With an emphasis on plant-microbe interactions in bioremediation and plant growth promotion, Advanced Microbial Technology for Sustainable Agriculture and Environment offers insights on a range of methodologies, including genomics, metagenomics, proteomics, bioinformatics, and other high-throughput analyses of environmentally relevant microorganisms. The possible threat to microbial biodiversity in ecosystems is highlighted by the effects of expanded industrialization processes and frequent applications of potentially hazardous chemicals (pesticides and fertilizers) on microbial variety. This is a great site for learning about the latest advancements in PGPR and their potential for bioremediation.Furthermore, it provides a thorough grasp of the genetics of microbial biodegradation and several remediation techniques that support the restoration of the natural environment.
Assists readers in discovering environmentally friendly and productive strategies to improve agriculture.
provides a methodical summary of the function of PGPR in bioremediation, as well as the selection and preparation of a possible PGPR microbial inoculum for biodegradation, plant growth promotion, and bioremediation.
demonstrates how crucial PGPR is to the bioremediation of relatively new and possibly dangerous substances while preserving sustainable agricultural yield.
discusses new and developing methods for the PGPR-based biodegradation of hazardous substances and identifies significant advancements and difficulties in these processes.
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