Use and exchange of genetic resources in molluscan aquaculture
Tóm tắt
Molluscs are major aquaculture species worldwide. Molluscan aquaculture accounts for approximately 27% of the total world aquaculture production. The use and exchange of genetic resources have played an important role in the development of molluscan aquaculture. The introduction and use of non‐native species have been instrumental in oyster and scallop aquaculture; for example, the Pacific oyster, translocated from Japan, supports major aquaculture industries in many countries of North and South America, Europe, Asia and Africa. Bay scallops introduced from the USA account for an annual production of over 600 000 t in China. Non‐native genetic materials have also been used for the genetic improvement of native species through interspecific and intraspecific hybridization. Unique genetic lines, such as disease‐resistant strains, have been developed through selective breeding in some molluscs, although significantly more efforts are needed. Although the importance of genetic resources is apparent, the identification, protection and utilization of molluscan genetic resources remain a challenge.
Từ khóa
Tài liệu tham khảo
Calvo GW, 2001, A comparative field study of Crassostrea ariakensis (Fujita, 1913) and Crassostrea virginica (Gmelin 1791) in relation to salinity in Virginia, Journal of Shellfish Research, 20, 221
Elston RA, 1990, Mollusc Diseases: Guide for the Shellfish Farmer
FAO (Food and Agriculture Organization of the United Nations)(2009)Global aquaculture production. FAO Fisheries and Aquaculture Department online database. Available from URL:http://www.fao.org/fishery/statistics/global‐aquaculture‐production/en.
Farley CA, 1998, Resistance studies for juvenile oyster disease (JOD) 1997: some early insight into genetic aspects, Journal of Shellfish Research, 17, 352
Ford SE, 1996, The Eastern Oyster Crassostrea virginica, 383
Guo X, 1999, Molluscan aquaculture in China, Journal of Shellfish Research, 18, 19
GuoX WangH QianL ZhangG LiuX XuFet al.(2008a)Genetic and ecological structures of oyster estuaries in China and factors affecting success ofCrassostrea ariakensis: clues from a reclassification. Final report to NOAA CBO Non‐native Oyster Research Program.
Guo X, 2008, Building a superior oyster for aquaculture, Jersey Shoreline, 25, 7
Guo X, 2008, Genome Mapping and Genomics in Fishes and Aquatic Animals, 161
He G, 2003, The relationship between pathogenic infection status and mortality of the scallop Chlamys farreri, Journal of Fisheries of China, 27, 273
ICES (International Council for the Exploration of the Sea), 2005, ICES Code of Practice on the Introduction and Transfers of Marine Organisms 2005
Jiashou L, 2009, Success Stories in Asian Aquaculture, 175
Leffler M, 1991, The Ecology of Crassostrea gigas in Australia, New Zealand, France and Washington
QuayleDB(1988)Pacific oyster culture in British Columbia.Canadian Bulletin of Fisheries and Aquatic Sciences218.
Shumway SE, 2006, Scallops: Biology, Ecology and Aquaculture
Smith LG, 2006, The art and science of seafood, Valuerich Magazine 2006, 82
USDA, 2006, Census of Aquaculture (2005)
Wang R, 2008, Marine Mollusc Aquaculture
Zhang F, 1986, The introduction, hatchery rearing and culture of bay scallops, Oceanologia et Limnologia Sinica, 17, 367
Zhang F, 1994, Introduction and spat‐rearing of the F1 generation of Argopecten irradians concentricus Say, Oceanologia et Limnologia Sinica, 25, 372
Zhang G, 2004, Abalone mariculture in China, Journal of Shellfish Research, 23, 947
Zhao H, 1999, Abalone Enhancement and Aquaculture