Add to ORKGClimate change is altering the function of ecosystems across the planet, including the semi-arid soil ecosystems like those found in the Arizonan desert. Soil enzymes produced by microbes are essential to these ecosystems, and their productivity is threatened by the predicted rise in temperature. In this study, seven different soil enzymes were studied to observe how seasonality, soil water content, and plant cover affected the activity of these enzymes through experimental warming. It was concluded that seasonality and plant cover have direct effects on enzymatic activity, while the soil water content cannot be correlated with the activity of all soil enzymes. The results of these different variables when being measured with one anther and...
We have previously shown that warming and wetting a post-harvest forest soil increased C and N miner...
Due to the intensification of human activities, global warming and increased atmospheric nitrogen de...
Soil moisture constrains the activity of decomposer soil microorganisms, and in turn the rate at whi...
Soil enzymes are central to ecosystem processes because they mediate numerous reactions that are ess...
International audienceSoil enzymes are central to ecosystem processes because they mediate numerous ...
The nature of linkages between soil C and N cycling is important in the context of terrestrial ecosy...
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...
Alpine grassland soils store large amounts of soil organic carbon (SOC) and are susceptible to risin...
Microbial communities drive soil organic matter (SOM) decomposition through the production of a vari...
Biological processes in soils are regulated in part by soil temperature, and there is currently cons...
This is the author accepted manuscript. The final version is available from Wiley via the DOI in thi...
In mountain ecosystems with marked seasonality, climate change can affect various processes in soils...
Extracellular enzymes catalyze rate-limiting steps in soil organic matter decomposition, and their a...
Anthropogenic changes in biodiversity and atmospheric temperature significantly influence ecosystem ...
We have previously shown that warming and wetting a post-harvest forest soil increased C and N miner...
Due to the intensification of human activities, global warming and increased atmospheric nitrogen de...
Soil moisture constrains the activity of decomposer soil microorganisms, and in turn the rate at whi...
Soil enzymes are central to ecosystem processes because they mediate numerous reactions that are ess...
International audienceSoil enzymes are central to ecosystem processes because they mediate numerous ...
The nature of linkages between soil C and N cycling is important in the context of terrestrial ecosy...
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...
Alpine grassland soils store large amounts of soil organic carbon (SOC) and are susceptible to risin...
Microbial communities drive soil organic matter (SOM) decomposition through the production of a vari...
Biological processes in soils are regulated in part by soil temperature, and there is currently cons...
This is the author accepted manuscript. The final version is available from Wiley via the DOI in thi...
In mountain ecosystems with marked seasonality, climate change can affect various processes in soils...
Extracellular enzymes catalyze rate-limiting steps in soil organic matter decomposition, and their a...
Anthropogenic changes in biodiversity and atmospheric temperature significantly influence ecosystem ...
We have previously shown that warming and wetting a post-harvest forest soil increased C and N miner...
Due to the intensification of human activities, global warming and increased atmospheric nitrogen de...
Soil moisture constrains the activity of decomposer soil microorganisms, and in turn the rate at whi...