Streptomyces enrichment in roots during drought is uncoupled from plant benefit and is driven by host suppression of iron uptake and immunity
Summary
Drought reshapes the plant root microbiota, yet the mechanistic drivers and consequences of this observation remain unclear. We discovered that suppression of host immunity and iron homeostasis is required for Streptomyces enrichment in roots during drought across diverse soils. Genetic and physiological manipulation of these host pathways confirmed their requirement in modulating Streptomyces root enrichment. Drought-induced suppression of iron uptake was conserved across the ∼160 mya mon
Content
# Streptomyces enrichment in roots during drought is uncoupled from plant benefit and is driven by host suppression of iron uptake and immunity
*Published: 2026 May 8*
Drought reshapes the plant root microbiota, yet the mechanistic drivers and
consequences of this observation remain unclear. We discovered that suppression
of host immunity and iron homeostasis is required for Streptomyces enrichment in
roots during drought across diverse soils. Genetic and physiological
manipulation of these host pathways confirmed their requirement in modulating
Streptomyces root enrichment. Drought-induced suppression of iron uptake was
conserved across the ∼160 mya monocot-eudicot divergence. Some Streptomyces
strains enhanced plant growth and rescued iron uptake under drought. These
benefits were uncoupled from Streptomyces root enrichment. They were instead
shaped by intra-Streptomyces antagonism. We propose a two-step model:
drought-driven downregulation of host iron and immune pathways enriches
Streptomyces, while intra-genus dynamics fine-tune strain-level assembly and
functional outcomes. Our data refine the idea that Streptomyces are enriched in
roots during drought in response to a plant "cry for help" and consequently
contribute to the alleviation of this abiotic stress.
DOI: 10.1016/j.cell.2026.04.027