Host genetics associated with gut microbiota and methane emission in cattle.

In livestock sector, dairy animals alone produce 18% of the total greenhouse gas emissions globally as methane (CH4). This Enteric methane is the largest component of total carbon footprints produced by livestock production system and its reduction is today's new challenge to make livestock farming sustainable for earth's environment. The production of enteric methane in ruminants is a complex phenomena involving different host factors like host genotype, rumen microbiome, host physiology along with dietary factors. Efforts have been made to reduce methane emissions largely through nutritional interventions and dietary supplements, but permanent reductions can be obtained through genetic means by selecting and breeding of low methane emitting animals. From genome-wide association studies, many important genomic QTL regions and single nucleotide polymorphisms involved in shaping the composition of the ruminal microbiome and thus their carbon footprints have been recognised, implying that methane emission traits are quantitative traits. The major bottleneck in implementation of reduced methane emission traits in the breeding programs is wide variation at phenotypic level, lack of precise methane measurements at individual level. Overall, the heritability for CH4 production traits is moderate, and it can be used in breeding programmes to target changes in microbial composition to reduce CH4 emission in the dairy industry for far-reaching environmental benefits at the cost of a minor reduction in genetic gain in production traits.