Diurnal dynamics of CH4 from a boreal peatland during snowmelt

Peatlands are one of the major natural sources of methane (CH 4 ), but the quantification of efflux is uncertain especially during winter, fall and the highly dynamic spring thaw period. Here, we report pronounced diurnal variations in CH 4 fluxes (FCH 4 ), measured using the eddy-covariance technique during the snow-thawing period at a boreal peatland in north-western Russia. Following the background winter emission of ∼0.5mgm −2 h −1 , strong diurnal variability in CH 4 fluxes from 21 April to 3 May was apparently controlled by changes in surface temperature (Tsur) and near-surface turbulence as indicated by the friction velocity (u * ).CH 4 fluxeswere∼0.8mgm −2 h −1 during night and∼3mgm −2 h −1 during peak efflux. Primarily, the freeze-thaw cycle of an ice layer observed at the wet peatland microforms due to surface temperatures oscillating between 0◦C during the days and 0◦C during the nights appeared to strongly influence diurnal variability. Once the ice layer was melted, increases in wind speed seemed to enhance CH 4 efflux, possibly by increased mixing of the water surface. Apparently, a combination of physical factors is influencing the gas transport processes of CH 4 efflux during the highly dynamic spring thaw period.