Isolation of Siderophore-Producing Bacteria from Extreme Environments and Their Role in Improving Maize Salinity–Alkalinity Tolerance
Yuanyuan Huang, Yuansheng Xu, Zhe Chen, Xiaomei Dong, Yuxia Mei, Zhufeng Zhang, Min Ren

TL;DR
Scientists found bacteria from extreme environments that help maize grow better in salty and alkaline soils by improving iron uptake and reducing stress.
Contribution
Isolation and characterization of two novel extremophile PGPB strains that enhance maize growth under salinity-alkalinity stress through distinct siderophore types.
Findings
Bacillus toyonensis TRM58010 produces catechol-type siderophores that improve iron availability and root/stem growth in maize under salt stress.
Peribacillus frigoritolerans TRM58009 produces hydroxamate-type siderophores that boost antioxidant enzyme activity and chlorophyll content in maize under stress.
Both strains significantly enhance maize germination, growth, and stress tolerance in saline-alkaline conditions.
Abstract
Soil salinization represents a significant abiotic constraint to global agricultural sustainability. The potential of extremophile plant growth-promoting bacteria (PGPB) to alleviate such stress in maize was investigated in this study. Siderophore-producing PGPB enhance plant growth and improve the rhizosphere microenvironment by increasing nutrient availability and inducing systemic resistance. Two salt-tolerant, high-siderophore-producing PGPB strains, Bacillus toyonensis TRM58010 and Peribacillus frigoritolerans TRM58009, were isolated and identified from soil samples collected on the Pamir Plateau. In this study, we found that B. toyonensis TRM58010 synthesized catechol-type siderophores, which enhanced iron availability for maize in saline–alkaline conditions, thereby improving iron nutrition and directly promoting root and stem growth under salt stress. P. frigoritolerans TRM58009…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Bacterial Genetics and Biotechnology · Plant Growth Enhancement Techniques
