Methanotrophs from natural ecosystems for ruminant methane mitigation
Project start date: | 01 June 2009 |
Project end date: | 01 September 2012 |
Publication date: | 01 September 2012 |
Project status: | Completed |
Livestock species: | Sheep, Goat, Lamb, Grassfed cattle, Grainfed cattle |
Relevant regions: | National |
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Summary
In ruminant cattle, the anaerobic fermentation of ingested plant biomass results in the production of methane (CH4). This CH4 is subsequently eructated to the environment, where it acts as a potent greenhouse gas and is one of the leading sources of anthropogenic CH4 in Australia. Methane oxidising microorganisms are an important environmental sink for CH4; however the possibility that methanotrophs are native to the rumen has received little attention. This project aimed to characterise methanotrophs from a range of environments, and to subsequently determine the metabolic activity of these microorganisms under in vitro rumen-like conditions. This study is the first to characterise rumen methanotrophs using molecular methodology. Using a combination of denaturing gradient gel electrophoresis and phyloGenetics and genomics, it was found that simple communities of Proteobacterial methanotrophs can be native residents of the rumen microbial community in grain-fed Bos indicus steers. A putative methanotrophic Gamma-proteobacterial Methylobacter species was also enriched from grain-fed whole rumen contents using novel techniques. However, the activity of these organisms in situ remains to be fully understood. Furthermore, the possibility that a grain-based dietary affect influences the diversity and activity of methanotrophs in situ is intriguing. Future work to address these questions is necessary to evaluate the potential for methanotrophs to act as biocontrol agents for ruminant CH4 emissions.
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Project manager: | Sarah-Jane Savage |
Primary researcher: | University of Queensland |