Genetic parameters for fecal egg counts and their relationship with body weights in Katahdin lambs

Abstract Reliance on anthelmintic drugs to control internal parasites in sheep is no longer sustainable because of the development of resistance to these drugs in parasite populations. Genetic selection may offer an alternative long-term solution, as differences in parasite resistance exist both wit...

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Bibliographic Details
Published in:Journal of animal science 2018-05, Vol.96 (5), p.1590-1599
Main Authors: Ngere, L, Burke, J M, Morgan, J L M, Miller, J E, Notter, D R
Format: Article
Language:English
Subjects:
Animal Genetics and Genomics
Animal models
Animals
Anthelmintic agents
Anthelmintics - therapeutic use
Birth
Bivariate analysis
Body Weight - genetics
Breeding
Childbirth & labor
Climate
Correlation analysis
Drug development
Drug resistance
Drugs
Environmental effects
Estimates
Feces
Feces - parasitology
Female
Genetics
Helminthiasis, Animal - parasitology
Helminths - isolation & purification
Heritability
Litter
Litter size
Male
Ovis aries
Parameter estimation
Parasite Egg Count - veterinary
Parasite resistance
Parasites
Phenotype
Population genetics
Seasons
Sheep
Sheep Diseases - parasitology
Statistical analysis
Sustainable development
Weaning
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Summary:Abstract Reliance on anthelmintic drugs to control internal parasites in sheep is no longer sustainable because of the development of resistance to these drugs in parasite populations. Genetic selection may offer an alternative long-term solution, as differences in parasite resistance exist both within and among sheep breeds. However, selection for parasite resistance may have correlated effects on other production traits. The objectives of this study were to estimate genetic parameters for weaning (WFEC) and postweaning (PWFEC) fecal egg counts (FEC) and assess their relationship with birth (BWT), weaning (WWT), and postweaning (PWWT) BW in Katahdin lambs. The study used WFEC (n = 2,537), PWFEC (n = 3.421), BWT (n = 12,869), WWT (n = 10,961), and PWWT (n = 7,812) from 12,869 lambs measured between 2003 and 2015 in 13 flocks enrolled in the U.S. National Sheep Improvement Program. Animal and sire models were fitted to the data using the ASReml statistical package. Records were corrected for fixed effects of dam age, joint effect of type of birth and rearing, and management group (defined by joint effects of flock, sex, and birth year and season); lamb age in days at each measurement time was fitted as a covariate. Maternal additive and maternal permanent environmental effects were not significant (P > 0.05), but litter effects influenced (P < 0.01) both WFEC and PWFEC. Heritability estimates ranged from 0.18 to 0.26 for WFEC and 0.23 to 0.46 for PWFEC, depending on the model used. Heritability estimates from sire models were higher than estimates from animal models. Direct additive, litter, residual, and phenotypic correlations between WFEC and PWFEC were 0.82, 0.25, 0.15, and 0.29, respectively. Bivariate analyses revealed low to moderate correlations between BW and FEC. Moderate heritabilities for FEC in this study indicated that genetic progress for this trait can be achieved in Katahdin lambs and that selection for low FEC should have little or no effect on BW.
ISSN:0021-8812
1525-3163
DOI:10.1093/jas/sky064