Rumen ciliates modulate methane emissions in ruminants
Summary
Rumen ciliates are major contributors to enteric methane emissions from ruminant animals, yet the underlying mechanisms remain poorly understood. We present a catalog of 450 rumen ciliate genomes, with 87% newly generated. Using this resource, we quantified methane emissions from 100 cows and analyzed 1877 rumen metagenomic and metatranscriptomic datasets, which revealed correlations among ciliate abundance, methanogen abundance, and methane emissions. We further demonstrated that taxon-sp
Content
# Rumen ciliates modulate methane emissions in ruminants
*Published: 2026 Apr 30*
Rumen ciliates are major contributors to enteric methane emissions from ruminant
animals, yet the underlying mechanisms remain poorly understood. We present a
catalog of 450 rumen ciliate genomes, with 87% newly generated. Using this
resource, we quantified methane emissions from 100 cows and analyzed 1877 rumen
metagenomic and metatranscriptomic datasets, which revealed correlations among
ciliate abundance, methanogen abundance, and methane emissions. We further
demonstrated that taxon-specific effects of rumen ciliates on methane production
arise from a single-membrane, hydrogen-producing organelle called the
hydrogenobody (HB), which is distinct from canonical hydrogenosomes in other
protists. HBs are positioned near ciliary basal bodies and harbor specific
hydrogenases and oxygen reductases. We found that Vestibuliferida ciliates,
which have more abundant HBs than do Entodiniomorphida, exhibit enhanced
hydrogen production and oxygen-scavenging capacity, thereby strongly promoting
methanogenesis.
DOI: 10.1126/science.adv4244