Genotype-by-milking frequency interaction for milk production traits in New Zealand

The objective of this study was the estimation of genetic correlation (r g ) for milk production traits across milking frequency (MF) in New Zealand dairy cattle milked once-(OAD) or twice-a-day (TAD). Analysis was made of lactation yields of milk, fat and protein, and somatic cell score of Holstein...

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Published inNew Zealand journal of agricultural research Vol. 61; no. 1; pp. 92 - 101
Main Authors Lembeye, Felipe, López-Villalobos, Nicolas, Burke, Jennifer L., Davis, Steve R.
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 02.01.2018
Taylor & Francis Ltd
Subjects
Analysis
Breeding
Cattle
Correlation analysis
Dairy cattle
genetic correlation
Genetic diversity
genetic progress
Genetic variance
Genetics
Genotypes
genotype × environment interaction
Lactation
Milk
Milk production
Milk yield
Milking
Once-a-day milking
Population genetics
Populations
Scaling
selection scheme
New Zealand
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Summary:The objective of this study was the estimation of genetic correlation (r g ) for milk production traits across milking frequency (MF) in New Zealand dairy cattle milked once-(OAD) or twice-a-day (TAD). Analysis was made of lactation yields of milk, fat and protein, and somatic cell score of Holstein-Friesian (F), Jersey (J) and crossbred F × J breed populations cows herd-tested between 2008 to 2012 while in their first and second lactations. The estimates of r g were, in general, greater than 0.80, providing no evidence of a genotype-by-milking frequency (G × MF) interaction. Genetic correlations tended to be greater in second compared to first lactation cows and greater in J compared to F and F × J breed populations. The results also indicate a scaling effect, due to differences in the genetic variances across breed populations and MF, with the variances being lower in the OAD population. The results demonstrate that there is no need for a separate selection scheme for the OAD milking cow population, as long as there is similarity between breeding objectives and selection indices for both MF systems. The scaling effect indicates that the best animals in TAD system would also perform the best under OAD but genetic progress is expected to be lower in OAD compared to TAD systems because lower genetic variances in breed populations milked OAD.
Bibliography:Archived by the National Library of New Zealand
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ISSN:0028-8233
1175-8775
1175-8775
DOI:10.1080/00288233.2017.1394329