Another paper from our Extreme Drought in Grasslands Experiment - effects on root associated fungi

This paper, published in Journal of Ecology, was led by Devon Lagueux when she was an undergraduate at the University of New Mexico! The Abstract says:

1. Plant-associated fungi can ameliorate abiotic stress in their hosts, and changes in these fungal communities can alter plant productivity, species interactions, community structure and ecosystem processes.
2. We investigated the response of root-associated fungi to experimental drought (66% reduction in growing season precipitation) across six North American grassland ecosystem types to determine how extreme drought alters root-associated fungi, and understand what abiotic factors influence root fungal community composition across grassland ecosystems.
3. Next generation sequencing of the fungal ITS2 region demonstrated that drought primarily re-ordered fungal species’ relative abundances within host plant species, with different fungal responses depending on host identity. Grass species that declined more under drought trended toward less community re-ordering of root fungi than species less sensitive to drought. Host identity and grassland ecosystem type defined the magnitude of drought effects on community composition, diversity, and root colonization, and the most important factor affecting fungal composition was plant species identity.
4. Fungal diversity was less responsive to drought than fungal composition. Across ecosystems, latitude and soil pH were better predictors of fungal diversity than experimental drought. Drought significantly reduced fungal diversity and evenness only in sideoats grama, Bouteloua curtipendula, and reduced root colonization only in blue grama, B. gracilis.
5. Our results illustrate that predicting the effects of drought on root-associated fungi will require attention to host plant identity and ecosystem type. By comparing our results against soil microbe responses in the same experiment, we propose the hypothesis that fungi in plant roots are less sensitive to drought than fungi inhabiting soils. Our results highlight the importance of studying community-level re-ordering of fungal composition for understanding plant responses to climate change.