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NTIS 바로가기Korean journal of Ichthyology = 한국어류학회지, v.28 no.3, 2016년, pp.192 - 199
김지혜 (인하대학교 해양과학과) , 송태윤 (인하대학교 해양과학과) , 김병기 (인하대학교 해양과학과) , 김병표 (인하대학교 해양과학과) , 한경남 (인하대학교 해양과학과)
The Seokmo and Yeomha channels are representative areas of high tidal energy in the Han River estuary. Surveys of environmental variables and abundance of Coilia spp. larvae, an anadromous fish, were carried out following the tidal cycle in August 2007 and August 2008. It was found that mean water t...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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우리나라 웅어속 어종의 서식지와 산란 특징은? | mystus)가 보고되어 있다(Youn and Kim, 1996). 이들 종은 우리나라 서해안으로 유입되는 하천의 기수역에 주로 서식하며 (Kim and Kang, 1993), 산란기에 강 하구역 중류까지 올라가 산란하고, 산란이 끝나면 하구에서 머물다가 먹이, 성장, 월동을 위해 바다 (연안)로 이동하는 소하성 어종이다 (Anonymous, 1976; Yuan and Qin, 1984). 부화한 웅어속 어종은 초기생활사 시기부터 성어 개체군에 가입하기 이전까지 하구역을 보육장 및 서식지로 이용하는데(Anonymous, 1976; Ma et al. | |
웅어속이란? | 웅어속(Coilia) 어종은 청어목(Clupeiformes) 멸치과(Engraulidae) 어류로서, 세계적으로 13종(Whitehead et al., 1988), 우리나라에는 2종으로 웅어(C. nasus)와 싱어(C. mystus)가 보고되어 있다(Youn and Kim, 1996). 이들 종은 우리나라 서해안으로 유입되는 하천의 기수역에 주로 서식하며 (Kim and Kang, 1993), 산란기에 강 하구역 중류까지 올라가 산란하고, 산란이 끝나면 하구에서 머물다가 먹이, 성장, 월동을 위해 바다 (연안)로 이동하는 소하성 어종이다 (Anonymous, 1976; Yuan and Qin, 1984). | |
자치어의 서식장이 수동적으로 결정되는 이유는? | , 2004), 이 시기에 자치어가 산란지인 강에서 보육장까지 운반되고 유지되는 메커니즘에 대한 연구는 잘 알려져 있지 않다. 자치어의 유영 능력은 해수의 유속보다 작기 때문에(Churchill et al., 1999; Forward et al., 1999; Schultz et al., 2000, 2003) 스스로 최적의 환경을 찾아 이동하지 못하고 주변해역의 해수거동에 의해 수동적으로 서식장이 결정되어, 밀도분포, 해수유동, 바람 등은 자치어가 어떠한 환경에서 생활할 수 있는가를 결정하는 요인이 된다(Forward et al., 1999; Schultz et al. |
Abboud-Abi, S.M. 1989. Distribution and ecology of tintinnids in the plankton of Labanese coastal waters (eastern Mediterranean). J. Plank. Res., 2: 203-222.
Anonymous. 1976. Fishes in the Yangtze River. Fish Laboratory, Institute of Hydrobiology, Hubei Province. Science Press, Beijing, China. (in Chinese)
Boehlert, G.W. and B.C. Mundy. 1988. Roles of behavioral and physical factors in larval and juvenile fish recruitment to estuarine nursery areas. Am. Fish. Soc. Symposium, 3: 51-67.
Burke, J.S., M. Ueno, Y. Tanaka, H. Walsh, T. Maeda, I. Kinoshita, and M. Tanaka. 1998. The influence of environmental factors on early life history patterns of flounders. J. Sea. Res., 40: 19-32.
Cha, S.S. and K.J. Park. 1991. Spatio-temporal distribution of the Ichthyoplankton in the Mankyong-Dongjin Estuary. J. Korean Soc. Oceanogr., 26: 47-58. (in Korean)
Cha, S.S. and S.H. Huh. 1988. Variation in abundances of ichthyoplankton in the Nakdong River Estuary. Bull. Kor. Fish. Tech. Soc., 24: 135-143. (in Korean)
Cha, S.S., J.M. Yoo and J.M. Kim. 1987. Key for the identifiaction of the ichthyoplankton in the mid-east coastal waters of the yellow sea. The Sea: J. Korean Soc. Oceanogr., 22: 236-245. (in Korean)
Choi, K.C. 1994. One hundred species of Korean freshwater fishes. Hyunam Co., 356-359. (in Korean)
Churchill, J.H., R.B. Forward, R.A. Luettich, J.L. Hench, W.F. Hettler, L.B. Crowder and J.O. Blanton. 1999. Circulation and larval transport within a tidally dominated estuary. Fish Oceanogr., 8: 173-189.
Chyung, M.K. 1977. The Fishes of Korea. Ilji-Sa, Korea, pp. 118-120. (in Korean)
Creutzberg, F. 1958. Use of tidal streams by migrating elvers (Anguilla vulgaris Turt). Nature, 181: 857-858.
Creutzberg, F. 1961. On the orientation of migrating elvers (Anguilla vulgaris Turt) in a tidal area. Neth. J. Sea Res., 1: 257-338.
De Veen, J.F. 1978. On selective tidal transport in the migration of North Sea plaice (Pleuronectes platessa) and other flatfish species. Neth. J. Sea Res., 12: 115-147.
Forward Jr., R.B., K.A. Reinsel, D.S. Peters, R.A. Tankerslev, J.H. Churchill, L.B. Crowder, W.F. Hettler, S.M. Warlen and M.D. Green. 1999. Transport of fish larvae through a tidal inlet. Fish. Oceanogr., 8: 153-172.
Forward, R.B. and R.A. Tankersley. 2001. Selective tidal stream transport of marine animals. Oceanography and Marine Biology: An Annual Review, 39: 305-353.
Gibson R.N. 2003. Go with the flow: tidal migrations in marine animals. Hydrobiologia, 503: 153-161.
Godhantaraman, N. 2001. Seasonal variations in taxonomic composition, abundance and food web relationship of microzooplankton in estuarine and mangrove waters, Parangipettai, southeast coast of India. Indian J. Mar. Sci., 30: 151-160.
Grioche, A. and P. Koubbi. 1997. A Preliminary study of the influence of a coastal frontal structure on ichthyoplankton assemblages in the English channel. ICES J. Mar. Sci., 54: 93-104.
Guest, M.A., R.M. Connolly, N.R. Loneragan. 2003. Seine nets and beam trawls compared by and night for sampling fish and crustacens in shallow seagrass habit. Fish Res., 64: 185-196.
Gyeonggi Research Insitute. 2008. A study on the conditions of the wetland and water-front ecological resources at the estuary of Han river, 213 pp.
Jellyman, D.J. 1977. Invasion of a New Zealand freshwater stream by glass-eels of two Anguilla spp. NZ J. Mar. Freshwater Res., 11: 193-209.
Kamiyama, T. 1994. The impact of grazing by microzooplankton in northern Hiroshima Bay, the Seto Inland Sea of Japan. Mar. Biol., 119: 77-88.
Kim, I.S. 1997. Illustrated encyclopedia of fauna and flora of Korea. Freshwater Fishes, 37: 148-149. (in Korean)
Kim, I.S. and E.J. Kang. 1993. Coloured fishes of Korea. Academic Pub. Co. Seoul, pp. 135-136. (in Korean)
Kim, J.H., B.K. Kim and K.N. Han. 2014. Seasonal variation in species composition of the larval fish in the Han River Estuary, Korea. Kor. J. Ichthyol., 26: 125-132. (in Korean)
Kim, J.K., J.I. Choi., D.S. Chang., J.T. Na and Y.U. Kim. 2003. Distribution of fish eggs, larvae and juveniles around the Youngsan River Estuary. J. Kor. Fish. Soc., 36: 486-494. (in Korean)
Kingsford, M.J. and I.M. Suthers. 1994 Dynamic estuarine plumes and fronts: importance to small fish and plankton in coastal waters of NSW, Australia. Continental Shelf Research, 14: 655-672.
Krumme, U. 2004. Patterns in tidal migration of fish in a Brazilian mangrove channel as revealed by a split-beam echosounder. Fish. Res., 70: 1-15.
Kwun, N.L. 2012. Morphological development of larvae and juveniles of the estuary tailfin anchovy, Coilia nasus from korea. Master Thesis, Pukyong national University, Busan, 26pp. (in Korean)
Lee, B.E., E.Y. Chung and J.Y. Lee. 2003. Histological study on the reproductive cycle of Coilia nasus. J. Aquaculture, 16: 179-18. (in Korean)
Lee, S.J. and Y.B. Go. 2003. Distribution of the Eggs and Larvae of Anchovy, Engraulis japonica, and Its Relationships with Environmental Factors Around Jeju Strait in Summer - 2. Relationship with Environmental Factors. J. Kor. Fish. Soc., 15: 162-174.
Levy, D.A. and A.D. Cadenhead. 1995. Selective tidal stream transport of adult socheye salmon (Oncorhynchus nerka) in the Fraser River Estuary. Can. J. Fish. Aqua. Sci., 52: 1-12.
Ma, C., M. Liu, L. Ma, F. Zhang and Y. Chen. 2004. Genetic diversity in Coilia ectenes by RAPD analysis. Mar. Fish. Res., 25: 19-24. (in Chinese with English abstract)
Mattila, J., G. Chaplin, M.R. Eilers, K.L. Jr. Heck, J.P. O'Neal and J.F. Valen-tine. 1999. Spatial and diurnal distribution of invertebrate and fish fauna of a Zostera marina bed nearby unvegetated sediments in Damariscotta River Maine (USA). J. Sea. Res., 41: 321-332
May, R.C. 1974. Larval mortality in marine fishes and the critical period concept. In: Blaxter, J.H.S. (ed.), The early life history of fish. springer-verlag, Berlin, Heidelberg, New York, pp. 3-20.
McCleave, J.D. and G.S. Wippelhauser. 1987. Behavioral aspects of selective tidal stream transport in juvenile American eels (Anguilla rostrata). Am. Fish. Soc. Symp., 1: 138-150.
Methven, D.A., R.L. Haedrich and G.A. Rose. 2001. The fish assemblage of a New found land estuary: diurnal monthly an dannual variation. Estuar, Coast. Shelf Sci., 52: 669-687.
Okiyama, M. 1988. An atlas of the early stage fishers in Japan. Tokai University Press, 1154pp
Park, K.S. 1990. A study on the fish community in the lower Han River and Han River Estuary. Master Thesis, Inha University, 63pp. (in Korean)
Primo, A.L., U.M. Azeiteiro, S.C. Marques, P. Re and M.A. Pardal. 2012. Vertical patterns of ichthyoplankton at the interface between a temperate estuary and adjacent coastal waters: Seasonal relation to diel and tidal cycles. J. Mar. Syst., 95: 16-23.
Revelante, N. and M. Gilmartin. 1983. Microzooplankton distribution in the northern Adriatic Sea with emphasis on the relative abundance of ciliated protozoans. Limnol. Oceaogr., 21: 24-38.
Ribeiro, J., L. Bentes, R. Coelho, J.M.S. Goncalves, P.G. Lino, P. Monteiro and K. Erzini. 2006. Seasonal, tidal and diurnal changes in fish assemblages in the Ria Formosa lagoon (Portugal). Estuar, Coast. Shelf Sci., 76: 461-474.
Richard, C.R.S. and F. Richard. 1994. Ichthyoplankton abundance along a recruitment corridor form offshore spawning to estuarine nursery ground. Estuar. Coastal and Shelf Science, 39: 421-450.
Rowe, P.M. and C.E. Epifanio. 1994. Tidal stream transport of weakfish larvae in Delaware Bay, USA. Mar. Ecol. Prog. Ser., 110: 105-114.
Sanchez-Velasco, L., C. Flores. Coto and B. Shirasago. 1996. Fish larvae abundance and distribution the coastal zone off terminos laggon, campeche (Southern Gulf of Mexico). Estuar, Coast. Shelf Sci., 43: 707-721.
Schultz, E.T., K.M.M. Lwiza, M.C. Fencil and J.M. Martin. 2003. Mechanisms promoting up- river transport of larvae of two fish species in the Hudson River estuary. Mar. Ecol. Prog. Ser., 251: 263-277.
Schultz, E.T., R.K. Cowen, M.W. Kamazima, M. Lwiza and A.M. Gospodarek. 2000. Explaining advection: do larval bay anchovy (Anchoa mitchilli) show selective tidal-stream transport? ICES J. Mar. Sci., 57: 360-371.
Son, J.W. 2001. Characteristics of organic compounds in the coastal environments. Master Thesis, Inha University, Inchon, 81 pp. (in Korean)
Tanaka, M., T. Goto, M. Tomiyana, H. Sudo and M. Azuma. 1989. Lunar-phased immigration and settlement of metamorphosing Japanese founder larvae into the nearshore nursery ground. Rappots et proces-verbaux des reunions international council for the exploration of the Sea, 191: 303-310.
Whitehead, P.J.P., G.J. Nelson and T. Wongratana. 1988. Clupeoid fishes of the world (Suborder Clupeoidei). In: An annotated and illustrated catalogue of the herrings, sardines, pilchards, sprats, shads, anchovies and wolf-herrings. FAO Fish Synopsis, Synopsis, Rome, 579pp.
Wirjoatmodjo, S. and T.J. Pitcher. 1984. Flounders follow the tides to feed: evidence from ultrasonic tracking in an estuary. Estuar. Coast. Shelf Sci., 19: 231-241.
Xu, G., X. Tang, C. Zhang, R. Gu, J. Zheng, P. Xu and G. Le. 2011. First studies of embryonic and larval development of Coilia nasus (Engraulidae) under controlled conditions. Aquaculture Res., 42: 593-601.
Yoon, B.I. 2006. Estuarine circulation and dynamics of a shallow, tidallydominated Han River Estuary in the Gyeonggi bay. Master Thesis, Inha University, Incheon, 93pp. (in Korean)
Youn, C.H. and I.S. Kim. 1996. Taxonomic study of the Family Engraulidae (Pisces:Clupeiformes) from Korea. Korean J. Ichthyol., 8: 33-46. (in Korean)
Young, G. and I. Potter. 2003. Do the characteristics of the ichthyoplankton in an artificial and a natural entrance channel of a large estuary differ? Coast. Shelf Sci., 56: 765-779.
Yuan, C. and A. Qin. 1984. Ecological habits and distribution of Coilia along the Chinese coast and its changes of output. Mar. Sci., 5: 35-37. (in Chinese)
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