Soil warming has the potential to alter bacterial communities, affecting carbon (C) storage
and nitrogen (N) cycling in forest ecosystems. We studied bacterial community changes by …

Uncertainty about the effects of climate warming on belowground processes of tropical and
subtropical forests limits our ability to predict the response and feedback of such ecosystems …

Purpose The aim of this study was to determine the impacts of reduced aboveground and
belowground C inputs on the community composition of soil microbes and enzyme activities …

Microbes depolymerize soil organic matter to supply themselves with carbon (C), and
nutrients such as nitrogen (N) and phosphorus (P). In this way, microbial resource limitations …

Nitrogen deposition and climate warming can alter soil bacterial communities. However, the
response of soil bacteria in an alpine steppe to these changes is largely unknown. In this …

Soil microbial communities are essential for ensuring forest health, however, the influences
of global change on soil microbial communities and their ecosystem functions remain …

The increasing rate of atmospheric nitrogen (N) deposition seriously affects the structure and
function of ecosystems. Although soil microorganisms play a crucial role in ecosystem …

Purpose Nitrogen (N) deposition and warming may influence microbially mediated
processes and functioning of ecosystem. Our study aimed to examine how soil bacterial and …

Introduction Land-use changes significantly impact soil properties in forests, which is an
area of concern. Therefore, the effects of changing forest types on soil microbial …

We investigated the interactions of altitude and artificial warming on the soil microbial
community structure in a subalpine Abies faxoniana forest in southwestern China after four …