ENVIRONMENTAL BIOTECHNOLOGY

Paper Code: 
BTE-227A
Credits: 
2
Contact Hours: 
30
Objective: 

This course aims to introduce fundamentals of Environmental Biotechnology. The course will introduce major groups of microorganisms and tools in biotechnology and their most important environmental applications. The environmental applications of biotechnology will be presented in detail and will be supported by examples from the national and international literature.

5.00
Unit I: 
Introduction to environment

Introduction to environment; pollution and its control; pollution indicators; waste management: domestic, industrial, solid and hazardous wastes; strain improvement; Biodiversity and its conservation; Role of microorganisms in geochemical cycles; microbial energy metabolism, microbial growth kinetics and elementary chemostat theory, relevant microbiological processes, microbial ecology.

6.00
Unit II: 
Bioremediation

Bioremediation: Fundamentals, methods and strategies of application (biostimulation, bioaugmentation) – examples, bioremediation of metals (Cr, As, Se, Hg), radionuclides (U, Te), organic pollutants (PAHs, PCBs, Pesticides, TNT etc.), technological aspects of bioremediation (in situ, ex situ).

6.00
Unit III: 
Role of microorganisms in bioremediation

Application of bacteria and fungi in bioremediation: White rot fungi vs specialized degrading bacteria: examples, uses and advantages vs disadvantages; Phytoremediation: Fundamentals and description of major methods of application (phytoaccumulation, phytovolatilization, rhizofiltration phytostabilization).

7.00
Unit IV: 
Biotechnology and agriculture

Bioinsecticides: Bacillus thuringiensis, Baculoviruses, uses, genetic modifications and aspects of safety in their use; Biofungicides: Description of mode of actions and mechanisms (e.g. Trichoderma, Pseudomonas fluorescens); Biofertilizers: Symbiotic systems between plants – microorganisms (nitrogen fixing symbiosis, mycorrhiza fungi symbiosis), Plant growth promoting rhizobacteria (PGPR) – uses, practical aspects and problems in application.

6.00
Unit V: 
Biofuels

Environmental Biotechnology and biofuels: biogas; bioethanol; biodiesel; biohydrogen; Description of the industrial processes involved, microorganisms and biotechnological interventions for optimization of production; Microbiologically enhanced oil recovery (MEOR); Bioleaching of metals; Production of bioplastics; Production of biosurfactants: bioemulsifiers; Paper production: use of xylanases and white rot fungi.

ESSENTIAL READINGS: 

• Plant, Gene and crop Biotechnology, M.J. Chrispeel and D.E. Sadava ASPB 2003.
• Textbook of Environmental Biotechnology, P.K Mohapatra, I K International Publications, Mumbai 2006.
• Environmental Chemistry, A.K.De, Willey Eastern Ltd., New Delhi.
• Microbial Ecology- Fundamentals and applications. Ronald. M. Atlas, Richard Bartha. Pearson Education. 2005.
• Environmental Biotechnology – Basic concepts and applications, InduShekhar Thakur, I K International publications. 2006

REFERENCES: 

• Wastewater Engineering- Treatment, Disposal and Resuse, Metcalf and Eddy, Inc., Tata McGraw Hill, Delhi.1999
• Comprehensive Biotechnology, vol.4, M. Moo- Young (Ed-in-chief), Pergamon Press, Oxford. 2004
• Bioextraction and Biodeterioration of Metals (Biology of World Resources. Christine C. Gaylarde (Editor), Hector A. Videla (Editor), Dennis Allsopp (Foreword). Cambridge University Press. 2009
• Handbook of Material Biodegradation, Biodeterioration, and Biostablization. Michalina Falkiewicz-Dulik, Katarzyna Janda Dr., George Wypych. ChemTec Publishing. 2010
• Environmental Biotechnology. Theory and Applications. Gareth M. EvansJudith C. Furlong. Wiley. 2003

Academic Year: 
2023-2024
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