Methane is the second most important greenhouse gas and much of our atmospheric methane comes from wetlands. A great deal of research is being carried on into exactly how much methane is emitted via this route, but models typically assume that the gas is only produced when the ground is completely flooded and underwater. In wetland areas where there are no trees, methane would typically be consumed by the soil on its way to the surface, but in forested wetland areas, the researchers say the tree roots could be acting as a transport system for the gas, up to the surface where it vents into the atmosphere from the tree trunks. Methane is able to escape via this route even when it is produced in soil and water that is several meters below ground level. Overall, the team estimate that nearly half of global tropical wetland methane emissions are funneled out by trees, with the unexpected result that trees are also important for emissions at times when the floodplain water table sits below the surface of the soil. Lead author, Professor Vincent Gauci, in the School of Geography, Earth and Environmental Sciences at the University of Birmingham (and the Birmingham Institute of Forest Research), says: “Our results show that current global emissions estimates are missing a crucial piece of the picture. We now need to develop models and methods that take into account the significant role played by trees in wetland methane emission.” The team was led by the University of Birmingham and included researchers from the University Federal of Rio de Janeiro, the Met Office Hadley Centre, Lancaster University, and Linköping University. It was funded by the Natural Environment Research Council (part of UK Research and Innovation), along with the Newton Fund, the Royal Society and Brazilian funding agencies CNPq, CAPES and FAPERJ.
