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Genetic parameters for methane emission traits in Australian dairy cows

C.M. Richardson, Thuy T. T. Nguyen, M. Abdelsayed, Peter J. Moate, S.R.O. Williams, T.C.S. Chud, Flávio S. Schenkel, Michael E. Goddard, Irene van den Berg, Benjamin G. Cocks, Leah C. Marett, W. J. Wales, J.E. Pryce

2020Journal of Dairy Science55 citationsDOIOpen Access PDF

Abstract

tracer method and an electronic feed recording system, respectively. The 9 methods of calculating residual methane involved genetic and phenotypic regression of methane production on a combination of DMI and ECM corrected for days in milk, parity, and experimental batch using phenotypes or direct genomic values. As direct genomic values (DGV) for DMI are not routinely evaluated in Australia at this time, DGV for FeedSaved, which is derived from DGV for residual feed intake and estimated breeding value for bodyweight, were used. Heritability estimates were calculated using univariate models, and correlations were estimated using bivariate models corrected for the fixed effects of year-batch, days in milk, and lactation number, and fitted using a genomic relationship matrix. Residual methane production candidate traits had low to moderate heritability (0.10 ± 0.09 to 0.21 ± 0.10), with residual methane production corrected for ECM being the highest. All definitions of residual methane were highly correlated phenotypically (>0.87) and genetically (>0.79) with one another and moderately to highly with other methane candidate traits (>0.59), with high standard errors. The results suggest that direct selection for a residual methane production trait would result in indirect, favorable improvement in all other methane traits. The high standard errors highlight the importance of expanding data sets by measuring more animals for their methane emissions and DMI, or through exploration of proxy traits and combining data via international collaboration.

Topics & Concepts

MethaneHeritabilityGreenhouse gasMethane emissionsResidualDairy cattleDry matterEnvironmental scienceResidual feed intakeAnimal scienceDry gasBiologyBiotechnologyChemistryMathematicsEcologyFeed conversion ratioBody weightAlgorithmChromatographyGeneticsEndocrinologyGenetic and phenotypic traits in livestockRuminant Nutrition and Digestive PhysiologyReproductive Physiology in Livestock
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