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Breeding for reduced methane emission and feed-efficient Holstein cows: An international response

C.I.V. Manzanilla-Pech, Peter Løvendahl, Daniel M. Gordo, Gareth F. Difford, J.E. Pryce, Flávio S. Schenkel, S. Wegmann, F. Miglior, T.C.S. Chud, Peter J. Moate, S.R.O. Williams, C.M. Richardson, Paul Stothard, Jan Lassen

2021Journal of Dairy Science104 citationsDOI

Abstract

traits in the breeding goal. A total of 15,320 methane production (MeP, g/d) records from 2,990 cows belonging to 4 countries (Canada, Australia, Switzerland, and Denmark) were analyzed. Records on dry matter intake (DMI), body weight (BW), body condition score, and milk yield (MY) were also available. Additional traits such as methane yield (MeY; g/kg DMI), methane intensity (MeI; g/kg energy-corrected milk), a genetic standardized methane production, and 3 definitions of residual methane production (g/d), residual feed intake, metabolic BW (MBW), BW change, and energy-corrected milk were calculated. The estimated heritability of MeP was 0.21, whereas heritability estimates for MeY and MeI were 0.30 and 0.38, and for the residual methane traits heritability ranged from 0.13 to 0.16. Genetic correlations between different methane traits were moderate to high (0.41 to 0.97). Genetic correlations between MeP and economically important traits ranged from 0.29 (MY) to 0.65 (BW and MBW), being 0.41 for DMI. Selection index calculations showed that residual methane had the most potential for inclusion in the breeding goal when compared with MeP, MeY, and MeI, as residual methane allows for selection of low methane emitting animals without compromising other economically important traits. Inclusion of residual feed intake in the breeding goal could further reduce methane, as the correlation with residual methane is moderate and elicits a favorable correlated response. Adding a negative economic value for methane could facilitate a substantial reduction in methane emissions while maintaining an increase in milk production.

Topics & Concepts

Residual feed intakeMethaneBiologySelection (genetic algorithm)Genomic selectionLactationMethane emissionsAnimal scienceBiotechnologyDry matterProduction (economics)ResidualPopulationAgronomyEnvironmental scienceBody weightFeed conversion ratioEcologyMathematicsGeneticsGeneComputer scienceMedicineEnvironmental healthEconomicsMacroeconomicsEndocrinologyArtificial intelligenceGenotypeAlgorithmPregnancySingle-nucleotide polymorphismGenetic and phenotypic traits in livestockRuminant Nutrition and Digestive PhysiologyReproductive Physiology in Livestock
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