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Land management shapes drought responses of dominant soil microbial taxa across grasslands

Jocelyn M. Lavallee, Mathilde Chomel, Nil Álvarez, Francisco de Castro, Tim Goodall, Matthew Magilton, Jennifer M. Rhymes, Manuel Delgado‐Baquerizo, Robert I. Griffiths, Elizabeth M. Baggs, Tancredi Caruso, Franciska T. de Vries, Mark Emmerson, David Johnson, Richard D. Bardgett

2024Nature Communications60 citationsDOIOpen Access PDF

Abstract

Soil microbial communities are dominated by a relatively small number of taxa that may play outsized roles in ecosystem functioning, yet little is known about their capacities to resist and recover from climate extremes such as drought, or how environmental context mediates those responses. Here, we imposed an in situ experimental drought across 30 diverse UK grassland sites with contrasting management intensities and found that: (1) the majority of dominant bacterial (85%) and fungal (89%) taxa exhibit resistant or opportunistic drought strategies, possibly contributing to their ubiquity and dominance across sites; and (2) intensive grassland management decreases the proportion of drought-sensitive and non-resilient dominant bacteria-likely via alleviation of nutrient limitation and pH-related stress under fertilisation and liming-but has the opposite impact on dominant fungi. Our results suggest a potential mechanism by which intensive management promotes bacteria over fungi under drought with implications for soil functioning.

Topics & Concepts

GrasslandEcologyTaxonBiologyAgroforestryEnvironmental scienceSoil Carbon and Nitrogen DynamicsPasture and Agricultural SystemsMicrobial Community Ecology and Physiology
Land management shapes drought responses of dominant soil microbial taxa across grasslands | Litcius