China's forests rank fifth in the world by area, covering a broad climatic gradient from cold-
temperate to tropical zones, and play a key role in the global carbon cycle. Studies of forest …

Soil is the largest organic carbon (C) pool of terrestrial ecosystems, and C loss from soil
accounts for a large proportion of land‐atmosphere C exchange. Therefore, a small change …

Recent advances in the partitioning of autotrophic from heterotrophic respiration processes
in soils in conjunction with new high temporal resolution soil respiration data sets offer …

Soil respiration is one of the major ecosystem carbon fluxes and has a strong relationship
with climate. We quantified this dependence for the Russian territory based on coupling …

Soil carbon losses to the atmosphere, via soil heterotrophic respiration, are expected to
increase in response to global warming, resulting in a positive carbon-climate feedback …

Soil respiration (R s), which consists of heterotrophic respiration (R h) by soil decomposers
and autotrophic respiration (R a) by roots, plays a critical role in the climate–carbon cycle …

Soil respiration (Rs) is the second‐largest terrestrial carbon (C) flux. Although Rs has been
extensively studied across a broad range of biomes, there is surprisingly little consensus on …

Soil respiration (Rsoil) is one of the largest CO 2 fluxes in the global carbon (C) cycle.
Estimation of annual Rsoil requires extrapolation of survey measurements or gap filling of …

Soil surface CO2 flux (RS) is overwhelmingly the product of respiration by roots (autotrophic
respiration, RA) and soil organisms (heterotrophic respiration, RH). Many studies have …