Many opportunities exist to reduce

Many opportunities exist to reduce enteric methane
(CH4) and other greenhouse gas (GHG) emissions per
unit of product from ruminant livestock. Research over
the past century in genetics, animal health, microbiology,
nutrition, and physiology has led to improvements
in dairy production where intensively managed farms
have GHG emissions as low as 1 kg of CO2 equivalents
(CO2e)/kg of energy-corrected milk (ECM), compared
with >7 kg of CO2e/kg of ECM in extensive systems.
The objectives of this review are to evaluate options
that have been demonstrated to mitigate enteric CH4
emissions per unit of ECM (CH4/ECM) from dairy
cattle on a quantitative basis and in a sustained manner
and to integrate approaches in genetics, feeding
and nutrition, physiology, and health to emphasize why
herd productivity, not individual animal productivity,
is important to environmental sustainability. A nutrition
model based on carbohydrate digestion was used
to evaluate the effect of feeding and nutrition strategies
on CH4/ECM, and a meta-analysis was conducted
to quantify the effects of lipid supplementation on
CH4/ECM. A second model combining herd structure
dynamics and production level was used to estimate
the effect of genetic and management strategies that
increase milk yield and reduce culling on CH4/ECM.
Some of these approaches discussed require further
research, but many could be implemented now. Past
efforts in CH4 mitigation have largely focused on
identifying and evaluating CH4 mitigation approaches
based on nutrition, feeding, and modifications of rumen
function. Nutrition and feeding approaches may
be able to reduce CH4/ECM by 2.5 to 15%, whereas
rumen modifiers have had very little success in terms of
sustained CH4 reductions without compromising milk
production. More significant reductions of 15 to 30%
CH4/ECM can be achieved by combinations of genetic
and management approaches, including improvements
in heat abatement, disease and fertility management,
performance-enhancing technologies, and facility design
to increase feed efficiency and life-time productivity of
individual animals and herds. Many of the approaches
discussed are only partially additive, and all approaches
to reducing enteric CH4 emissions should consider the
economic impacts on farm profitability and the relationships
between enteric CH4 and other GHG.
Key words: enteric methane , methanogen, feed efficiency,
lifetime productivity, mitigation