Soil microbial respiration is an important source of uncertainty in projecting future climate
and carbon (C) cycle feedbacks. However, its feedbacks to climate warming and underlying …

Rapidly rising temperatures in the Arctic might cause a greater release of greenhouse gases
(GHG s) to the atmosphere. To study the effect of warming on GHG dynamics, we deployed …

Soil respiration is a vital process in all terrestrial ecosystems, through which the soil releases
carbon dioxide (CO 2) into the atmosphere at an estimated annual rate of 68–101 Pg …

Climate change may considerably impact the carbon (C) dynamics and C stocks of forest
soils. To assess the combined effects of warming and reduced precipitation on soil CO 2 …

Drainage and conversion of natural peatlands to forestry increases soil CO2 emissions
through decomposition of peat and modifies the quantity and quality of litter inputs and …

Tropical soil microorganisms are major recyclers of the biosphere organic carbon. However,
the link of tropical microorganisms to the two main pathways of how carbon enters the …

Understanding how soil respiration (Rs) and its source components respond to climate
warming is crucial to improve model prediction of climate‐carbon (C) feedback. We …

Carbon use efficiency (CUE), the ratio of net primary production (NPP) over gross primary
production (GPP), is a functional parameter that could possibly link the current increasingly …

Northern peatland ecosystems represent large carbon (C) stocks that are susceptible to
changes such as accelerated mineralization due to water table lowering expected under a …

Partitioning the soil surface CO2 flux (RS) flux is an important step in understanding
ecosystem-level carbon cycling, given that RS is poorly constrained and its source …