장 3.1 ± 0.8 mm, 87일째 6.6 ± 1.8 mm, 그리고 114일째에 10.5± 0.9 mm로 성장하였다. 치패의 각장 (SL) 에 대한 각고(SH) 의 상대성장식은 SH = 0.8501SL + 0.0196 (R2 =0.9987) 로 나타났다. 초기 침착치패인 각장 3.1 mm 이하에서 대량폐사가 일어났으며, 생존율은 사육 46일째 53.8%, 87일째 43.6%, 그리고 114일째에 51,000 개체가 생존하여 생존율 39.2%를 나타냈다.
Mass production method on artificial seedling production of hard clam Meretrix petechialis was developed indoor culture system. Spawning of adult clam (SL 65.8 ± 8.4 mm) was induced using the combined method of air exposure and water temperature raising. The fertilized eggs were developed to D-shaped larvae after 17.7 hours at 27℃ and hatching rate was 6.1%. Shell length (SL) of D-shaped larvae was measured to be 131.4 ± 2.6 μm and thereafter the larvae grew to the settled spats with SL 190.2 ± 7.5 μm in 4 days. Estimated survival rate of settled spats was 48.1%. Spat collection on 130,000 spats with SL 0.19 ± 0.01 mm performed conducted by sand bottom circulation filtering method. Collected spats grew up to 3.1 ± 0.8 mm in 46 days, 6.6 ± 1.8 mm in 87 days, and 10.5 ± 0.9 mm in 114 days. The relative growth between SL and shell height (SH) was calculated to be SH = 0.8501SL + 0.0196 (R2 = 0.9987) during the whole spat period. During spats rearing, they were suffered from one time of mass mortality at SL 3.1 mm, but 51,000 spats were finally survived with the rate of 39.2% at 114 days of spat rearing in indoor tank system.
Choi, K.C. (1971) Ecological studies of the clam, Meretrix lusoria and Cyclina sinenis for the increasing seed clam yield. Korean Journal of Limnology, 4: 9-19. (in Korean)
Choi, S.S. (1975) Comparative studies on the early embryonic development and growth of Meretrix lusoria and Cyclina sinensis. Bulletin of the Korean Fisheries Society, 8: 185-195. (in Korean)
Choi, S.S. (1976) A study on the artificial discharge and young clam culture of Meretrix lusoria. Korean Journal of Limnology, 9: 7-14. (in Korean)
Choi, S.S. and Song, Y.K. (1974) Studies on the artificial fertilization and development of Meretrix lusoria. Bulletin of the Korean Fisheries Society, 7: 1-6. (in Korean)
Chung, E.Y. and Kim, Y.M. (2000) Ultrastructural study of germ cell development and sexual maturation of the hard clam, Meretrix lusoria (Bivalvia: Veneridae), on the west coast of Korea. Journal of Medical and Applied Malacology, 10: 181-202.
Hur, Y.B. (2004) Dietary value of microalgae for larvae culture of Pacific oyster, Crassostrea gigas. Ph.D. thesis, Pukyong National University, 133 pp. (in Korean)
Iwata, K.S. (1948) Artificial discharge of reproductive substances by potassium salts injection in Venerupis philippinarum, Meretrix lusoria and Mactra sulcataria (Bivalves). Bulletin of the Japanese Society of Scientific Fisheries, 13: 237-240. (in Japanese)
Kim, B.H., T.S. Moon, K.Y. Park, Y.G. Jin and Y.K. Shin (2009) Effect of Temperature on Induced Sexual Maturation of the Hard Clam, Meretrix petechiails (LAMARCK) broodstock. Korean Journal of Malacology, 25: 113-119. (in Korean)
Kim, T.I., C.S. Ko, Y.B. Hur, Y.G. Jin and Y.J. Chang (2011a) Effect of Water Temperature, Salinity and Rearing Density on the Egg Development of the Hard Clam, Meretrix petechialis (Lamarck). Korean Journal of Malacology, 27: 167-173. (in Korean)
Kim, T.I., C.S. Ko, Y.B. Hur, M.H. Yang and Y.J. Chang (2011b) Growth and Survival of the Hard Clam, Meretrix petechialis (Lamarck) Larvae to Food Organisms. Korean Journal of Malacology, 27: 175-180. (in Korean)
Lee, J.H. (1997) Histological studies on the gametogenesis and reproductive cycle of the hard clam, Meretrix lusoria. Korean Journal of Malacology, 13: 131-141. National Fisheries Research and Development Institute. (http://portal.nfrdi.re.kr)
Numaguchi, K. (1997) A preliminary trial to induce maturity and spawning of the common oriental clam, Meretrix lusoria out of spawning season. Journal of the World Aquaculture Society, 28: 118-120.
Sagara, J. (1958a) Artificial discharge of reproductive elements of certain bivalves caused by treatment of sea water and by injection with NH4OH. Bulletin of the Japanese Society of Scientific Fisheries, 23: 505-510. (in Japanese)
Sagara, J. (1958b) On the optimum temperature and salinity for the development of hard clam, Meretrix Meretrix lusoria. Bulletin of the Tokai Regional Fisheries Research Laboratory, 22: 27-32. (in Japanese)
Taki, I. (1949) Spawning season of Meretrix lusoria (Bivalve). Bulletin of the Japanese Society of Scientific Fisheries, 15: 479-486. (in Japanese)
국립수산과학원 (1996) 양식품종별 표준 설계도. 구덕인쇄사, 45-49.
內藤新吾, (1930) 主要貝類の産卵時期調査. 千葉水試內灣分場旣往事業報告, 昭和5年度 21-23.
上城義信․幡手格一․安東正雄, (1978) ハマグリ人工種苗と稚貝の飼育. 栽培技硏, 7: 39-50.
上城義信․安東正雄․松本正勝, (1979) ハマグリの人工採苗の成長とその生態に關する二, 三の實驗. 栽培技硏, 8: 1-8.
小形國三, (1965) ハマグリ. 淺海養殖60種. 大成出版社, 228-236.
伊藤進․小木曾卓郞, (1954) 松川浦に於けるアサリ․ハマグリの增殖に關する硏究, 第2報 1-13.
宍戶一郞, (1895) 仙台地方貝類産卵期. 水産調査報告, 3: 27-116.
유성규 (2000) 천해양식. 구덕출판사, 251-261.
藤森三郞, (1929) 有明海干瀉利用硏究報告. 福岡水試, 175 pp.