Genetic variation in physiological adaptation of local, exotic and crossbred ducks to heat stress in a tropical environment

Biotic and abiotic environmental factors significantly contribute to the well-being and performance of farm animals.Thermal adaptation is central to livestock survival, performance and profitable enterprise most especially in hot tropicaland sub-tropical environments characterized with high environmental temperatures. Heat tolerance of 106 adultMuscovy (Cairina moschata) (20 males and 20 females), Mule (Anas sterilis) (14 males and 12 females) and Mallard(Anas platyrhynchos) (20 males and 20 females) ducks was investigated through physiological indices {respiratory rate(RR), panting rate (PR), skin temperature (ST) and rectal temperature (RT)} collected at two periods {morning (7.00 –8.30 hours) and afternoon (12.00 – 13.30 hours)}. Variance analysis revealed significant (P<0.05) effect of genotype,period, genotype-period and genotype-sex interactions on heat tolerant indices. The higher physiological indices ofMallard ducks as reflected in genotype, genotype-period interaction and genotype-sex interaction effects compared toMuscovy and Mule ducks indicated physiological stress and poor thermal tolerance. Syntheses of results in this studyindicated that Muscovy and Mule ducks were genetically superior in heat tolerance and have higher adaptive capacityto thrive better in sub-optimal hot environment.