Add to ORKGWhile multiple experiments have demonstrated that trees exposed to elevated CO2 can stimulate microbes to release nutrients from soil organic matter, the importance of root- versus mycorrhizal-induced changes in soil processes are presently unknown. We analyzed the contribution of roots and mycorrhizal activities to carbon (C) and nitrogen (N) turnover in a loblolly pine (Pinus taeda) forest exposed to elevated CO2 by measuring extracellular enzyme activities at soil microsites accessed via root windows. Specifically, we quantified enzyme activity from soil adjacent to root tips (rhizosphere), soil adjacent to hyphal tips (hyphosphere), and bulk soil. During the peak growing season, CO2 enrichment induced a greater increase of N-releasing e...
The rhizosphere is a hot-spot for biogeochemical cycles, including production of greenhouse gases, a...
Elevated atmospheric carbon dioxide (eCO2) can impact soil organic matter (SOM) dynamics by changing...
Large-scale, long-term FACE (Free-Air CO2 enrichment) experiments indicate that increases in atmosph...
The exudation of carbon (C) by tree roots stimulates microbial activity and the production of extrac...
A common finding in multiple CO2 enrichment experiments in forests is the lack of soil carbon (C) ac...
To study the responses of forests to global change, model ecosystems consisting of beech and spruce ...
The atmospheric concentration of CO2 is predicted to reach double current levels by 2075. Detritus f...
The atmospheric concentration of CO2 is predicted to reach double current levels by 2075. Detritus f...
Soil fungi couple plant and ecosystem resource demands to pools of soil resources. Research on these...
We examined the response of mycorrhizal fungi to free-air CO2 enrichment (FACE) and nitrogen (N) fer...
We examined the response of mycorrhizal fungi to free-air CO2 enrichment (FACE) and nitrogen (N) fer...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
The rhizosphere is a hot-spot for biogeochemical cycles, including production of greenhouse gases, a...
The rhizosphere is a hot-spot for biogeochemical cycles, including production of greenhouse gases, a...
Elevated atmospheric carbon dioxide (eCO2) can impact soil organic matter (SOM) dynamics by changing...
Large-scale, long-term FACE (Free-Air CO2 enrichment) experiments indicate that increases in atmosph...
The exudation of carbon (C) by tree roots stimulates microbial activity and the production of extrac...
A common finding in multiple CO2 enrichment experiments in forests is the lack of soil carbon (C) ac...
To study the responses of forests to global change, model ecosystems consisting of beech and spruce ...
The atmospheric concentration of CO2 is predicted to reach double current levels by 2075. Detritus f...
The atmospheric concentration of CO2 is predicted to reach double current levels by 2075. Detritus f...
Soil fungi couple plant and ecosystem resource demands to pools of soil resources. Research on these...
We examined the response of mycorrhizal fungi to free-air CO2 enrichment (FACE) and nitrogen (N) fer...
We examined the response of mycorrhizal fungi to free-air CO2 enrichment (FACE) and nitrogen (N) fer...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate forests. Most r...
The rhizosphere is a hot-spot for biogeochemical cycles, including production of greenhouse gases, a...
The rhizosphere is a hot-spot for biogeochemical cycles, including production of greenhouse gases, a...
Elevated atmospheric carbon dioxide (eCO2) can impact soil organic matter (SOM) dynamics by changing...
Large-scale, long-term FACE (Free-Air CO2 enrichment) experiments indicate that increases in atmosph...