Understanding the dynamics of methane (CH 4) emissions is of paramount importance
because CH 4 has 25 times the global warming potential of carbon dioxide (CO 2) and is …

Northern peatlands store a large amount of carbon and play a significant role in the global
carbon cycle. Owing to the presence of waterlogged and anaerobic conditions, peatlands …

While wetlands are the largest natural source of methane (CH4) to the atmosphere, they
represent a large source of uncertainty in the global CH4 budget due to the complex …

Northern peatlands constitute a significant source of atmospheric methane (CH 4). However,
management of undisturbed peatlands, as well as the restoration of disturbed peatlands, will …

Estuaries profoundly transform the large amounts of carbon delivered from rivers before their
transfer to the adjacent coastal zone. As a consequence of the complex biogeochemical …

Growing season CH4 fluxes were monitored over a two year period following the start of
ecosystem‐scale manipulations of water table position and surface soil temperatures in a …

Natural wetlands are critically important to global change because of their role in modulating
atmospheric concentrations of CO2, CH4, and N2O. One 4‐year continuous observation …

For the first time, a model that simulates methane emissions from northern peatlands is
incorporated directly into a dynamic global vegetation model. The model, LPJ-WHyMe (LPJ …

As interfaces connecting terrestrial and ocean ecosystems, coastal wetlands develop
temporally and spatially complex redox conditions, which drive uncertainties in greenhouse …

Wetlands represent the largest natural source of methane; however, very few studies have
simultaneously quantified the three main atmospheric flux pathways (ie, diffusive, ebullition …