Plant-mediated CH 4 transport (PMT) is the dominant pathway through which soil-produced
CH 4 can escape into the atmosphere and thus plays an important role in controlling …

Greenhouse gas (GHG) emissions from wetlands have exacerbated global warming,
attracting worldwide attention. However, the research process and development trends in …

Climate warming is expected to increase global methane (CH4) emissions from wetland
ecosystems. Although in situ eddy covariance (EC) measurements at ecosystem scales can …

Wetlands are the largest natural sources of methane (CH 4) emissions worldwide. Littoral
wetlands of urban lakes represent an ecotone between aquatic and terrestrial ecosystems …

Carbon dioxide has been increasing in the atmosphere since the industrialization, resulting
in global warming, which in turn enhanced methane emissions from permafrost regions …

Although (sub) tropical forests account for 10–20% of the atmospheric methane (CH 4)
uptake by soils, the study of soil CH 4 oxidation rates and the controlling factors during the …

Methanogens and methanotrophs are important in regulating the peatland carbon cycle. The
influence of hydrology on microbiota in different peatlands has been globally documented; …

Prediction of wetland greenhouse gas (GHG) fluxes has been a challenging undertaking.
Machine learning techniques such as the artificial neural network (ANN) has a strong …

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 …

Alpine wetlands are an important source of methane (CH4) and play a key role in the global
carbon cycle. Their CH4 emissions largely depend on microbial CH4 production and …