Add to ORKGIn nutrient-limited conditions, plants rely on rhizosphere microbial members to facilitate nutrient acquisition, and in return, plants provide carbon resources to these root-associated microorganisms. However, atmospheric nutrient deposition can affect plant-microbe relationships by changing soil bacterial composition and by reducing cooperation between microbial taxa and plants. To examine how long-term nutrient addition shapes rhizosphere community composition, we compared traits associated with bacterial (fast-growing copiotrophs, slow-growing oligotrophs) and plant (C3 forb, C4 grass) communities residing in a nutrient-poor wetland ecosystem. Results revealed that oligotrophic taxa dominated soil bacterial communities and that fertiliza...
Plant-derived organic matter inputs are thought to be a key driver of soil bacterial community compo...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plants are known to influence belowground microbial community structure along their roots, but the i...
ABSTRACT In nutrient-limited conditions, plants rely on rhizosphere microbial members to facilitate ...
Human activities such as urbanization and intensive agriculture modify nutrient and water cycles in ...
Mutualistic plant-microbe relationships that have evolved under nutrient starved environmental condi...
Soil microorganisms regulate element cycling and plant nutrition, mediate co-existence of neighbors,...
<div><p>Plant and soil properties cooperatively structure soil microbial communities, with implicati...
Plant and soil properties cooperatively structure soil microbial communities, with implications for ...
We evaluated effects of 9-year simulated nitrogen (N) deposition on microbial composition and divers...
Soil microbes are known to be key drivers of several essential ecosystem processes such as nutrient ...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plant growth can be affected by soil bacteria. In turn, plants are known to influence soil bacteria ...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plant growth can be affected by soil bacteria. In turn, plants are known to influence soil bacteria ...
Plant-derived organic matter inputs are thought to be a key driver of soil bacterial community compo...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plants are known to influence belowground microbial community structure along their roots, but the i...
ABSTRACT In nutrient-limited conditions, plants rely on rhizosphere microbial members to facilitate ...
Human activities such as urbanization and intensive agriculture modify nutrient and water cycles in ...
Mutualistic plant-microbe relationships that have evolved under nutrient starved environmental condi...
Soil microorganisms regulate element cycling and plant nutrition, mediate co-existence of neighbors,...
<div><p>Plant and soil properties cooperatively structure soil microbial communities, with implicati...
Plant and soil properties cooperatively structure soil microbial communities, with implications for ...
We evaluated effects of 9-year simulated nitrogen (N) deposition on microbial composition and divers...
Soil microbes are known to be key drivers of several essential ecosystem processes such as nutrient ...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plant growth can be affected by soil bacteria. In turn, plants are known to influence soil bacteria ...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plant growth can be affected by soil bacteria. In turn, plants are known to influence soil bacteria ...
Plant-derived organic matter inputs are thought to be a key driver of soil bacterial community compo...
Microorganisms in the rhizosphere drive important ecosystem processes such as nutrient cycling and o...
Plants are known to influence belowground microbial community structure along their roots, but the i...