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Microbial Resource Technologies for Sustainable Development

Forfatter: info mangler
Bog
  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Microbial Resource Technologies for Sustainable Development describes the production and uses of microbial cells and metabolites and reviews the microbial resource technologies associated with providing sustainable solutions options in future endeavors in managing microbial resources. The book includes the recent development and scientific demonstrations of microbial technologies in the relationship between microbes and the environment, focusing on its effective resource management to achieve agricultural and environmental sustainability. Topics covered in the book include recent applications and exploration of the development of Marine Microbial Technologies for marine resources, soil microbes as biopolymers for enhancing mechanical properties of soil, and more. Other topics discussed include rhizosphere microbiome for enhancement of the cereal crops, endophytic fungal communities in crops grown under different farming systems, microbiota of termite for lignocellulose breakdown, microbial consortium technologies to produce biomethane from waste effluents, microbial technologies for sustainable food additives 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.

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Detaljer
Størrelse og vægt
  • Vægt950 g
  • coffee cup img
    10 cm
    book img
    19,1 cm
    23,5 cm

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    Evolution Distribution Biogas Competition Nanotechnology Cooperation Environment Enzymes Fungi Genetic engineering Life sciences Microorganisms Nanoparticles. Bioremediation Bioactive compounds Microbial diversity Fossil fuel Bioaccumulation Antibiotics Fermentation Proteins Bacteria Water quality Soil fertility Agriculture Treatment Lignocellulose Pollutants Biopolymers Green manuring Agricultural productivity Biotechnology Vinegar Biofertilizers Biotransformation Environmental pollution Rhizosphere Microbial fuel cells Crop rotation Microbes Cellulase Cellulases Metagenomics Plant growth-promoting rhizobacteria Microbiota Proteolysis Natural clean Biological Biofertilizer Microbial Biofuel Plant growth promotion Green Synthesis Bioprocessing Microbiome Diversification Organic Waste Stress tolerance Primer Cereal crops Functional properties Applications Microbial Symbionts Lignocellulosic Bioethanol Microorganism Biological Pretreatment Environmental factor In-Situ Soil properties Microbial cultures Biocontrol Microbial Resources Degradation Nutrient cycle Hydrocarbon Thermophiles Plant growth Biosorption Nutrient uptake Biomethane Acetic acid bacteria Renewable Sources Preservatives Organic Carbon MNP Microbial Consortia Hemicellulases Extracellular Polymeric Substances Bioactive peptides Colorants Anode respiring bacteria biodesulfurization Bio compost Chromium Toxicity Continuous fermentation Biocurrent Biodetoxification Fungal biomass Fungal Endophytes Hydrodesulfurization Hybrid nanomaterial Dibenzothiophene Ethanol bioconversions Electrigens Flavorings Metabolic Interaction Fungal cellulases Microbes efficiency Microbial nanoparticles synthesis Microbiological Contamination Microbial electrolysis cells PGPRs action mechanism Sustainable Nanotechnology Termite gut waste effluents
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