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Shifting microbial communities can enhance tree tolerance to changing climates

Cassandra M. Allsup, Isabelle George, Richard A. Lankau

2023Science208 citationsDOI

Abstract

Climate change is pushing species outside of their evolved tolerances. Plant populations must acclimate, adapt, or migrate to avoid extinction. However, because plants associate with diverse microbial communities that shape their phenotypes, shifts in microbial associations may provide an alternative source of climate tolerance. Here, we show that tree seedlings inoculated with microbial communities sourced from drier, warmer, or colder sites displayed higher survival when faced with drought, heat, or cold stress, respectively. Microbially mediated drought tolerance was associated with increased diversity of arbuscular mycorrhizal fungi, whereas cold tolerance was associated with lower fungal richness, likely reflecting a reduced burden of nonadapted fungal taxa. Understanding microbially mediated climate tolerance may enhance our ability to predict and manage the adaptability of forest ecosystems to changing climates.

Topics & Concepts

AdaptabilityBiologyEcosystemClimate changeSpecies richnessEcologyDrought toleranceArbuscular mycorrhizal fungiExtinction (optical mineralogy)Adaptation (eye)Arbuscular mycorrhizalMycorrhizal fungiTaxonInoculationSymbiosisBotanyHorticultureGeneticsPaleontologyBacteriaNeuroscienceEcology and Vegetation Dynamics StudiesMycorrhizal Fungi and Plant InteractionsPlant Water Relations and Carbon Dynamics
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