Coastal waters are often influenced by seawater intrusion and terrestrial emissions because
of its special location. In this study, the dynamics of microbial community with the role of …

Several biochemical cycles are performed in natural wetlands (NWs) and constructed
wetlands (CWs). Knowledge of microorganisms can be used to monitor the restoration of …

Wetland soils are one of the largest natural contributors to the emission of methane, a potent
greenhouse gas. Currently, microbial contributions to methane emissions from these …

The aim of this study was to quantify carbon stocks and the emission of the greenhouse
gases (N 2 O and CH 4) in mangrove forests with different vegetation assemblies in coastal …

Small boreal lakes are known to contribute significantly to global CH 4 emissions. Lake
Lovojärvi is a eutrophic lake in southern Finland with bottom water CH 4 concentrations up …

The dynamics of methane concentrations in the atmosphere in recent decades has
demonstrated many anomalies which are poorly understood. The only biological way of …

Aerobic gammaproteobacterial methanotrophs (gMOB) are key organisms controlling
methane fluxes at the oxic-anoxic interfaces of freshwater ecosystems. Under hypoxic …

Methylobacter species, members of the Methylococcales, have recently emerged as some of
the globally widespread, cosmopolitan species that play a key role in the environmental …

The genus Methylobacter is considered an important and often dominant group of aerobic
methane-oxidizing bacteria in many oxic ecosystems, where members of this genus …

Assimilatory nitrate reduction and methane (CH4) oxidation by bacteria play important roles
in carbon (C) and nitrogen (N) biogeochemical cycles. Here, an investigation of enzymatic …