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Subordinate plants mitigate drought effects on soil ecosystem processes by stimulating fungi

Pierre MariotteCentre for Carbon, Water and Food The University of Sydney 380 Werombi Rd Camden NSW 2570 AustraliaBjorn J. M. RobroekLaboratory of Ecological Systems (ECOS) Ecole Polytechnique Fédérale de Lausanne EPFL School of Architecture, Civil and Environmental Engineering (ENAC) Station 2 1015 Lausanne SwitzerlandVincent E. J. JasseyLaboratory of Ecological Systems (ECOS) Ecole Polytechnique Fédérale de Lausanne EPFL School of Architecture, Civil and Environmental Engineering (ENAC) Station 2 1015 Lausanne SwitzerlandAlexandre ButtlerLaboratoire de Chrono‐Environnement UMR CNRS 6249 UFR des Sciences et Techniques Université de Franche‐Comté 16 route de Gray F‐25030 Besançon France
2015en
ABI

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Summary The subordinate insurance hypothesis suggests that highly diverse communities contain greater numbers of subordinate species than less diverse communities. It has previously been reported that subordinate species can improve grassland productivity during drought, but the underlying mechanisms remain undetermined. Using a combination of subordinate species removal and summer drought, we show that soil processes play a critical role in community resistance to drought. Interestingly, subordinate species drive soil microbial community structure and largely mitigate the effect of drought on grassland soil functioning. Our results highlight subordinate species in shifting the balance within the phospholipid fatty acid ( PLFA ) microbial community towards more fungal dominance. Fungal communities promoted by subordinate species were more resistant to drought and maintained higher rates of litter decomposition and soil respiration. These results emphasize the important role of subordinate species in mitigating drought effects on soil ecosystem functions. Reciprocal effects between fungi and subordinate species explain also how subordinate species better resisted to drought conditions. Our results point to a delayed plant–soil feedback following environmental perturbation. Additionally, they extend the diversity insurance hypothesis by showing that more diverse communities not only contain species well adapted to perturbations, but also species with higher impacts on soil microbial communities and related ecosystem functions.

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