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Title
Towards selecting for lower methane sheep
Author(s)
Publication Date
2023-07-26
Open Access
Yes
Abstract
<p>The aim of this project is to enable Australian sheep breeders to select for reduced enteric
methane emission, allowing industry to achieve a permanent and cumulative 4.2% reduction (0.8
MtCO<sub>2</sub>e) in methane emissions from sheep by 2030 and 15% reduction (2.6 MtCO<sub>2</sub>e) by 2040. A mobile field test using portable accumulation chambers for measuring methane emissions on 10,000
sheep across research and breeder flocks is being rolled out. Five thousand sheep will have feed
intake, rumen microbiome and volatile fatty acids profiles recorded to better understand and improve
CH<sub>4</sub> emission predictions. Combined with their genotype information, this data will allow genomic prediction of breeding values on selection candidates. Work to date has demonstrated that the
protocol for methane measurement is robust and the preliminary data gathered has shown that there
is sufficient variation in methane production among animals to enable selection for reduced methane
production. Different technologies used to measure emissions data are highly correlated.</p>
methane emission, allowing industry to achieve a permanent and cumulative 4.2% reduction (0.8
MtCO<sub>2</sub>e) in methane emissions from sheep by 2030 and 15% reduction (2.6 MtCO<sub>2</sub>e) by 2040. A mobile field test using portable accumulation chambers for measuring methane emissions on 10,000
sheep across research and breeder flocks is being rolled out. Five thousand sheep will have feed
intake, rumen microbiome and volatile fatty acids profiles recorded to better understand and improve
CH<sub>4</sub> emission predictions. Combined with their genotype information, this data will allow genomic prediction of breeding values on selection candidates. Work to date has demonstrated that the
protocol for methane measurement is robust and the preliminary data gathered has shown that there
is sufficient variation in methane production among animals to enable selection for reduced methane
production. Different technologies used to measure emissions data are highly correlated.</p>
Publication Type
Conference Publication
Source of Publication
Proceedings of the Association for the Advancement of Animal Breeding and Genetics, v.25, p. 178-181
Publisher
Association for the Advancement of Animal Breeding and Genetics (AAABG)
Place of Publication
Armidale, Australia
ISSN
1328-3227
Fields of Research (FoR) 2020
Socio-Economic Objective (SEO) 2020
Peer Reviewed
Yes
HERDC Category Description
Peer Reviewed
Yes
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