As an important source of atmospheric methane, methane emissions from coastal wetlands
are affected by many factors. However, the methane emission process and interrelated …

Coastal wetlands are widely recognized as atmospheric methane sources. However, recent
field studies suggest that some coastal wetlands could also act as methane sinks, but the …

Anaerobic oxidation of methane (AOM) in wetland soils is widely recognized as a key sink
for the greenhouse gas methane (CH 4). The occurrence of this reaction is influenced by …

Purpose Alpine wetland ecosystems can contribute large amounts of methane (CH 4) to the
atmosphere; however, their emissions vary with environmental conditions. Microbial activity …

Abstract The Hindu-Kush Himalaya region extends over 4 million km 2 across the eight
countries. Knowingly, the Qinghai-Tibetan Plateau (QTP) is considered the principal …

Natural wetlands and anthropogenic paddy fields are the dominant biogenic sources of
atmospheric methane emission which have been speculated as the most probable sources …

Wetland conversion to cropland substantially reduces methane (CH 4) emission, turning a
source into a sink on many occasions; how various microbial processes contribute to this …

Recent investigations demonstrate that some coastal wetlands are atmospheric methane
sinks, but the regulatory mechanisms are not clear. Here, the main pathway and operator of …

Wetlands are natural sources of methane (CH4) emissions, providing the largest
contribution to the atmospheric CH4 pool. Changes in the ecohydrological environment of …

Methane is a potent greenhouse gas. Wetlands are considered as significant sources of
methane emission, prompting the need to understand determinants of methane flux in these …