Mixed microbial communities (eg, granular sludge) are an invaluable research topic owing
to their high and uncharted biodiversity, as well as to the numerous biotechnological …

Though methane-based selenate reduction has been reported, neither the selenate load nor
the removal rate could satisfy practical applications, thus limiting this technique to bio …

Methanotrophic microorganisms play a critical role in controlling the flux of methane from
natural sediments into the atmosphere. Methanotrophs have been shown to couple the …

Anaerobic oxidation of methane (AOM) plays a crucial role in controlling the flux of methane
from anoxic environments. Sulfate-, nitrite-, nitrate-, and iron-dependent methane oxidation …

Certain types of anaerobic granular sludge, which consists of microbial aggregates, can
reduce selenium oxyanions. To envisage strategies for removing those oxyanions from …

Syntrophic consortia of anaerobic methanotrophic archaea (ANME) and sulfate-reducing
bacteria (SRB) consume large amounts of methane and serve as the foundational …

Deep‐sea methane seeps are amongst the most biologically productive environments on
Earth and are often characterised by stable, low oxygen concentrations and microbial …

Extensive geochemical data showed that significant methane oxidation activity exists in
marine sediments. The organisms responsible for this activity are anaerobic methane …

Denitrifying anaerobic methane oxidation (DAMO) is the process of coupling the anaerobic
oxidation of methane (AOM) with denitrification, which plays an important part in controlling …

ABSTRACT A wide range of microorganisms have been shown to transform selenium-
containing oxyanions to reduced forms of the element, particularly selenium-containing …