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NTIS 바로가기생태와 환경 = Korean journal of ecology and environment, v.53 no.4, 2020년, pp.445 - 452
홍동현 (부산대학교 생명과학과) , 성기백 (원진수산영어조합법인) , 고의정 (부산대학교 생명과학과) , 정은송 (부산대학교 생명과학과) , 조현빈 (부산대학교 생명과학과) , 주기재 (부산대학교 생명과학과)
In this study, we carried out a distribution and migration boundary lines of chum salmon (Oncorhynchus keta) in the Milyang River. We measured the total length of dead chum salmons. As a results, 40 chum salmons were found during the study period, 25 dead salmons and 15 alive individuals. The ratio ...
Barton, L.H. 1992. Tanana River, Alaska, fall chum salmon radio telemetry study. Alaska Department of Fish and Game, Division of Commercial Fisheries, Fishery Research Bulletin No.92-01, Juneau.
Battin, J., M.W. Wiley, M.H. Ruckelshaus, R.N. Palmer, E. Korb, K.K. Bartz and H. Imaki. 2007. Projected impacts of climate change on salmon habitat restoration. Proceedings of the National Academy of Sicences of the United States of America 104(16): 6720-6725.
Bilby, R., E.W. Beach, B.R. Fransen, J.K. Walter and P.A. Bisson. 2003. Transfer of Nutrients from Spawning Salmon to Riparian Vegetation in Western Washington. Transactions of the American Fisheries Society 132(4): 733-745.
Chae, B.S., H.B. Song and J.Y. Park. 2019. A Field Guide to the Freshwater Fishes of Korea. LG Evergreen Foundation, Seoul.
Esteve, M. 2005. Observations of spawning behavior in Salmoninae: Salmo, Oncorhynchus and Salvelinus. Reviews in Fish Biology and Fisheries 15: 1-21.
Fukuwaka, M. and T. Suzuki. 2001. Early sea mortality of chum salmon juveniles in the open coastal waters of the Japan Sea. North Pacific Anadromous Fish Commission. Bulletin. Technical Report 2: 7-8.
Gleick, P.H. 2001. Making every drop count. Scientific American 284(2): 40-46.
Groot, C. and L. Margolis. 1991. Pacific Salmon Life Histories. University of British Columbia Press, Vancouver.
Kim, G.E., C.G. Kim and Y.H. Lee. 2007. Genetic similarity-dissimilarity among Korea Chum salmons of each stream and their relationship with Japan salmons. The Sea: Journal of the Korean Society of Oceanography 12: 94-101.
Kim, I.S. and J.Y. Park. 2002. Freshwater fishes of Korea. KyoHak Publishing, Seoul.
Kim, S.J., M.S. Shin, J.K. Kim, J.Y. Lee, K.J. Jeong, B.Y. Ahn and B.C. Kim. 2012. Oxygen fluctuation monitored with high frequency in eutrophic urban stream (the Anyang Stream) and the effect of weather condition. Korean Journal of Ecology and Environment 45: 34-41.
Kulmala, S., P. Haapasaari, T.P. Karjalaien, S. Kuikka, T. Pakarinen, K. Pakkila, A. Romakkaniemi and P.J. Vuorinen. 2012. Ecosystem services provided by Baltic salmon: a regional perspective to the socio-economic benefits associated with a keystone migratory species. In Socio-economic Importance of Ecosystem Services in the Nordic Countries: Synthesis in the Context of The Economics of Ecosystems and Biodiversity (TEEB). pp. 266-276.
Lee, H.S., K.B. Seong and C.H. Lee. 2007. History and Status of the Chum Salmon Enhancement Program in Korea. The Sea: Journal of the Korean Society of Oceanography 12: 73-80.
Lim, J.Y. 1990. A study on the production and the effect of sea ranching fingerling of anadromous chum salmon, Oncorhynchus keta (WALBAUM) in the eastern coast of Korea. Department of Aquaculture, Graduate School of Industry National Fisheries University of Pusan, Pusan.
McNeil, W.J. 1962. Mortality of pink and chum salmon eggs and larvae in southeast Alaska streams. Ph.D. dissertation, University of Washington, Seattle.
Nakdong River Flood Control Office. 2020. http://www.nakdongriver.go.kr/main.do. Accessed in 2020.11.19.
National Fishway Information System. 2020. http://www.fishway.go.kr. Accessed in 2020.12.01.
Park, H.Y., J.M. Yoon, G.N. Jang and H.T. Hur. 1995. Fish biology. Jungmunkag, Seoul, p. 50.
Powers, P.D. and J.F. Orsborn. 1985. New Concepts in Fish Ladder Design: Analysis of Barriers to Upstream Fish Migration, Volume IV of IV, Investigation of the Physical and Biological Conditions Affecting Fish Passage Success at Culverts and Waterfalls, 1982-1984 Final Report. Washington State University, Albrook Hydraulics Laboratory.
Schuett-Hames, D.E., N.P. Peterson, R. Cornad and T.P. Quinn. 2000. Patterns of Gravel Scour and Fill after Spawning by Chum Salmon in aWestern Washington Stream. North American Journal of Fisheries Management 20(3): 610-617.
Seeb, L.W., P.A. Crane, C.M. Kondzela, R.L. Wilmot, S. Urawa, N.V. Varnavskaya and J.E. Seeb. 2004. Migration of pacific rim chum salmon on the high seas: insights from genetic data: insights from genetic data. Environmental Biolology of Fishes 69: 21-36.
Smith, A.K. 1973. Development and application of spawning velocity and depth criteria for Oregon salmonids. Transactions of the American Fisheries Society 102(2): 312-316.
Seung, K.B. 1997. Biological characteristics and population genetics of salmonid species from Korea. Department of Biotechnology, Graduate School, Pukyong National University.
Urawa, S., S. Sato, P.A. Crane, B. Agler, R. Josephson and T. Azumaya. 2009. Stock-specific ocean distribution and migration of chum salmon in the Bering Sea and North Pacific Ocean, North Pacific Anadromous Fish Commission, Bulletin 5. npafc.org/new/pub_bulletin.html.(June 2010).
Van den Berghe, E.P. and M.R. Gross. 1984. Female size and nest depth in coho salmon (Oncorhynchus kisutch). Canadian Journal of Fisheries and Aquatic Science 41: 204-206.
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