Elucidating the archaeal community and functional potential in two typical coastal wetlands with different stress patterns
Z Chi, L Hou, H Li, J Li, H Wu, B Yan - Journal of Cleaner Production, 2021 - Elsevier
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 with different stress patterns remain poorly understood. Here, two typical …
Horizontal and vertical distribution of nitrate-driven anaerobic methane oxidation process in coastal wetlands under different plant species cover across southeast …
W Yang, W Wang, L Shen, Y Bai, J Liu, Y Yang… - Catena, 2023 - Elsevier
Coastal wetlands are an important methane emission source. Nitrate-driven anaerobic
oxidation of methane (AOM), catalyzing via a novel clade of anaerobic methanotrophic …
oxidation of methane (AOM), catalyzing via a novel clade of anaerobic methanotrophic …
[HTML][HTML] Metagenomic insights into the effects of submerged plants on functional potential of microbial communities in wetland sediments
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 …
purification and promote elemental cycling. However, their effects on the functional capacity …
Salinity-dominated change in community structure and ecological function of Archaea from the lower Pearl River to coastal South China Sea
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 …
knowledge about how environmental factors affect the diversity and function of different …
[HTML][HTML] Archaeal contribution to carbon-functional composition and abundance in China's coastal wetlands: Not to be underestimated
M Yang, N Liu, B Wang, Y Li, J Li, CQ Liu - Frontiers in Microbiology, 2022 - frontiersin.org
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 …
carbon cycle; however, the composition, driving factors of carbon-functional genes and the …
The structure and spatio-temporal distribution of the Archaea in a horizontal subsurface flow constructed wetland
M Bouali, I Zrafi-Nouira, A Bakhrouf, D Le Paslier… - Science of the total …, 2012 - Elsevier
In this study, archaeal community structure and temporal dynamics were monitored, using
16S rRNA clone libraries construction from a horizontal subsurface flow constructed …
16S rRNA clone libraries construction from a horizontal subsurface flow constructed …
Temporal dynamics of active prokaryotic nitrifiers and archaeal communities from river to sea
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 …
pyrosequencing the diversity of archaeal gene transcript markers for taxonomy (16S …
[HTML][HTML] Planktonic bacterial and archaeal communities in an artificially irrigated estuarine wetland: diversity, distribution, and responses to environmental parameters
M Li, T Mi, Z Yu, M Ma, Y Zhen - Microorganisms, 2020 - mdpi.com
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 microbial communities in the soils and sediments of wetlands have been studied …
[HTML][HTML] Methane and nitrous oxide production and their driving factors in Phragmites riparian wetlands of Dianchi Lake, China
W Li, L Yuan, X Lan, J Cui, Y Chen, H Chen, B Hu… - Ecological …, 2022 - Elsevier
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 …
emissions. However, the potential factors driving CH 4 and N 2 O production in the riparian …
Response and contribution of bacterial and archaeal communities to eutrophication in urban river sediments
Excessive loading of nitrogen (N) and phosphorus (P) that leads to eutrophication mutually
interacts with sediment microbial community. To unravel the microbial community structures …
interacts with sediment microbial community. To unravel the microbial community structures …
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