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  • Experimental N addition across a N deposition gradient
  • Moore, Jessica A. M.; Post-doctoral Researcher; Oak Ridge National Lab
    Frey, Serita; Professor; University of New Hampshire
  • 2020-10-28
  • Moore, J.A. and S. Frey. 2020. Experimental N addition across a N deposition gradient ver 1. Environmental Data Initiative. https://doi.org/DOI_PLACE_HOLDER (Accessed 2024-12-29).

  • Fungal decomposition of soil organic matter is partly driven by soil nitrogen (N) availability. This ecosystem process is being jeopardized by changes in N inputs that have resulted from a tripling of atmospheric N deposition in the last century. Soil fungi are impacted by atmospheric N deposition as community composition shifts due to higher N availability, as soils are acidified, or as micronutrients become increasingly limiting. Fungal communities that persist with chronic N deposition may be enriched with traits that enable them to tolerate environmental stress, which may trade-off with traits enabling organic matter decomposition. We hypothesized that fungal communities would respond to N deposition by shifting community composition and functional gene abundances toward those that tolerate stress but are weak decomposers. We sampled soils at seven eastern US hardwood forests where ambient N deposition varied from 3.2 – 12.6 kg N ha-1 y-1, five of which also have experimental plots where atmospheric N deposition was simulated through fertilizer application treatments (25 – 50 kg N ha-1 y-1). We found that fungal community and functional responses to chronic fertilizer treatments varied across the ambient N deposition gradient.

  • N: 44.87      S: 39.05      E: -68.1      W: -79.81
  • edi.631.1  (Uploaded 2020-10-28)  
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  • DOI PLACE HOLDER
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