Add to ORKGThe magnitude and direction of carbon cycle feedbacks under climate warming remain uncertain due to insufficient knowledge about the temperature sensitivities of soil microbial processes. Enzymatic rates could increase at higher temperatures, but this response could change over time if soil microbes adapt to warming. We used the Arrhenius relationship, biochemical transition state theory, and thermal physiology theory to predict the responses of extracellular enzyme Vmax and Km to temperature. Based on these concepts, we hypothesized that Vmax and Km would correlate positively with each other and show positive temperature sensitivities. For enzymes from warmer environments, we expected to find lower Vmax , Km , and Km temperature sensitivit...
Global soil carbon (C) stocks are expected to decline with warming, and changes in microbial process...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Alpine grassland soils store large amounts of soil organic carbon (SOC) and are susceptible to risin...
Fungal metabolic rates could increase under climate warming but may be counteracted by mechanisms of...
Microbial decomposers produce extracellular enzymes to degrade complex plant polymers, making plant ...
International audienceSoil enzymes are central to ecosystem processes because they mediate numerous ...
Soil enzymes are central to ecosystem processes because they mediate numerous reactions that are ess...
Rising temperatures are expected to reduce global soil carbon (C) stocks, driving a positive feedbac...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Current knowledge of the mechanisms driving soil organic matter (SOM) turnover and responses to warm...
Microbial enzyme activities are the direct agents of organic matter decomposition, and thus play a c...
Temperature regulates the rate of biogeochemical cycles. One way it does so is through control of mi...
Our current understanding of the temperature response of biological processes in soil is based on th...
This work analyzes the effect of temperature and water availability on microbial extracellular enzym...
The activities of extracellular enzymes, the proximate agents of decomposition in soils, are known t...
Global soil carbon (C) stocks are expected to decline with warming, and changes in microbial process...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Alpine grassland soils store large amounts of soil organic carbon (SOC) and are susceptible to risin...
Fungal metabolic rates could increase under climate warming but may be counteracted by mechanisms of...
Microbial decomposers produce extracellular enzymes to degrade complex plant polymers, making plant ...
International audienceSoil enzymes are central to ecosystem processes because they mediate numerous ...
Soil enzymes are central to ecosystem processes because they mediate numerous reactions that are ess...
Rising temperatures are expected to reduce global soil carbon (C) stocks, driving a positive feedbac...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Current knowledge of the mechanisms driving soil organic matter (SOM) turnover and responses to warm...
Microbial enzyme activities are the direct agents of organic matter decomposition, and thus play a c...
Temperature regulates the rate of biogeochemical cycles. One way it does so is through control of mi...
Our current understanding of the temperature response of biological processes in soil is based on th...
This work analyzes the effect of temperature and water availability on microbial extracellular enzym...
The activities of extracellular enzymes, the proximate agents of decomposition in soils, are known t...
Global soil carbon (C) stocks are expected to decline with warming, and changes in microbial process...
Microbes are responsible for cycling carbon (C) through soils, and predicted changes in soil C stock...
Alpine grassland soils store large amounts of soil organic carbon (SOC) and are susceptible to risin...