Population structure and effects of inbreeding on milk yield and quality of Murrah buffaloes

Abstract

To provide data for conservation, selection, and expansion programs of buffalo herds, this study evaluated the history of a population of Murrah buffaloes based on population structure and the effect of inbreeding on accumulated 305-d milk yield (MY), fat yield (FY), protein yield (PY), mozzarella production (MProd), and somatic cell score (SCS). The usefulness of including the individual inbreeding coefficient (F) or individual increase in inbreeding coefficient (Δ. F) in the model to describe inbreeding depression was evaluated. Pedigree information from 8,054 animals born between 1976 and 2008 and 4,497 lactation records obtained from 12 herds were used. The realized effective population size was 40.10 ± 1.27, and the mean F of the entire population was 2.14%. The ratio between the number of founders and ancestors demonstrated the existence of a bottleneck in the pedigree of this population, which may contribute to a reduction of genetic diversity. The effect of F on MY, FY, PY, MProd, and SCS was -1.005. kg, -0.299. kg, -0.246. kg, -1.201. kg, and -0.002 units, and the effect of Δ. F transformed to equivalent F (%) for a mean of 2.57 equivalent generations was -4.287. kg, -0.581. kg, -0.383. kg, -2.001. kg, and -0.007 units, respectively. The inbreeding depression observed may have important economic repercussions for production systems. The Δ. F can be considered the better of the two indicators of inbreeding depression due to its properties that prevent underestimation of this effect. A designed mating system to avoid inbreeding may be applied to this population to maintain genetic diversity. © 2011 American Dairy Science Association.