Archaea play dominant roles in nutrient cycling, but the archaeal community and function in
coastal wetlands with different stress patterns remain poorly understood. Here, two typical …

Coastal wetlands are an important methane emission source. Nitrate-driven anaerobic
oxidation of methane (AOM), catalyzing via a novel clade of anaerobic methanotrophic …

Submerged plants in wetlands play important roles as ecosystem engineers to improve self-
purification and promote elemental cycling. However, their effects on the functional capacity …

Archaea have multiple roles in global biogeochemical cycles. However, we still have limited
knowledge about how environmental factors affect the diversity and function of different …

Microbial diversity, together with carbon function, plays a key role in driving the wetland
carbon cycle; however, the composition, driving factors of carbon-functional genes and the …

In this study, archaeal community structure and temporal dynamics were monitored, using
16S rRNA clone libraries construction from a horizontal subsurface flow constructed …

To test if different niches for potential nitrifiers exist in estuarine systems, we assessed by
pyrosequencing the diversity of archaeal gene transcript markers for taxonomy (16S …

Bacterial and archaeal communities play important roles in wetland ecosystems. Although
the microbial communities in the soils and sediments of wetlands have been studied …

The eutrophic lake Dianchi, china, is a hotspot for methane (CH 4) and nitrous oxide (N 2 O)
emissions. However, the potential factors driving CH 4 and N 2 O production in the riparian …

Excessive loading of nitrogen (N) and phosphorus (P) that leads to eutrophication mutually
interacts with sediment microbial community. To unravel the microbial community structures …