Seasonal variation in methane fluxes from sedimentary basins to the atmosphere: Results from chamber measurements and modeling of transport from deep sources

Abstract

Results from modeling of microseepage are presented that suggest that under proper conditions some thermogenic CH₄ is transported to the atmosphere without complete consumption by methanotrophic bacteria in soils. These computer simulations are supported by direct measurement of CH₄ fluxes in seasonally dry and/or cold climate sedimentary basins where losses to the atmosphere were postulated to occur. Measurements in four semiarid sedimentary basins where a thermogenic CH₄ source is expected found small positive fluxes during cooler/drier seasons and negative fluxes during warmer/wetter seasons. Small positive fluxes up to 43 mg CH₄ m⁻² d⁻¹ were found. A similar result was found for two geothermal areas in a semiarid climate where CH₄ derived from the Fischer‐Tropsch reaction operating in the reservoir provides a deep source of CH₄. The results of the computer simulations, and direct field measurement of CH₄ fluxes in dry and/or cold terrestrial environments suggest that a portion of the global atmospheric budget of CH₄ may be from microseepage.