Abstract
Ruminal methane production is among the main targets for greenhouse gas (GHG)
mitigation for the animal agriculture industry. Many compounds have been evaluated
for their efficacy to suppress enteric methane production by ruminal microorganisms. Of
these, nitrate as an alternative hydrogen sink has been among the most promising, but it
suffers from variability in efficacy for reasons that are not understood. The accumulation
of nitrite, which is poisonous when absorbed into the animal’s circulation, is also
variable and poorly understood. This review identifies large gaps in our knowledge of
rumen microbial ecology that handicap the further development and safety of nitrate
as a dietary additive. Three main bacterial species have been associated historically
with ruminal nitrate reduction, namely Wolinella succinogenes, Veillonella parvula, and
Selenomonas ruminantium, but others almost certainly exist in the largely uncultivated
ruminal microbiota. Indications are strong that ciliate protozoa can reduce nitrate, but
the significance of their role relative to bacteria is not known. The metabolic fate of the
reduced nitrate has not been studied in detail. It is important to be sure that nitrate
metabolism and efforts to enhance rates of nitrite reduction do not lead to the evolution
of the much more potent GHG, nitrous oxide. The relative importance of direct inhibition
of archaeal methanogenic enzymes by nitrite or the efficiency of capture of hydrogen by
nitrate reduction in lowering methane production is also not known, nor are nitrite effects
on other members of the microbiota. How effective would combining mitigation methods
be, based on our understanding of the effects of nitrate and nitrite on the microbiome?
Answering these fundamental microbiological questions is essential in assessing the
potential of dietary nitrate to limit methane emissions from ruminant livestock.
Original language | English |
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Journal | Frontiers in Microbiology |
Volume | 7 |
Issue number | 132 |
Early online date | 12 Feb 2016 |
DOIs | |
Publication status | First published - 12 Feb 2016 |
Bibliographical note
10233222066665
Keywords
- Animal health
- Animal performance
- Greenhouse gas
- Nitrate reduction
- Nitrite