Methane emission from lakes

Abstract

A physico-chemical model to describe methane and carbon dioxide emission from lakes was developed. The model describes the emission by diffusion, bubbles and plants. The intensity of the fluxes can be calculated either for total or particular emission in dependence on gas bubbles composition. It was found, that diffusional (Q) and bubble (J) fluxes depend on the methane molar ratio (X) in bubbles as follows: Q( CH 4) ∽ X; Q( CO 2) ∽ X (1 − X) Q( N 2) ∽ (1 − X) J( CH 4) ∽ X 2 (I − X) J( CO 2) ∽ X 2 (l − X) 2 J( N 2) ∽ X . The model allows to estimate the role of the methane oxidation by atmospheric oxygen in the total methane flux. It was shown, that the methane oxidation does not influence much methane fluxes to the atmosphere for most of the experimentally observed situations.