Methane (CH 4) is a powerful greenhouse gas with a global warming potential 28 times that
of carbon dioxide (CO 2). CH 4 is responsible for approximately 20% of the Earth's warming …

Abstract Methane (CH 4), one of the most important greenhouse gases, has conventionally
been considered as a physiologic inert gas. However, this perspective has been challenged …

Soil–atmosphere exchange significantly influences the global atmospheric abundances of
carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O). These greenhouse gases …

Methane (CH 4), an important greenhouse gas that affects radiation balance and
consequently the earth's climate, still has uncertainties in its sinks and sources. The world's …

Plant diversity effects on ecosystem functioning can potentially interact with global climate by
altering fluxes of the radiatively active trace gases nitrous oxide (N 2 O) and methane (CH …

Biological methane formation is associated with anoxic environments and the activity of
anaerobic prokaryotes (Archaea). However, recent studies have confirmed methane release …

Abstract Carbon dioxide (CO 2), methane (CH 4), and nitrous oxide (N2O) are the three most
important greenhouse gases (GHG s), and all show large uncertainties in their atmospheric …

Despite only occupying 5% of the worldwide arable area, fruit tree crops are of vital
economic importance in many regions. Intensive crop** practices can lead to greenhouse …

Abstract Non-microbial methane (CH 4) production is more pervasive in nature than
previously thought, but it has received less attention than microbial CH 4 production. Non …

Air trapped in polar ice provides unique records of the past atmospheric composition
ranging from key greenhouse gases such as methane (CH 4) to short-lived trace gases like …