There is considerable interest in understanding the biological mechanisms that regulate carbon exchanges between the land and atmosphere, and how these exchanges respond to climate change. An understanding of soil microbial ecology is central to our ability to assess terrestrial carbon cycle–climate feedbacks, but the complexity of the soil microbial community and the many ways that it can be affected by climate and other global changes hampers our ability to draw firm conclusions on this topic. In this paper, we argue that to understand the potential negative and positive contributions of soil microbes to land–atmosphere carbon exchange and global warming requires explicit consideration of both direct and indirect impacts of climate change...
textSoil microbes influence the global carbon cycle via their role in the decomposition and formatio...
In recent years, there has been an increase in research to understand how global changes' impacts on...
In recent years, there has been an increase in research to understand how global changes' impacts on...
There is considerable interest in understanding the biological mechanisms that regulate carbon excha...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Earth’s climate is warming, and there is evidence that increased temperature alters soil C cycling, ...
Studying soil carbon (C) losses and carbon dioxide (CO2) feedbacks to the atmosphere under global cl...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
Soils harbor a large reservoir of carbon (C) that is several times greater than the amount present i...
Global change is altering species distributions and thus interactions among organisms. Organisms liv...
Eutrophication and climate warming, induced by anthropogenic activities, are simultaneously occurrin...
Soil microbial communities may be able to rapidly respond to changing environments in ways that chan...
Soil microbes play critical roles in regulating terrestrial carbon (C) cycle and its feedback to cli...
Microbial processes have a central role in the global fluxes of the key biogenic greenhouse gases (c...
Microbial processes have a central role in the global fluxes of the key biogenic greenhouse gases (c...
textSoil microbes influence the global carbon cycle via their role in the decomposition and formatio...
In recent years, there has been an increase in research to understand how global changes' impacts on...
In recent years, there has been an increase in research to understand how global changes' impacts on...
There is considerable interest in understanding the biological mechanisms that regulate carbon excha...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Earth’s climate is warming, and there is evidence that increased temperature alters soil C cycling, ...
Studying soil carbon (C) losses and carbon dioxide (CO2) feedbacks to the atmosphere under global cl...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
Soils harbor a large reservoir of carbon (C) that is several times greater than the amount present i...
Global change is altering species distributions and thus interactions among organisms. Organisms liv...
Eutrophication and climate warming, induced by anthropogenic activities, are simultaneously occurrin...
Soil microbial communities may be able to rapidly respond to changing environments in ways that chan...
Soil microbes play critical roles in regulating terrestrial carbon (C) cycle and its feedback to cli...
Microbial processes have a central role in the global fluxes of the key biogenic greenhouse gases (c...
Microbial processes have a central role in the global fluxes of the key biogenic greenhouse gases (c...
textSoil microbes influence the global carbon cycle via their role in the decomposition and formatio...
In recent years, there has been an increase in research to understand how global changes' impacts on...
In recent years, there has been an increase in research to understand how global changes' impacts on...