It focuses on plant-microbe interactions related to bioremediation and plant growth promotion and provides insights into various fields such as genomics, metagenomics, proteomics, bioinformatics and other high-level analyzes environmental diseases. The frequent use of chemicals (pesticides and fertilizers) and the impact of manufacturing processes on microbial diversity indicate a potential impact on the microbial biodiversity of ecosystems. This is an ideal location for current trends and future developments in PGPR with bioremediation potential. It also provides a better understanding of the genetics of microbial biodegradation and various remedial measures that can help improve the natural environment.
We help readers find sustainable ways to clean up the environment and improve agriculture.
We provide a systematic overview of the role of PGPR in the selection and preparation of potential PGPR microbial inoculum for bioremediation, biodegradation and plant growth.
We demonstrate the importance of PGPR in bioremediation of potentially hazardous and novel compounds while maintaining sustainable agriculture.
We highlight the latest new methods for biodegradation of organic chemicals based on PGPR and highlight significant developments and challenges associated with the process.

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