Add to ORKGA mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fluxes spatially and temporally. Automated measurements of soil respiration offer the high-resolution information necessary to observe temporal variation in soil respiration, but spatially these measurements are under-represented in water-limited and non-forested ecosystems. We measured soil respiration with automated chambers over the growing season, at two sites with the same semi-arid climate, but with different dominant vegetation, perennial grasses and shrubs in the Owens Valley, CA, USA. An isotope mass balance technique was used to partition soil respiration into autotrophic and heterotrophic components at two time points, early and late...
Decomposition is central to understanding ecosystem carbon exchange and nutrient-release processes. ...
Quantification of the fate of carbon (C) used by plant metabolism is necessary to improve prediction...
Soil respiration (SR) constitutes the largest flux of CO<sub>2</sub> from terrestrial ec...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
ABSTRACT piration and heterotrophic microbial respiration. Net ecosystem exchange of CO2 as an integ...
Abstract Semi-arid ecosystems with annual mois-ture inputs dominated by snowmelt cover much of the w...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Soil respiration (SR) is highly sensitive to future climate change, and particularly to global warmi...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Soil respiration is derived from heterotrophic (decomposition of soil organic matter) and autotrophi...
Over two-thirds of terrestrial carbon is stored belowground and a significant amount of atmospheric ...
Soil respiration is derived from heterotrophic (decomposition of soil organic matter) and autotrophi...
Decomposition is central to understanding ecosystem carbon exchange and nutrient-release processes. ...
Quantification of the fate of carbon (C) used by plant metabolism is necessary to improve prediction...
Soil respiration (SR) constitutes the largest flux of CO<sub>2</sub> from terrestrial ec...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
A mechanistic understanding of soil respiration is a major impediment to predicting terrestrial C fl...
ABSTRACT piration and heterotrophic microbial respiration. Net ecosystem exchange of CO2 as an integ...
Abstract Semi-arid ecosystems with annual mois-ture inputs dominated by snowmelt cover much of the w...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Soil respiration (SR) is highly sensitive to future climate change, and particularly to global warmi...
Recent advances in the partitioning of autotrophic from heterotrophic respiration processes in soils...
Soil respiration is derived from heterotrophic (decomposition of soil organic matter) and autotrophi...
Over two-thirds of terrestrial carbon is stored belowground and a significant amount of atmospheric ...
Soil respiration is derived from heterotrophic (decomposition of soil organic matter) and autotrophi...
Decomposition is central to understanding ecosystem carbon exchange and nutrient-release processes. ...
Quantification of the fate of carbon (C) used by plant metabolism is necessary to improve prediction...
Soil respiration (SR) constitutes the largest flux of CO<sub>2</sub> from terrestrial ec...