Manuels généraux sur la génétique des poissons
Kirpichnikov, V.S. 1981. Genetic Bases of Fish Selection. Springer-Verlag, New York, New York
Cet ouvrage contient de précieux renseignements sur la plupart des aspects de la génétique des poissons. La bibliographie mentionne plus de 2 000 références, dont un grand nombre de publications russes et d'Europe occidentale. Il s'agit toutefois d'un ouvrage très technique qui s'adresse avant tout aux scientifiques, et notamment aux spécialistes de la génétique des poissons.
Tave, D. 1993. Genetics for Fish Hatchery Managers, 2nd ed. Van Nostrand Reinhold, New York, New York.
Cet ouvrage est destiné aux spécialistes de la vulgarisation, au personnel des écloseries gouvernementales et aux pisciculteurs. Il couvre tous les aspects de la pisciculture et fournit des exemples de réussites de programmes d'élevage sélectif appliqués aux poissons. Il comporte une bibliographie de plus de 800 références et un tableau contenant la liste de plus de 400 valeurs de l'héritabilité chez les poissons.
Article décrivant la découverte d'un phénotype mutant dans une population d'écloserie constituée de poissons comestibles d'élevage, les études qui ont été réalisées en vue d'identifier la cause de la difformité et le programme d'amélioration qui a été mis en oeuvre pour réformer le phénotype et produire une population génétiquement pure.
Tave, D., J.E. Bartels, and R.O. Smitherman. 1983. Saddleback: a dominant lethal gene in Sarotherodon aureus (Steindachner) (= Tilapia aurea). Journal of Fish Diseases 6:59–73.
Articles décrivant des programmes d'élevage sélectif qui ont été mis en oeuvre afin d'améliorer divers phénotypes quantitatifs dans des populations de poissons d'élevage. Ces articles, quoique très techniques, fournissent des exemples de programmes d'élevage sélectif destinés à améliorer le taux de croissance, la résistance aux maladies, l'âge de reproduction, le taux de survie et d'autres phénotypes quantitatifs. Certains de ces programmes ont été couronnés de succès et d'autres ont échoué.
Abella, T.A. 1987. Improved tilapia strains through broodstock development in the Philippines. Pages 3–7 in R.D. Guerrero, III, D.L. Guzman, and CM. Lantican, eds. Tilapia Farming. Philippine Council for Agriculture, Forestry and Natural Resources Research and Development, Bureau of Fisheries and Aquatic Resources, and Southeast Asian Fisheries Development Center Aquaculture Department, PCARD Book Series No. 48/1987, Los Baños, Laguna, Philippines.
Abella, T.A., M.S. Palada, and G.F. Newkirk. 1990. Within family selection for growth rate with rotation mating in Oreochromis niloticus. Pages 515–518 in R. Hirano and I. Hanyu, eds. The Second Asian Fisheries Forum. Asian Fisheries Society, Manila, Philippines.
Ankorion, Y., R. Moav, and G.W. Wohlfarth. 1992. Bidirectional mass selection for body shape in common carp. Genetics Selection Evolution 24:43–52.
Babouchkine, Y.P. 1987. La sélection d'une carpe résistant à l'hiver. Pages 447–454 in K. Thiews, ed. Selection, Hybridization, and Genetic Engineering in Aquaculture, Vol. 1. H. Heenemann GmbH and Co., Berlin.
Behrends, L.L., J.B. Kingsley, and A.H. Price, III. 1988. Bidirectional-backcross selection for body weight in a red tilapia. Pages 125–133 in R.S.V. Pullin, T. Bhukaswan, K. Tonguthai, and J.L. Maclean, eds. The Second International Symposium on Tilapia in Aquaculture. ICLARM Conference Proceedings 15, Department of Fisheries, Bangkok, Thailand and International Center For Living Aquatic Resources Management, Manila, Philippines.
Bergot, P., J.M. Blanc, A.M. Escaffre, and H. Poisson. 1981. Effect of selecting sires according to their number of pyloric caeca upon the growth of offspring in rainbow trout (Salmo gairdneri Richardson). Aquaculture 25:207–215.
Bondari, K. 1982. Cage performance and quality comparisons of tilapia and divergently selected channel catfish. Proceedings of the Southeastern Association of Fish and Wildlife Agencies 34(1980):88–98.
Bondari, K. 1983. Response to bidirectional selection for body weight in channel catfish. Aquaculture 33:73–81.
Bondari, K. 1986. Response of channel catfish to multi-factor and divergent selection of economie traits. Aquaculture 57:163–170.
Bondari, K., R.A. Dunham, R.O. Smitherman, J.A. Joyce, and S. Castillo. 1983. Response to bidirectional selection for body weight in blue tilapia. Pages 300–310 jn L. Fishelson and Z. Yaron, compilers. International Symposium on Tilapia in Aquaculture. Tel Aviv University, Tel Aviv, Israel.
Ch'ang, M.T. 1971. Determination of realized weight heritability in tilapia (Tilapia mossambica Peters.). Soviet Genetics 7:1550–1554.
Cipriano, R.C., and CM. Heartwell, III. 1986. Susceptibility of salmonids to furunculosis: Differences between serum and mucus responses against Aeromonas salmonicida. Transactions of the American Fisheries Society 115:83–88.
Donaldson, L.R., and D. Menasveta. 1961. Selective breeding of chinook salmon. Transactions of the American Fisheries Society 90:160–164.
Donaldson, L.R., and P.R. Oison. 1957. Development of rainbow trout brood stock by selective breeding. Transactions of the American Fisheries Society 85(1955):93–101.
Dunham, R.A., and R.O. Smitherman. 1983. Response to selection and realized heritability for body weight in three strains of channel catfish, Ictalurus punctatus. grown in earthen ponds. Aquaculture 33:89–96.
Dunham, R.A., Y. Brady, and S. Vinitnantharat. 1993. Response to challenge with Edwardsiella ictaluri by channel catfish, Ictalurus punctatus, selected for resistance to E. ictaluri. Journal of Applied Aquaculture 3:211–222.
Ehlinger, N.F. 1964. Selective breeding of trout for resistance to furunculosis. New York Fish and Game Journal 11:78–90.
Ehlinger, N.F. 1977. Selective breeding of trout for resistance to furunculosis. New York Fish and Game Journal 24:25–36.
Embody, G.C. and C.O. Hayford. 1925. The advantage of rearing brook trout fingerlings from selected breeders. Transactions of the American Fisheries Society 55:135–148.
Fevolden, S.E., T. Refstie, and K.H. Røed. 1991. Selection for high and low cortisol stress response in Atlantic salmon (Salmo salar) and rainbow trout (Oncorhvnchus mvkiss). Aquaculture 95:53–65.
Fevolden, S.E., T. Refstie, and K.H. Røed. 1992. Disease resistance in rainbow trout (Oncorhynchus mykiss) selected for stress response. Aquaculture 104:19–29.
Friars, G.W., J.K. Bailey, and K.A. Coombs. 1990. Correlated responses to selection for grilse length in Atlantic salmon. Aquaculture 85:171–176.
Gjedrem, T. 1979. Selection for growth rate and domestication in Atlantic salmon. Zeitschrift fur Tierzûchtung und Zûchtungsbiologie 96:56–59.
Gjedrem, T., and D. Aulstad. 1974. Selection experiments with salmon. I. Differences in resistance to vibrio disease of salmon parr (Salmo salar). Aquaculture 3:51–59.
Hayford, C.O., and G.C. Embody. 1930. Further progress in the selective breeding of brook trout at the New Jersey State Hatchery. Transactions of the American Fisheries Society 60:109–113.
Hershberger, W.K., J.M Myers, R.N. Iwamoto, W.C. McAuley, and A.M. Saxton. 1990. Genetic changes in the growth of coho salmon (Oncorhvnchus kisutch) in marine net-pens, produced by ten years of selection. Aquaculture 85:187–197.
Hôrstgen-Schwark, G. 1993. Selection experiments for improving “pan-size” body weight of rainbow trout (Oncorhvnchus mvkiss). Aquaculture 112:13–24.
Huang, CM., and I.-C. Liao. 1990. Response to mass selection for growth rate in Oreochromis niloticus. Aquaculture 85:199–205.
Hulata, G., G.W. Wohlfarth, and A. Halevy. 1986. Mass selection for growth rate in the Nile tilapia (Oreochromis niloticus). Aquaculture 57:177–184.
Jarimopas, P. 1986. Realized response of Thai red tilapia to weight-specific selection for growth. Pages 109–111 in J.L. Maclean, L.B. Dizon, and L.V. Hosillos, eds. The First Asian Fisheries Forum. Asian Fisheries Society, Manila, Philippines.
Jarimopas, P. 1990. Realized response of Thai red tilapia to 5 generations of size-specific selection for growth. Pages 519–522 in R. Hirano and I. Hanyu, eds. The Second Asian Fisheries Forum. Asian Fisheries Society, Manila, Philippines.
Kincaid, H.L., W.R. Bridges, and B. von Limbach. 1977. Three generations of selection for growth in fall-spawning rainbow trout. Transactions of the American Fisheries Society 106:621–628.
Kirpichnikov, V.S., 1972. Methods and effectiveness of breeding the Ropshian carp. Communication I. Purposes of breeding, initial forms, and system of crosses. Soviet Genetics 8:996–1001.
Kirpichnikov. V.S., and K.A. Factorovich. 1972. Increase in the resistance of carp to dropsy by means of breeding. Communication II. The course of the selection and evaluation of the breeding groups selected. Soviet Genetics 8:592–600.
Kirpichnikov, V.S., K.A. Factorovich, and V.S. Suleimanyan. 1972. Increasing the resistance of carp to dropsy by breeding. Communication I. Methods of breeding for resistance. Soviet Genetics 8:306–312.
Kirpichnikov, V.S., K.V. Ponomarenko, N.V. Tolmacheva, and R.M. Tsoi. 1972. Methods and effectiveness of breeding Ropshian carp. Communication II. Methods of selection. Soviet Genetics 8:1108–1115.
Kirpichnikov, V.S., K.A. Factorovich, Y.l. llyasov, and L.A. Shart. 1979. Selection of common carp (Çyprinus carpio) for resistance to dropsy. Pages 628–633 in T.V.R. Pillay and W.A. Dill, eds. Advances in Aquaculture. Fishing News Books, Farnam, Surrey, England.
Kirpichnikov, V.S., J.l. llyasov, L.A. Shart, A.A. Vikhman, M.V. Ganchenko, A.L. Ostashevsky, V.M. Simonov, G.F. Tikhonov, and V.V. Tjurin. 1993. Selection of Krasnodar common carp (Çyprinus carpio L.) for resistance to dropsy: principal results and prospects. Aquaculture 111:7–20.
Kirpitschnikow W.S., and K.A. Faktorowitsch [Kirpichnikov, V.S., and K.A. Factorovich]. 1969. Gentische Methoden den Fischkrankheits-beitsbekaempfung. Zeitschrift für Fischerei und deren Hilfswissenschaften 17:227–236.
Langholz, H.-J., and G. Hörstgen-Schwark. 1987. Family selection in rainbow trout. Pages 375–385 in K. Thiews, ed. Selection, Hybridization, and Genetic Engineering in Aquaculture, Vol 1. H. Heenemann GmbH and Co., Berlin.
Lewis,R.C. 1944. Selective breeding of rainbow trout at Hot Creek Hatchery. California Fish and Game 30:95–97.
Millenbach, C. 1950. Rainbow brood-stock selection and observations on its application to fishery management. Progressive Fish-Culturist 12:151–152.
Moav, R., and G. Wohlfarth. 1976. Two-way selection for growth rate in the common carp (Cvprinus carpio L.). Genetics 82:83–101.
Na-Nakorn, U., S. Chantsawang, and W. Tarnchalanukit.1994. Response to mass selection for disease resistance in walking catfish, Clarias macrocephalus. Journal of Applied Aquaculture 4(4):65–73.
Savost'yanova, G.G.1969. Mass selection in trout breeding. Soviet Genetics 5:896–902.
Siitonen, L., and G.A.E. Gall. 1989. Response to selection for early spawn date in rainbow trout, Salmo qairdneri. Aquaculture 78:153–161.
Tave, D. 1994. Response to selection and realized heritability for length in golden shiner, Notemiaonus crysoleucas. Journal of Applied Aquaculture 4(4):55–63.
Teichert-Coddington, D.R., and R.O. Smitherman. 1988. Lack of response by Tilapia nilotica to mass selection for rapid early growth. Transactions of the American Fisheries Society 117:297–300.
Tipping, J.M. 1991. Heritability of age at maturity in steelhead. North American Journal of Fisheries Management 11:105–108.
Uraiwan, S. 1988. Direct and indirect responses to selection for age at first maturation of Oreochromis niloticus. Pages 295–300 in R.S.V. Pullin, T. Bhukaswan, K. Tonguthai, and J.L. Maclean, eds. The Second International Symposium on Tilapia in Aquaculture. ICLARM Conference Proceedings 15, Department of Fisheries, Bangkok Thailand and International Center for Living Aquatic Resources Management, Manila, Philippines.
Articles décrivant des programmes d'élevage sélectif qui ont été mis en oeuvre en vue de modifier des phénotypes quantitatifs chez des poissons ornementaux ou appartenant à des espèces non aquicoles.
Busack, C.A. 1983. Four generations of selection for high 56-day weight in the mosquitofish, Gambusia affinis. Aquaculture 33:83–87.
Campton, D.E., and G.A.E.Gall, 1988. Responses to selection for body size and age at sexual maturity in the mosquitofish, Gambusia affinis. Aquaculture 58:221–241.
Hagen, D.W, and D.M. Blouw.1983. Heritability of dorsal spines in the fourspine stickleback (Apeltes quadracus). Heredity 50:275–281.
Schmidt, J.1919. Racial studies in fishes. II. Experimental investigations with Lebistes reticulatus (Peters) Regan. Journal of Genetics 8:147–153.
Svärdson, G. 1945. Polygenic inheritance in Lebistes. Arkiv för Zoologi 36A(6):1–9.
