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Vulnerability and resistance in the spatial heterogeneity of soil microbial communities under resource additions. | LitMetric

AI Article Synopsis

  • Ecosystems provide diverse services through spatial heterogeneity in microbial composition and function, but the impact of altered resource inputs on this heterogeneity is uncertain.
  • In a study conducted in northern California grasslands, nutrient addition led to decreased spatial variability in fungal composition, particularly reducing mutualistic fungi while increasing antagonistic fungi.
  • However, bacterial and archaeal communities showed stability in variability, and nitrogen cycling functions became more variable with resource addition, suggesting that anthropogenic changes can significantly affect microbial ecosystem dynamics.

Article Abstract

Spatial heterogeneity in composition and function enables ecosystems to supply diverse services. For soil microbes and the ecosystem functions they catalyze, whether such heterogeneity can be maintained in the face of altered resource inputs is uncertain. In a 50-ha northern California grassland with a mosaic of plant communities generated by different soil types, we tested how spatial variability in microbial composition and function changed in response to nutrient and water addition. Fungal composition lost some of its spatial variability in response to nutrient addition, driven by decreases in mutualistic fungi and increases in antagonistic fungi that were strongest on the least fertile soils, where mutualists were initially most frequent and antagonists initially least frequent. Bacterial and archaeal community composition showed little change in their spatial variability with resource addition. Microbial functions related to nitrogen cycling showed increased spatial variability under nutrient, and sometimes water, additions, driven in part by accelerated nitrification on the initially more-fertile soils. Under anthropogenic changes such as eutrophication and altered rainfall, these findings illustrate the potential for significant changes in ecosystem-level spatial heterogeneity of microbial functions and communities.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7132273PMC
http://dx.doi.org/10.1073/pnas.1908117117DOI Listing

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