Methane leads to global warming owing to its warming potential higher than carbon dioxide
(CO 2). Rice fields represent the major source of methane (CH 4) emission as the recent …

Wetlands have numerous critical ecological functions, some of which are regulated by
several nitrogen (N) and carbon (C) biogeochemical processes, such as denitrification …

Biochar amendment can reduce CH 4 emissions from paddy soils. However, little is known
about how the soil microbial communities associated with paddy soil CH 4 emissions …

Methane is a greenhouse gas that contributes to global warming and paddy fields are an
important source of methane emission. Methanogenic archaea and methane-oxidizing …

The soil microbiome is a driver of nitrous oxide (N2O) emissions in terrestrial ecosystems.
Identifying the core microbiome of N2O emissions and its temperature sensitivity from …

Permafrost thaw could increase methane (CH4) emissions, which largely depends on CH4
production driven by methanogenic archaea. However, large-scale evidence regarding key …

Extensive use of chemicals like herbicides in rice and other fields to manage weeds is
expected to have a lasting influence on the soil environment. Considering this rationale, we …

Understanding the process of methanogenesis in paddy fields under the scenarios of future
climate change is of great significance for reducing greenhouse gas emissions and …

Herbicide application is a common practice in intensive agriculture. However, accumulating
herbicide residues in the ecosystem affects important soil attributes. The effect of two …

Aim The β‐diversity of plants and animals generally decreases with increasing latitudes.
Here, we tested whether this relationship also holds for soil microbes at both functional and …