"Microbial Consortia"—groups of microorganisms—can do amazing feats. The field of agriculture might greatly benefit from the usage of microorganisms. Furthermore, combining them all makes them more effective. They would provide further advantages through their respective and reciprocal metabolic processes. Our goal is to separate a few possible microorganisms with various characteristics, such as the capacity to produce indole-acetic acid, mobilize potash, solubilize phosphate, and exhibit siderophore activity. These isolates could be used to create microbial consortia and formulations that work well as biofertilizers to progress the sector of agriculture. When attached to seeds, plant surfaces, or soil, biofertilizer—also known as bio-compost—contains living microorganisms that colonize the rhizosphere, or inside of the plant, and promote development by increasing the host plant's access to or supply of vital nutrients. Biofertilizers are supplements made using the standard processes of solubilizing phosphorus, obsessing over nitrogen, and combining chemicals that promote plant growth. As plants develop, soil microbial communities engage with them in the plant rhizosphere. They also interact more indirectly through plant litter, which offers resources and habitat to a wide variety of soil species.