Dataset for: Fungal interactions reduce carbon use efficiency

  • Daniel S. Maynard (Creator)
  • Thomas W. Crowther (Creator)
  • M.A. Bradford (Creator)



The efficiency by which fungi decompose organic matter contributes to the amount of carbon that is retained in biomass versus lost to the atmosphere as respiration. This carbon use efficiency (CUE) is affected by various abiotic conditions, including temperature and nutrient availability. Theoretically, the physiological costs of interspecific interactions should likewise alter CUE, yet the magnitude of these costs are untested. Here we conduct a microcosm experiment to quantify how interactions among wood-decay basidiomycete fungi alter growth, respiration, and CUE across a temperature and nitrogen gradient. We show that species interactions induced consistent declines in CUE, regardless of abiotic conditions. Multispecies communities exhibited reductions in CUE of up to 25% relative to individual CUE, with this biotic effect being greater than the observed variation attributable to abiotic conditions. Our results suggest that the extent to which fungal-mediated carbon fluxes respond to environmental change may be influenced strongly by species interactions.
Date made available17 Jul 2017
  • Fungal interactions reduce carbon use efficiency

    Maynard, D. S., Crowther, T. W. & Bradford, M. A., 04 Jul 2017, In: Ecology Letters. 20, 8, p. 1034-1042 9 p.

    Research output: Contribution to journal/periodicalArticleScientificpeer-review

    Open Access
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