Wspoldzialanie miedzy genotypem a srodowiskiem i jego znaczenie w hodowli i produkcji swin

• Autorzy: Kulisiewicz J
• Języki publikacji: PL

Abstrakty

EN

Genotype and environment interactions, measured by the genetic correlation between the traits of boars offspring performance estimated in test stations, take place at breeding farms or in commercial herds and may be responsible for lower genetic unprovement of commercial herds. The conditions of efficient selection for lean meat growth rate of modern pig types with regard to genotype x environment interaction were discussed. The interaction between genotype and feeding regime during fattening of genetically differentiated crossbreds strongly affects the fattening traits, carcass value and economic results. The phenomenon of different halothane genes expression, depending on slaughter weight, supports the necessity ol intensification of the research work on phenotypic expression of single major genes under different extemal conditions.

Słowa kluczowe

PL

selekcja; trzoda chlewna; genetyka zwierzat; tucz; interakcja genotypowo-srodowiskowa

• Wydawca: -
• Czasopismo: Postępy Nauk Rolniczych
• Rocznik: 2000
• Tom: 47
• Numer: 1
• Opis fizyczny: s.3-13,rys.,tab.,bibliogr.

Twórcy

autor

Kulisiewicz J

• Szkola Glowna Gospodarstwa Wiejskiego, ul.Przejazd 4, 05-840 Brwinow

Bibliografia

• [1] Cameron N.D. 1993. Methodologies for estimation of genotype with environment interaction. Livest. Prod. Sci. 35: 237-249.
• [2] Cameron N.D., Curran M.K. 1994. Selection for components of efficient lean growth in pigs. 4. Genetic and phenotypic parameter estimates and correlated responses in performance test traits with ad-libitum feeding. Anim. Prod. 59: 281-291.
• [3] Cameron N.D., Curran M.K., Kerr J.C. 1994. Selection for components of efficient lean growth in pigs. 3. Responses to selection with a restricted feeding regime. Anim. Prod. 59: 271-279.
• [4] Falconer D.S. 1981. Introduction to Quantitative Genetics. 2nd ed. Longman, London: 391 ss.
• [5] Fowler V.R., Bichard M., Bease A. 1976. Objectives in pig breeding. Anim. Prod. 23: 365-387.
• [6] Kanis E. 1990. Effect of food intake capacity on genotype by feeding regime interaction in growing pigs. Anim. Prod. 50: 343-351.
• [7] Kulisiewicz J., Sokół J.L., Rekiel A., Iniarski R., Lenartowicz P. 1995. Growth rate and carcass value of three types of crossbred pigs fed ad libitum diets with different protein and energy contents. J. Anim. Feed Sci. 4: 11-19.
• [8] Kulisiewicz J., Sokół J.L., Rekiel A., Więcek J. 1996. Wyniki tuczu trzech typów mieszańców żywionych do woli mieszankami o zróżnicowanym poziomie energii, lizyny i aminokwasów siarkowych. Zesz. Nauk. PTZ 26: 93-102.
• [9] Merks J. W. 1986. Genotype x enviromnent interactions in pigs breeding programmes. I. Central test. Livest. Prod. Sci. 14: 265-381.
• [10] Merks J.W. 1989. Genotype x enviromnent interactions in pig breeding programmes. VI. Genetic relations between performances in Central test, On-farm test and commercial fattening. Livest. Prod. Sci. 22: 325-339.
• [11] Merks J.W., Van Kemenade P.G. 1989. Genotype x environment interactions in pig breeding programmes. V. Genetic parameters and sire x herd interactions in commercial fattening. Livest. Prod. Sci. 22: 99-109.
• [12] Petersen U. 1977. Vergleichende Untersuchungen über die Schlachtkoerperzusammensetzung und die Ausbildung von Organen bei Schweinen der Rassen Pietrain and Deutsche Landrasse unter Berücksichtigung der Proteinversorgung. Züchtungskunde 50: 208-219.
• [13] Robertson A. 1959. The sampling variance of the genetic correlation coefficient. Biometries 15: 469-485.
• [14] Rogdakis E., Ensinger U., Faber H. 1979. Hormonspiegel in Plasma und Enzymakivitäten im Fettgewebe von Pietrain und Edelsclnvein. Z. Tierzucht u. Zuchtungsbiol. 96: 108-119.
• [15] Sather A.P., Jones S.O., Tong A.K. 1990. Halothane genotype by weight interactions on lean yield from pork carcasses. Can. J. Anim. Sci. 71: 633-643.
• [16] Sather A.P., Jones S.D., Tong A.K., Murray A.C. 1990. Halothane genotype by weight interactions on pig meat quality. Can. J. Anim. Sci. 71: 645-658.
• [17] Sellier P. 1998. Genetics of meat and carcass traits. The genetics of the pig. CAB Inteniational: 463-510.
• [18] Sokół J.L., Chachulowa J., Kulisiewicz J., Skomiał J., Sawosz E. J 995. Wpływ zróżnicowanego poziomu aminokwasów i energii w mieszankach na wyniki tuczu trzech różnych typów świn. Mat. XXV Sesji Komisji Żyw. Zw. PAN, Poznań, 8-9.11: 45-46.
• [19] Sokół J.L., Kulisiewicz J., Skomiał J., Sawosz E. 1997. The effect of feeding diets differing in protein and energy concentration on fattening performance of three pig crossbreds. J. Anim. Feed Sci. 6: 247-255.
• [20] Urbańczyk J. 1998. Wpływ intensywności żywienia oraz koncentracji energii i aminokwasów paszy na cechy tuczne i rzeźne świń wysokomięsnych. Roczn. Nauk. Zoot. Ser. Rozpr. Hab.: 62 ss.
• [21] Webb A.J. 1995. Future challenges in pig genetics. Animal Breeding Abstr. 63: 731-736.
• [22] Wyniki oceny trzody chlewnej w roku 1997. Centr. Stac. Hod. Zwierz. Warszawa, 1998: 81-94.