Ectomycorrhizal effects on decomposition are highly dependent on fungal traits, climate, and litter properties: A model-based assessment
It has been proposed that competition between ectomycorrhizal (ECM) fungi and free-living
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
Ectomycorrhizal effects on decomposition are highly dependent on fungal traits, climate, and litter properties: A model-based assessment
S Shao, N Wurzburger, B Sulman… - Soil Biology and …, 2023 - osti.gov
It has been proposed that competition between ectomycorrhizal (ECM) fungi and free-living
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
Ectomycorrhizal effects on decomposition are highly dependent on fungal traits, climate, and litter properties: A model-based assessment
S Shao, N Wurzburger, B Sulman… - Soil Biology and …, 2023 - ui.adsabs.harvard.edu
It has been proposed that competition between ectomycorrhizal (ECM) fungi and free-living
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
Ectomycorrhizal effects on decomposition are highly dependent on fungal traits, climate, and litter properties: A model-based assessment
S Shao, N Wurzburger, B Sulman… - Soil Biology and …, 2023 - osti.gov
It has been proposed that competition between ectomycorrhizal (ECM) fungi and free-living
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …
saprotrophs for resources like nitrogen (N) slows decomposition and increases the soil …