Quantifying soil organic carbon (SOC) decomposition under warming is critical to predict carbon-climate feedbacks. According to the substrate regulating principle, SOC decomposition would decrease as labile SOC declines under field warming, but observations of SOC decomposition under warming do not always support this prediction. This discrepancy could result from varying changes in SOC components and soil microbial communities under warming. This study aimed to determine the decomposition of SOC components with different turnover times after subjected to long-term field warming and/or root exclusion to limit C input, and to test whether SOC decomposition is driven by substrate lability under warming. Taking advantage of a 12-year field war...
Current consensus on global climate change predicts warming trends with more pronounced temperature ...
As earth\u27s climate continues to warm, it is important to understand how the capacity of terrestri...
The sensitivity of soil carbon to warming is a major uncertainty in projections of carbon dioxide co...
Soil organic matter (SOM) stocks contain nearly three times as much carbon (C) as the atmosphere and...
Abstract Warming is altering the way soils function in ecosystems both directly by changing microbia...
Soil organic matter is the largest carbon (C) pool in the terrestrial C cycle, and soil CO₂ emission...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Anthropogenic warming is expected to accelerate global soil organic carbon (SOC) losses via microbia...
The central objective of the proposed work was to develop a genomic approach (nucleic acid-based) th...
Studying soil carbon (C) losses and carbon dioxide (CO2) feedbacks to the atmosphere under global cl...
Current carbon cycle-climate models predict that future soil carbon storage will be determined by th...
The sensitivity of soil carbon to warming is a major uncertainty in projections of carbon dioxide co...
Current carbon cycle-climate models predict that future soil carbon storage will be determined by th...
Current consensus on global climate change predicts warming trends with more pronounced temperature ...
As earth\u27s climate continues to warm, it is important to understand how the capacity of terrestri...
The sensitivity of soil carbon to warming is a major uncertainty in projections of carbon dioxide co...
Soil organic matter (SOM) stocks contain nearly three times as much carbon (C) as the atmosphere and...
Abstract Warming is altering the way soils function in ecosystems both directly by changing microbia...
Soil organic matter is the largest carbon (C) pool in the terrestrial C cycle, and soil CO₂ emission...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Anthropogenic warming is expected to accelerate global soil organic carbon (SOC) losses via microbia...
The central objective of the proposed work was to develop a genomic approach (nucleic acid-based) th...
Studying soil carbon (C) losses and carbon dioxide (CO2) feedbacks to the atmosphere under global cl...
Current carbon cycle-climate models predict that future soil carbon storage will be determined by th...
The sensitivity of soil carbon to warming is a major uncertainty in projections of carbon dioxide co...
Current carbon cycle-climate models predict that future soil carbon storage will be determined by th...
Current consensus on global climate change predicts warming trends with more pronounced temperature ...
As earth\u27s climate continues to warm, it is important to understand how the capacity of terrestri...
The sensitivity of soil carbon to warming is a major uncertainty in projections of carbon dioxide co...