Microbial resources for sustainability describes the production and use of microorganisms and metabolites, reviewing the microbial resource technologies related to provide sustainable solutions options in future endeavors in managing microbial resources. This class includes recent development and scientific demonstrations of microbial technologies in the relationships between microorganisms and the environment, focusing on its effective resource management to achieve agricultural and environmental sustainability. Topics covered in this class include recent applications and exploration of soil microbes as biopolymers for enhancing mechanical properties of soil, rhizosphere microbiome for enhancing of the cereal crops, endophytic fungal communities in crops grown under different farming system, microbiota of termite for lignocellulose breakdown, microbial consortium technologies to produce biomethane from waste effulentss, microbial technologies for sustainable food additive production, biological synthesis of the nanoparticles, fungal cellulases, and efficient biofuel and acetic acid production using waste residues with an emphasis on the commercial exploitation of such microbial technologies. Microbial resources for sustainability describes the production and use of microorganisms and metabolites, reviewing the microbial resource technologies related to provide sustainable solutions options in future endeavors in managing microbial resources. This class includes recent development and scientific demonstrations of microbial technologies in the relationships between microorganisms and the environment, focusing on its effective resource management to achieve agricultural and environmental sustainability. Topics covered in this class include recent applications and exploration of soil microbes as biopolymers for enhancing mechanical properties of soil, rhizosphere microbiome for enhancing of the cereal crops, endophytic fungal communities in crops grown under different farming system, microbiota of termite for lignocellulose breakdown, microbial consortium technologies to produce biomethane from waste effulentss, microbial technologies for sustainable food additive production, biological synthesis of the nanoparticles, fungal cells, and efficient biofuel and acetic acid production using waste residues with an emphasis on the commercial exploitation of such microbial technologies.
Pankaj Bhatt, Saurabh Gangola, Dhanushka Udayanga, and Govind Kumar (2021) Microbial technology for sustainable environment. Springer Nature Singapore Pte Ltd.
Pankaj Bhatt, Saurabh Gangola, Dhanushka Udayanga, and Govind Kumar (2021) Microbial technology for sustainable environment. Springer Nature Singapore Pte Ltd.
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