Abstract
BackgroundInbreeding decreases animal performance (inbreeding depression), but not all inbreeding is expected to be equally harmful. Recent inbreeding is expected to be more harmful than ancient inbreeding, because selection decreases the frequency of deleterious alleles over time. Selection efficiency is increased by inbreeding, a process called purging. Our objective was to investigate effects of recent and ancient inbreeding on yield, fertility and udder health traits in Dutch Holstein–Friesian cows.MethodsIn total, 38,792 first-parity cows were included. Pedigree inbreeding (F_{PED}) was computed and 75 k genotype data were used to compute genomic inbreeding, among others based on regions of homozygosity (ROH) in the genome (F_{ROH}).ResultsInbreeding depression was observed, e.g. a 1% increase in F_{ROH} was associated with a 36.3 kg (SE = 2.4) decrease in 305-day milk yield, a 0.48 day (SE = 0.15) increase in calving interval and a 0.86 unit (SE = 0.28) increase in somatic cell score for day 150 through to 400. These effects equalled − 0.45, 0.12 and 0.05% of the trait means, respectively. When F_{PED} was split into generation-based components, inbreeding on recent generations was more harmful than inbreeding on more distant generations for yield traits. When F_{PED} was split into new and ancestral components, based on whether alleles were identical-by-descent for the first time or not, new inbreeding was more harmful than ancestral inbreeding, especially for yield traits. For example, a 1% increase in new inbreeding was associated with a 2.42 kg (SE = 0.41) decrease in 305-day fat yield, compared to a 0.03 kg (SE = 0.71) increase for ancestral inbreeding. There were no clear differences between effects of long ROH (recent inbreeding) and short ROH (ancient inbreeding).ConclusionsInbreeding depression was observed for yield, fertility and udder health traits. For yield traits and based on pedigree, inbreeding on recent generations was more harmful than inbreeding on distant generations and there was evidence of purging. Across all traits, long and short ROH contributed to inbreeding depression. In future work, inbreeding depression and purging should be assessed in more detail at the genomic level, using higher density information and genomic time series.
Highlights
Inbreeding decreases animal performance, but not all inbreeding is expected to be harmful
FPED4 showed a higher correlation with FROH>16 ( r2 = 0.50) than with FROH8−16 (0.34), FROH4−8 (0.22), FROH2−4 (0.10) and FROH1−2 (− 0.03)
Inbreeding depression was observed for yield, fertility and udder health traits in Dutch Holstein–Friesian dairy cattle
Summary
Inbreeding decreases animal performance (inbreeding depression), but not all inbreeding is expected to be harmful. Recent inbreeding is expected to be more harmful than ancient inbreeding, because selection decreases the frequency of deleterious alleles over time. Our objective was to investigate effects of recent and ancient inbreeding on yield, fertility and udder health traits in Dutch Holstein–Friesian cows. Inbreeding depression is the decrease in mean performance due to mating between relatives. Inbreeding depression has been assessed by regression of phenotypes on pedigree-based. Genomic inbreeding coefficients are expected to be more accurate than pedigreebased coefficients, because they account for Mendelian sampling variation The use of ROH provides additional opportunities to distinguish recent from ancient inbreeding [1, 17, 18]
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