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Use of Parasites for Stock Analysis of Salmonid Fishes  

Kim, Jeong-Ho (Faculty of Marine Bioscience and Technology, Kangnung National University)
Publication Information
The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY / v.12, no.2, 2007 , pp. 112-120 More about this Journal
Abstract
This paper reviews the use of parasites as 'biological tags' for studying stock analysis of salmonid fishes. Numerous definitions of stock concepts exist, but most of them essentially define a group of fish as having similar biological characteristics and being self-reproducing as stocks. It is important to manage fish stocks for human consumption and sustainable production and especially for salmonid fishes. Because these fry are considered as each country's property, it is necessary to identify and discriminate each fish stock in the open sea. Methods of separating fish stocks are very diverse. Artificial tags, parasites, otoliths scales and genetic characters have been used for stock analysis and each method has advantages and disadvantages. Of these parasites can be good biological tags because they are applied by nature at no cost. Parasites can be infected with susceptible host fishes when they enter into certain areas. Then if they move to the outside and are caught researchers can infer that the fish had been in the endemic area for a period of time during their life. Hence the host fish can be considered as naturally 'tagged' by parasites. However, if they do not pass the parasites-endemic. area, they will harbour no parasites. Therefore, researchers can discriminate each fish stocks and trace their migration routes with these biological tags. In this paper, several examples on the use of parasites as biological tags for studying salmonids, as well as other species, are listed. The advantages and limitations of parasites as biological tags are also discussed. Chum salmon (Oncorhynchus keta), the main salmonid species migrating to Korea, is distributed all around the North Pacific. Korean chum salmon are generally thought to move to the Sea of Okhotsk, the western North Pacific and the Bering Sea. However, there is no clear information on the distribution and migration pathways of Korean chum salmon, and no markers exist for separating them from others yet. Recent Korean chum salmon stock analysis including parasites information are mentioned.
Keywords
Biological Tags; Parasites; Salmonid; Chum Salmon;
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1 정웅식, 이윤호, 김수암, 진덕희, 성기백, 2003. 유전적 형질에 의한 북태평양 연어(Oncorhynchus keta)의 계군 구분. 한국수산학회지, 36: 578-585
2 Ayvazian, S.G, T.P. Bastow, J.S. Edmonds, J. How and G.B. Nowara, 2004. Stock structure of Australian herring (Arripis georgiana) in southwestern Australia. Fish. Res. 67: 39-53   DOI   ScienceOn
3 Boje, J, F. Riget and M. Koie, 1997. Helminth parasites as biological tags in population studies of Greenland halibut (Reinhardtius hippoglossoides (Walbaum)), in the north-west Pacific. ICES J. Mar. Sci. 54: 886-895   DOI   ScienceOn
4 Buchmann, K., A. Uldal and H.C.K. Lyholt, 1995. A checklist of metazoan parasites from rainbow trout (Oncorhynchus mykiss). Acta. Vet, Scand. 36: 299-318
5 Farina, A.C., R. Duarte, J. Landa, I. Quincoces, J.A. Sanchez, 2004. Multiple stock identification approaches of anglerfish (Lophius piscatorius and L. budegassa) in western and southern European waters. ICES CM Documents, 305 pp
6 Hansen, M.M., E. Kenchington and E.E. Nielsen, 2001. Assigning individual fish to population using microsatellite DNA markers. Fish. Fisher. 2: 93-112   DOI   ScienceOn
7 Kim, J.H., C.H. Lee and C.S. Lee, 2005. Preliminary studies on metazoan parasites of chum salmon (Oncorhynchus keta) in Korea. NPAFC-PICES joint Symposium Abstract Book. 62 pp
8 Margolis, L., 1982. Parasitology of Pacific Salmon-an overview. In:Aspects of Parasitology, edited by E. Meerovitch, E. McGill University Press, Montreal, Canada, pp. 135-226
9 MacKenzi, K. and P. Abaunza, 1998. Parasites as biological tags for stock discrimination of marine fish: a guide to procedures and methods. Fish. Res. 38: 45-56   DOI   ScienceOn
10 MacKenzi, K. and M. Longshaw, 1995. Parasites of the hakes Merluccius australis and M hubbsi in the waters around the Falkland Islands, southern Chile, and Argentina, with an assessment of their potential value as biological tags. Can. J. Fish. Aquat. Sci. 52: S213-S224   DOI   ScienceOn
11 NPAFC, 2004. NPAFC statistical handbook and historical data., http://www.npafc.org/new /publications/Statistical%20Yearbook/Data/Historical%20yearly/yearlypage.htm
12 Oliva, M., E, 2001. Metazoan parasites of Macruronus magellanicus from southem Chile as biological tags. J. Fish Biol. 58: 1617-1622   DOI
13 Oliva, M.E. and I. Bailon, 2002. Metazoan parasites of the Chilean hake Merluccius gayi gayi as a tool for stock discrimination. Fish. Res. 56: 313-320   DOI   ScienceOn
14 Oliva, M.E. and M., T. Gonzales, 2004. Metazoan parasites of Sebastes capensis from two localities in northern Chile as tools for stock identification. J. Fish Biol. 64: 170-175   DOI   ScienceOn
15 Ovenden, J.R., 1990. Mitochondrial DNA and marine stock assessment: a review. Aust. J. Mar. Freshwater Res. 41: 835-853   DOI
16 Sanchez-Lamadrid, A., 2001. Effectiveness of four methods for tagging juveniles of farm-reared gilthead sea bream, Sparus aurata, L. Fish. Manag. Ecol. 8: 271-278   DOI   ScienceOn
17 Welsh, S.A., A.W. Kahnle, B.A. Versak, and R.J. Latour, 2003. Use of tag data to compare growth rates of Atlantic coast striped bass stocks. Fish. Manag. Ecol. 10: 289-294   DOI   ScienceOn
18 Salo, E.O., 1991. Life history of chum salmon (Oncorhynchus keta). In: Pacific salmon life histories, edited by Groot, C. and L. Margolis, University of British Columbia Press. Vancouver, Canada. pp. 231-309
19 Urawa, S., L. Harrell, C.W. Mahnken, and K. Myers, 2006. Geographical distribution and seasonal occurrence of Myxobolus kisutchi (Myxozoa: Myxosporea) in the central nerve tissues of chinook and coho salmon in the Columbia river and its vicinities. Bull. Nat. Salmon Res. Center 8: 1-7
20 Urawa, S., M. Kawana, G Anma, Y. Kamei, T. Shoji, M. Fukuwaka, K.M. Munk, K.W. Myers and E.V. Farley Jr., 2000. Geographic origin ofhigh-seas chum salmon determined by genetic and thermal otolith markers. NPAFC Tech. Rep. 2: 283-290
21 Speare, P., 1995. Parasites as biological tags for sailfish Istiophorus platypterus from east coast Australian waters. Mar. Ecol. Prog. Ser. 118: 43-50   DOI
22 Waldman, J.R., 1999. The importance of comparative studies in stock analysis. Fish. Res. 43: 237-246   DOI   ScienceOn
23 Sato, S., H. Kojima, J. Ando, H. Ando, R.L. Wilmot, L.W Seeb, V. Efremov, L. LeClair, W. Buchholz, D.H. Jin, S. Urawa, M. Kaeriyama, A. Urano and S. Abe, 2004. Genetic population structure of Chum salmon in the Pacific rim inferred from mitochondrial DNA sequence variation. Environ. Biol. Fishes 69: 37-50   DOI
24 Nagasawa, K., S. Urawa and T. Awakura, 1987. A checklist and bibliography of parasites of salmonids in Japan. Sci. Rep. Hokkaido Salmon Hatchery 41: 1-75
25 Larsen G., W. Hemmingsen, K. MacKenzie, and D.A. Lysne, 1997. A population study of cod, Gadus morhua L., in northern Norway using otolith structure and parasite tags. Fish. Res. 32: 13-20   DOI   ScienceOn
26 Melendy, J., G. McClelland and T. Hurlbut, 2005. Use of parasite tags in delineating stocks of white hake (Urophycis tenuis) from the southern Gulf of St. Lawrence and Cape Breton Shelf. Fish. Res. 76: 392-400   DOI   ScienceOn
27 Dick, T.A. and M. Belosevic, 1981. Parasites of Arctic charr Salvelinus alpinus (Linnaeus) and their use in separating sea-run and non-migrating charr. J. Fish Biol. 18: 339-347   DOI
28 Robichaud, D. and G.A. Rose, 2004. Migratory behavior and range in Atlantic cod: inference from a century of tagging. Fish. Fisher. 5: 185-214   DOI   ScienceOn
29 Frimeth, J.P., 1987. A survey of the parasites ofnon-anadromous and anadromous brook charr (Salvelinus fontinalis) in the Tabusintac river, New Brunswick, Canada. Can. J. Zool. 65: 1354-1362   DOI
30 Schonhuth, S., Y. Alvarez, V. Rico, J.A. Gonzalez, J.I. Santana, E. Gouveia, J.M. Lorenzo and J.M. Bautista, 2005. Molecular identification and biometric analysis of Macaronesian archipelago stocks of Beryx splendens. Fish. Res. 73: 299-309   DOI   ScienceOn
31 Urawa, S., K. Nagasawa, L. Margolis and A. Moles, 1998. Stock identification of chinook salmon (Oncorhynchus tshawytscha) in the north Pacific Ocean and Bering Sea by parasite tags. NPAFC Bull. 1: 199-204
32 Urawa, S. and K. Nagasawa, 1995. Prevalence of Myxobolus arcticus (Myxozoa: Myxosporea) in five species of Pacific Salmon in the North Pacific Ocean and Bering Sea. Sci. Rep. Hokkaido Salmon Hatchery 49: 11-19
33 김기홍, 주경환, 임환종, 1990. 강원도 대포항에서 구입한 연어(Oncorhynchus keta) 및 송어(Oncorhynchus masou)의 Anisakid 유충 감염상 및 기생윤충류에 관한 조사. 한국농촌의학회지, 15: 89-96
34 Begg, G.A. and J.R. Waldman, 1999. An holistic approach to fish stock identification. Fish. Res. 43: 35-44   DOI   ScienceOn
35 Awakura, T., K. Nagasawa, and S. Urawa, 1995. Occurrence of Myxobolus arcticus and M neurobius (Myxozoa: Myxosporea) in masu salmon Oncorhynchus masou from Northern Japan. Sci, Rep. Hokkaido Salmon Hatchery 49: 35-40
36 Beacham, T.D. and J.R. Candy, 2005. Microsatellite analysis and stock identification of Pacific salmon using Pacific rim baselines. NPAFC Tech. Rep, 6: 48-49
37 Fritsch, M., Y. Morizur, E. Lambert, F. Bonhomme, and B. Guinand, 2007. Assessment of sea bass (Dicentrarchus labrax, L.) stock delimitation in the Bay of Biscay and the English Channel based on mark-recapture and genetic data. Fish. Res. 83: 123-132   DOI   ScienceOn
38 이채성, 강수경, 성기백, 김주경, 이철호, 2006. 한국산 연어의 표지연구: CWT와 이석발안란 표지. 수산관련학회 공동학술대회 발표요지집, 226-227
39 Ogura, M., 1994. Migratory behavior of Pacific salmon (Oncorhynchus keta) in the open sea. Bull. Nat. Res. lnst. Far Seas Fish. 31: 1-139 (in Japanese with English summary)
40 Swan, S.C., A.J. Geffen, B. Morales-Nin, J.D.M. Gordon, T. Shimmield, T. Sawyer and E. Massuti, 2006. Otolith Chemistry: An aid to stock separation of Helicolenus dactylopterus (bluemouth) and Merluccius merluccius (European hake) in the Northeast Atlantic and Mediterranean. ICES J. Mar. Sci. 63: 504-513   DOI   ScienceOn
41 Seeb, L. W. and P.A. Crane, 1999. Allozymes and mitochondrial DNA discriminate Asian and North American populations of chum salmon in mixed-stock fisheries along the south coast of the Alaska Peninsula. Trans. Am. Fish. Soc. 128: 88-103   DOI
42 Rooker, J.R., D.H. Secor, V.S. Zdanowicz, G.D. Metrio and L.O. Relini, 2003. Identification of Atlantic bluefin tuna (Thunnus thynnus) stocks from putative nurseries using otolith chemistry. Fish. Oceanogr. 12: 75-84   DOI   ScienceOn
43 Margolis, L., 1992. A brief history of Canadian research from 1955 to 1990 related to Pacific salmon (Oncorhynchus species) on the high seas. Int. North Pacific Fish. Comm. Special Edition 20: 79 pp
44 MacKenzi, K., 1983. Parasites as biological tags in fish population studies. Adv. Appl. Biol. 7: 251-331
45 Begg, G.A., 1998. A review of stock identification of haddock, Melanogrammus aeglefinus, in the Northwest Atlantic Ocean. Mar. Fish. Rev. 60: 1-15
46 Castro-Pampillon, J.A, M. Soto-Bua, H. Rodriguez-Diminguez, J. Mejuto-Garcia, C. Arias-Fernandez and J.M. Garcia-Estevez, 2002. Selecting parasites for use in biological tagging of the Atlantic swordfish (Xiphias gladius). Fish. Res. 59: 259-262   DOI   ScienceOn
47 Margolis, L., 1998. Are naturally-occurring parasite 'tags' stable ? An appraisal from four case histories involving Pacific salmonids. NPAFC Bull. 1: 205-212
48 성기백, 김진영, 박차수, 강영실, 2001. 한국 연어자원의 회유와 서식환경의 장기 변동. 한국수산자원학회지, 4: 42-50
49 DeVries, D.A., C.B. Grimes and M.H. Prager, 2002. Using otolith shape analysis to distinguish eastern Gulf of Mexico and Atlantic Ocean stocks of king mackerel. Fish. Res. 57: 51-62   DOI   ScienceOn
50 Scholz, T., L. Euzet and F. Moravec, 1998. Taxonomic status of Pelichnibothrium speciosum Monticelli, 1889(Cestoda: Tetraphyllidea), a mysterious parasite of A lepisaurusferox Lowe (Teleostei:Alepisauridae) and Prionace glauca (L.)(Euselachii: Carcharinidae). Syst. Parasitol. 41: 1-8   DOI   ScienceOn
51 Moser, M. and J. Hsieh, 1992. Biological tags for stock indentifica- tion in pacific herring Clupea harengus pallasi in California. J. Parasitol. 78: 54-60   DOI   ScienceOn
52 Moriya, S., S. Sato, T. Azumaya, O. Suzuki, S. Urawa, A. Urano and S. Abe, 2007. Genetic stock identification of chum salmon in the Bering Sea and North Pacific Ocean using mitochondrial DNA microarray. Mar. Biotechnol. 9 (in press)
53 Gilbey, J., D. Knox, M. O'Sullivan and E. Verspoor, 2005. Novel DNA markers for rapid, accurate, and cost-effective discrimination ofthe continental origin of Atlantic salmon (Salmo salar L.). ICES J. Mar. Sci. 62: 1609-1616   DOI   ScienceOn
54 Khan, R.A. and C. Tuck, 1995. Parasites as biological indicators of stocks of Atlantic cod (Gadus morhua) off Newfoundland, Canada. Can. J. Fish. Aquat. Sci. 52: S195-S201   DOI   ScienceOn
55 Matthews, B.E., 1998. An introduction to Parasitology. Cambridge University Press, Cambridge, U.K., pp. 11-13
56 Sohn, D.W., S.K. Kang and S.A. Kim, 2005. Stock identification of chum salmon (Oncorhynchus keta) using trace elements in otoliths. J. Oceanogr. 61: 305-312   DOI
57 Konovalov, S.M., 1995. Parasites as indicators of biological processes, with special reference to sockeye salmon (Oncorhynchus nerka). Can. J. Fish. Aquat. Sci. 52: S202-S212   DOI   ScienceOn
58 Kang, S.K., S. Kim, K. Telmer, D. Welch, J.H. Helle, Y.H. Lee and K. Nagasawa, 2003. Identification of stocks and environmental characteristics of North Pacific chum salmon, Oncorhynchus keta, by chemical analysis of otolith. NPAFC Tech. Rep. 5: 37-38