The effect of frizzle gene and dwarf gene on reproductive performance of broiler breeder dams under high and normal ambient temperatures.

In 3 experimental runs, the influence of genotype × temperature interactions on the reproductive traits (sexual maturity, egg production, fertility, hatchability, and chick production) of hens of a broiler breeder dam line carrying major genes for dwarfism (dw-) and frizzle (F) was investigated. In experiments 1 and 2, the hens were caged individually under hot (30°C) and temperate (19°C) temperatures, from wk 18 to 72 of age, whereas in experiment 3, hens were kept under moderate temperature (24°C). Hens in experiment 1 were heterozygous for the frizzle gene, and those in experiments 2 and 3 were homozygous, both with and without the dwarf gene. Hens without the above-mentioned major genes (ffDw-) served as control lines. In experiment 1, the frizzle gene (Ff) had no significant effect on sexual maturity, egg production, fertility, hatchability, and chick number under the 2 environmental conditions. In experiment 2, there was a significant interaction between feathering genotype (FF) and environmental temperature for all traits except sexual maturity. Under heat stress, there was a distinct reduction in all reproductive traits except sexual maturity for normally feathered hens compared with frizzle-feathered hens, whereas under temperate conditions, egg production and number of chicks of the FF genotype were reduced and sexual maturity was delayed. In experiments 1 and 2, the dw- gene showed a depressive effect on the growth of hens. In experiment 1, the interaction between dwarf genotype and environmental temperature for egg production was significant. Under temperate conditions, the egg production of dwarf hens was inferior to that of normally sized birds, whereas under hot temperatures, the egg production of the 2 body sizes did not differ. In experiment 2, for sexual maturity, egg production and fertility locus × locus interactions could be determined. The genotype combining the 2 major genes (FFdw-) proved to be inferior to the normally feathered dwarf type (ffdw-) for laying performance but superior in fertility. Under the conditions in experiment 3, the egg production of dwarf birds was significant reduced.