Methanotrophic bacteria play a key role in limiting methane emissions from lakes. It is
generally assumed that methanotrophic bacteria are mostly active at the oxic‐anoxic …

Methanotrophs are of major importance in limiting methane emissions from lakes. They are
known to preferably inhabit the oxycline of stratified water columns, often assumed due to an …

Eutrophic lakes are major contributors to global aquatic methane emissions. Methanotrophy,
performed by methane oxidizing bacteria, results in the production of biomass, fermentation …

Mono Lake is an alkaline hypersaline lake that supports high methane oxidation rates.
Retrieved pmoA sequences showed a broad diversity of aerobic methane oxidizers …

The prevailing paradigm in aquatic science is that microbial methanogenesis happens
primarily in anoxic environments. Here, we used multiple complementary approaches to …

We investigated microbial communities active in methane oxidation in lake sediment at
different oxygen tensions and their response to the addition of nitrate, via stable isotope …

Methanotrophic bacteria mitigate emissions of the potent greenhouse gas methane (CH4)
from a variety of anthropogenic and natural sources, including freshwater lakes, which are …

Lakes are significant sources of methane (CH4) to the atmosphere. Within these systems,
methanotrophs consume CH4 and act as a potential biofilter mitigating the emission of this …

Methanotrophic bacteria represent an important biological filter regulating methane
emissions into the atmosphere. Planktonic methanotrophic communities in freshwater lakes …

Freshwater lakes represent a substantial natural source of methane to the atmosphere and
thus contribute to global climate change. Microbial methane oxidation is an important control …