Add to ORKGAlthough only representing 0.05% of global freshwater, or 0.001% of all global water, soil water supports all terrestrial biological life. Soil moisture behaviour in most models is constrained by hydraulic parameters that do not change. Here we argue that biological feedbacks from plants, macro-fauna and the microbiome influence soil structure, and thus the soil hydraulic parameters and the soil water content signals we observe. Incorporating biological feedbacks into soil hydrological models is therefore important for understanding environmental change and its impacts on ecosystems. We anticipate that environmental change will accelerate and modify soil hydraulic function. Increasingly, we understand the vital role that soil moisture exert...
Soil hydrological processes (SHP) support ecosystems, modulate the impact of climate change on terre...
1.The study of feedbacks between plants and soils (plant‐soil feedbacks; PSFs) is receiving increase...
Quantifying the impact of drought on microbial processes and its consequences for soil carbon cyclin...
Although only representing 0.05% of global freshwater, or 0.001% of all global water, soil water sup...
At a critical soil water content (θcrit), terrestrial ecosystem fluxes at the soil-vegetation-atmosp...
<p>It is increasingly acknowledged that plant–soil feedbacks may play an important role in driving t...
Earth system models associate the ongoing global warming with increasing frequency and intensity of ...
International audienceDue to its influence on multiple soil processes, water intervenes in biogeoche...
Soils form the skin of the Earth’s surface, regulating water and biogeochemical cycles and generatin...
Water controls the dynamics of terrestrial ecosystems directly, as a resource for the biota, and ind...
The scientific and human dimensions of global change have many overlapping themes which offer a focu...
Soils form the skin of the Earth’s surface, regulating water and biogeochemical cycles and generatin...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
The functioning of microbial communities in response to elevated atmospheric carbon dioxide (eCO2) i...
A warming climate and expected changes in average and extreme rainfall emphasise the importance of u...
Soil hydrological processes (SHP) support ecosystems, modulate the impact of climate change on terre...
1.The study of feedbacks between plants and soils (plant‐soil feedbacks; PSFs) is receiving increase...
Quantifying the impact of drought on microbial processes and its consequences for soil carbon cyclin...
Although only representing 0.05% of global freshwater, or 0.001% of all global water, soil water sup...
At a critical soil water content (θcrit), terrestrial ecosystem fluxes at the soil-vegetation-atmosp...
<p>It is increasingly acknowledged that plant–soil feedbacks may play an important role in driving t...
Earth system models associate the ongoing global warming with increasing frequency and intensity of ...
International audienceDue to its influence on multiple soil processes, water intervenes in biogeoche...
Soils form the skin of the Earth’s surface, regulating water and biogeochemical cycles and generatin...
Water controls the dynamics of terrestrial ecosystems directly, as a resource for the biota, and ind...
The scientific and human dimensions of global change have many overlapping themes which offer a focu...
Soils form the skin of the Earth’s surface, regulating water and biogeochemical cycles and generatin...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
The functioning of microbial communities in response to elevated atmospheric carbon dioxide (eCO2) i...
A warming climate and expected changes in average and extreme rainfall emphasise the importance of u...
Soil hydrological processes (SHP) support ecosystems, modulate the impact of climate change on terre...
1.The study of feedbacks between plants and soils (plant‐soil feedbacks; PSFs) is receiving increase...
Quantifying the impact of drought on microbial processes and its consequences for soil carbon cyclin...