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Identification of a plant endophytic growth‐promoting bacteria capable of inhibiting cadmium uptake in rice

Wei Tian, Le Li, Xiao Xiao, Huili Wu, Yulong Wang, Zhaoyang Hu, Nahmina Begum, Yiping Zou, Laiqing Lou, Ming Chang, Qingsheng Cai

2021Journal of Applied Microbiology17 citationsDOI

Abstract

AIMS: The study aims to identify a novel plant growth-promoting bacteria (PGPB), which contributes to promoting growth and reducing cadmium (Cd) concentration in rice under Cd-contaminated conditions. METHODS AND RESULTS: , capable of producing indole-3-acetic acid, fixing nitrogen and solubilizing phosphate. The result of hydroponic experiment showed that under the control and Cd stress conditions, the dry weight of the Tm02-inoculated rice seedlings increased significantly. Furthermore, under Cd stress, the concentration of Cd in the shoot of the Tm02-inoculated seedlings decreased significantly, while there was no significant difference in Cd concentration between treatment with other eight strains and noninoculated seedlings. The same results were observed in the pot experiment as well, where there was a significantly reduced Cd concentration in rice grains of the Tm02-inoculated rice plants. Tm02 was classified as Pantoea agglomerans through 16S rDNA sequencing. CONCLUSIONS: A novel PGPB strain Tm02 was identified and confirmed that it has the function of promoting rice growth and reducing Cd concentration in rice grain under Cd-contaminated conditions. This strain has the potential to improve rice yield in Cd-contaminated paddy fields. SIGNIFICANCE AND IMPACT OF THE STUDY: This study provides a new example of using PGPB to improve the tolerance of rice to Cd pollution.

Topics & Concepts

Pantoea agglomeransCadmiumInoculationBacteriaBiologyShootHorticultureFood scienceDry weightPantoeaStrain (injury)Botany16S ribosomal RNAAgronomyChemistryGeneticsAnatomyOrganic chemistryPlant-Microbe Interactions and ImmunityPlant Stress Responses and ToleranceChromium effects and bioremediation