Fine-scale effects of fire on non-woody species in a southern Amazonian seasonal wetland

“…The emission of methane from wetlands, which involves a variety of physical, chemical, and biological reactions, is a complex process, and it is primarily controlled by soil temperature, redox potential, availability of carbon substrates, soil texture, salinity, and land use types as well as soil microorganisms (Lyu et al, 2018;Martin et al, 2018;Poffenbarger et al, 2011;Taumer et al, 2021;. The disturbance to forested wetland (human-induced or natural) can lead to alterations in the composition of plant community and wetland ecosystem function, and potentially influence greenhouse gas emissions (Beach et al, 2009;Jancoski et al, 2019;Reddy et al, 2015). At present, it is practicable to control methane emissions in wetlands by adjusting water table depth, changing plant community composition, decreasing water eutrophication, and regulating the interaction of soil pH with mean annual air temperature (Abdalla et al, 2016;Martin et al, 2018).…”

Characteristics and metabolic patterns of soil methanogenic archaea communities in the high‐latitude natural forested wetlands of China

“…The emission of methane from wetlands, which involves a variety of physical, chemical, and biological reactions, is a complex process, and it is primarily controlled by soil temperature, redox potential, availability of carbon substrates, soil texture, salinity, and land use types as well as soil microorganisms (Lyu et al, 2018;Martin et al, 2018;Poffenbarger et al, 2011;Taumer et al, 2021;. The disturbance to forested wetland (human-induced or natural) can lead to alterations in the composition of plant community and wetland ecosystem function, and potentially influence greenhouse gas emissions (Beach et al, 2009;Jancoski et al, 2019;Reddy et al, 2015). At present, it is practicable to control methane emissions in wetlands by adjusting water table depth, changing plant community composition, decreasing water eutrophication, and regulating the interaction of soil pH with mean annual air temperature (Abdalla et al, 2016;Martin et al, 2018).…”

Characteristics and metabolic patterns of soil methanogenic archaea communities in the high‐latitude natural forested wetlands of China

Monodominant Stands in the Pantanal

Paspalum lineare