Add to ORKGChanges in the rates of nitrogen (N) cycling, microbial carbon (C) substrate use, and extracellular enzyme activities in a Mojave Desert ecosystem exposed to elevated atmospheric CO2 suggest shifts in the size and/or functional characteristics of microbial assemblages in two dominant soil microsites: plant interspaces and under the dominant shrub Larrea tridentata. We used ester‐linked phospholipid fatty acid (PLFA) biomarkers as a proxy for microbial biomass to quantify spatial and temporal differences in soil microbial communities from February 2003 to May 2005. Further, we used the 13C signature of the fossil CO2 source for elevated CO2 plots to trace recent plant dC inputs into soil organic matter (SOM) and broad microbial groups using ...
Due to their extreme aridity, high rate of UV irradiation and low soil carbon (C) content, the soils...
Hot desert surface soils are characterized by extremely low water activities for large parts of any...
Elevated atmospheric CO2 has the potential to increase the production and alter the chemistry of org...
Changes in the rates of nitrogen (N) cycling, microbial carbon (C) substrate use, and extracellular ...
We examined the effects of elevated CO2 on soil nitrogen (N) dynamics in the Mojave Desert by measur...
The objective of this study is to determine soil microbial community structure in the framework of i...
[1] We examined the effects of elevated CO2 on soil nitrogen (N) dynamics in the Mojave Desert by me...
International audienceThe aim of this study was to identify the microbial communities that are activ...
Extreme environmental conditions make soils of the hyper-arid Atacama Desert one of the most hostile...
To assess how microbial processing of organic C inputs to forest soils may be influenced by elevated...
The effects of elevated atmospheric carbon dioxide [CO2] on microbial communities in arid rhizospher...
To assess how microbial processing of organic C inputs to forest soils may be influenced by elevated...
8 páginas, 4 figuras. -- The first publication is available at https://www.nature.comThe temporal dy...
Functional diversity of the soil microbial community is commonly used in the assessment of soil heal...
Elevated atmospheric CO_2 has the potential to increase the production and alter the chemistry of or...
Due to their extreme aridity, high rate of UV irradiation and low soil carbon (C) content, the soils...
Hot desert surface soils are characterized by extremely low water activities for large parts of any...
Elevated atmospheric CO2 has the potential to increase the production and alter the chemistry of org...
Changes in the rates of nitrogen (N) cycling, microbial carbon (C) substrate use, and extracellular ...
We examined the effects of elevated CO2 on soil nitrogen (N) dynamics in the Mojave Desert by measur...
The objective of this study is to determine soil microbial community structure in the framework of i...
[1] We examined the effects of elevated CO2 on soil nitrogen (N) dynamics in the Mojave Desert by me...
International audienceThe aim of this study was to identify the microbial communities that are activ...
Extreme environmental conditions make soils of the hyper-arid Atacama Desert one of the most hostile...
To assess how microbial processing of organic C inputs to forest soils may be influenced by elevated...
The effects of elevated atmospheric carbon dioxide [CO2] on microbial communities in arid rhizospher...
To assess how microbial processing of organic C inputs to forest soils may be influenced by elevated...
8 páginas, 4 figuras. -- The first publication is available at https://www.nature.comThe temporal dy...
Functional diversity of the soil microbial community is commonly used in the assessment of soil heal...
Elevated atmospheric CO_2 has the potential to increase the production and alter the chemistry of or...
Due to their extreme aridity, high rate of UV irradiation and low soil carbon (C) content, the soils...
Hot desert surface soils are characterized by extremely low water activities for large parts of any...
Elevated atmospheric CO2 has the potential to increase the production and alter the chemistry of org...