Advanced microbial technology for sustainable agriculture and the environment offers insights on a range of techniques, including genomics, metagenomics, proteomics, bioinformatics, and other high-throughput analyses of environmentally relevant microorganisms, with a focus on plant-microbe interactions in relation to bioremediation and plant growth promotion. The impact of repeated applications of potentially dangerous chemicals (pesticides and fertilizers) and enhanced industrialization processes on microbial diversity indicate the possible harm to microbial biodiversity in ecosystems. This is a fantastic resource for details on present and future advancements in PGPR that may lead to bioremediation.It also gives a full explanation of the genetics of microbial biodegradation and many remediation methods that help the ecosystem be restored.
Teaches readers about farming methods that are both more productive and environmentally friendly.
the choice and creation of optimal PGPR microbial inoculum for biodegradation, plant growth promotion, and bioremediation; and offers a comprehensive description of PGPR’s function in bioremediation.
demonstrates the significance of PGPR in the long-term maintenance of agricultural yield while bioremediating potentially hazardous and relatively innovative pollutants.
explores novel emerging techniques for the PGPR-based biodegradation of dangerous compounds, highlighting the processes’ considerable improvements and challenges.
