A Comparison of the Economic Value for Enteric Methane Emissions with other Biological Traits Associated With Dairy Cows
The University of Nottingham, School of Biosciences, Sutton Bonington, UK2, Department of Economic
Development, Jobs, Transport and Resources, AgriBio, 5 Ring Road, Bundoora, Australia3
La Trobe University, AgriBio, 5 Ring Road, Bundoora, VIC 3083, Australia
Citation: Matt Bell, Jennie Pryce, Paul Wilson, “A Comparison of the Economic Value for Enteric
Methane Emissions with other Biological Traits Associated With Dairy Cows”. ARJA Volume 2; pp:1-17
Abstract
This is the first study to derive the economic value of enteric methane produced by a ruminant
animal. There is considerable interest globally in selecting for low methane-emitting ruminant livestock, as
methane is a potent greenhouse gas. However, before enteric methane can be included in a genetic selection
index for breeding, the economic value for enteric methane needs to be derived. An animal model including a
partial budget was used to derive economic values for a range of production and fitness (health and fertility)
traits typically used in genetic selection of dairy cows with the addition of enteric methane. This study found
that enteric methane (kilograms/lactation) has an economic value of -£1.68 per kg increase in methane per
lactation. The economic value for enteric methane was of similar magnitude to the traits of milk fat yield
(£1.14 per unit change in milk fat) and mastitis (-£1.55 per % incidence). Based on the variation seen in the
dairy cow population in the UK, genetic selection on enteric methane has potential to increase herd profit per
cow and reduce emissions. Even if the economic and abatement gains associated with selecting low methane
producing livestock are relatively small, reductions in enteric methane emissions appear possible if a reliable
and repeatable measure becomes available for use on commercial farms.