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Soil microbial community responses to multiple experimental climate change drivers. | LitMetric

Soil microbial community responses to multiple experimental climate change drivers.

Appl Environ Microbiol

Biosciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831-6038, USA.

Published: February 2010

AI Article Synopsis

  • Researchers studied how climate change factors like CO2 levels and temperature affect soil microbial communities in an old-field ecosystem, revealing complex interactions between these variables.
  • They found that warming increased fungal abundance, while bacterial abundance showed mixed responses depending on CO2 levels and temperature.
  • Changes in precipitation had a significant impact on the composition of both bacterial and fungal communities, indicating that different climate factors can lead to complex shifts in ecosystem dynamics.

Article Abstract

Researchers agree that climate change factors such as rising atmospheric [CO2] and warming will likely interact to modify ecosystem properties and processes. However, the response of the microbial communities that regulate ecosystem processes is less predictable. We measured the direct and interactive effects of climatic change on soil fungal and bacterial communities (abundance and composition) in a multifactor climate change experiment that exposed a constructed old-field ecosystem to different atmospheric CO2 concentration (ambient, +300 ppm), temperature (ambient, +3 degrees C), and precipitation (wet and dry) might interact to alter soil bacterial and fungal abundance and community structure in an old-field ecosystem. We found that (i) fungal abundance increased in warmed treatments; (ii) bacterial abundance increased in warmed plots with elevated atmospheric [CO2] but decreased in warmed plots under ambient atmospheric [CO2]; (iii) the phylogenetic distribution of bacterial and fungal clones and their relative abundance varied among treatments, as indicated by changes in 16S rRNA and 28S rRNA genes; (iv) changes in precipitation altered the relative abundance of Proteobacteria and Acidobacteria, where Acidobacteria decreased with a concomitant increase in the Proteobacteria in wet relative to dry treatments; and (v) changes in precipitation altered fungal community composition, primarily through lineage specific changes within a recently discovered group known as soil clone group I. Taken together, our results indicate that climate change drivers and their interactions may cause changes in bacterial and fungal overall abundance; however, changes in precipitation tended to have a much greater effect on the community composition. These results illustrate the potential for complex community changes in terrestrial ecosystems under climate change scenarios that alter multiple factors simultaneously.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2820983PMC
http://dx.doi.org/10.1128/AEM.02874-09DOI Listing

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