Forests influence climate and mitigate global change through the storage of carbon in soils.
In turn, these complex ecosystems face important challenges, including increases in carbon …

Rapid Arctic environmental change affects the entire Earth system as thawing permafrost
ecosystems release greenhouse gases to the atmosphere. Understanding how much …

It is unequivocal that the increases in atmospheric carbon dioxide (CO2), methane (CH4)
and nitrous oxide (N2O) since the pre-industrial period are caused by human activities. The …

Atmospheric methane growth reached an exceptionally high rate of 15.1±0.4 parts per
billion per year in 2020 despite a probable decrease in anthropogenic methane emissions …

Background Biogas is one of the promising renewable energy sources that successfully
implemented at domestic and industrial scales. This work presents a preliminary evaluation …

The positive response of wetland methane (CH4) emissions to climate change is an
important yet uncertain Earth-system feedback that amplifies atmospheric CH4 …

1. Methods We use the same data and approaches to estimate CH 4 emissions as in
Saunois et al (2020). One approach we use is a top-down (TD) ensemble of 11 inversions …

Understanding and quantifying the global methane (CH 4) budget is important for assessing
realistic pathways to mitigate climate change. Atmospheric emissions and concentrations of …

The soil microbiome governs biogeochemical cycling of macronutrients, micronutrients and
other elements vital for the growth of plants and animal life. Understanding and predicting …

Over the past decade, the Arctic has warmed by 0.75° C, far outpacing the global average,
while Antarctic temperatures have remained comparatively stable. As Earth approaches 2° …