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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
Students will be able to comprehensively assess the condition of a particular ecosystem and then propose the right experimental approach to obtain relevant data for the development and implementation of bioremediation processes. Students will be able to compare the benefits and risks of different types of biotechnological interventions and to choose the optimal solution for the restoration of the damaged ecosystem. Furthermore, he will be able to control the selected bioprocess, monitor and critically evaluate its effectiveness. |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
R: Moo-Young M., Comprehensive Biotechnology, 2nd edition, Vol. 6, 2011, Elsevier, ISBN: 9780080885049 R: Rehm, H. J. and Reed, G., Biotechnology. a multi-volume comprehensive treatise, 2nd edition, Vols. 11A-11C, 1999, Weinheim VCH, ISBN: 9783527283217 R: Vallero D.A., Environmental Biotechnology, 2010, Academic Press, ISBN: 9780123750891 A: Michael T. Madigan, Kelly S. Bender, Daniel H. Buckley, W. Matthew Sattley, David A. Stahl: Brock Biology of Microorganisms; Pearson 2017. ISBN: 9780134261928 A: Eugene L. Madsen: Environmental Microbiology: From Genomes to Biogeochemistry; John Wiley & Sons 2011. ISBN: 9781444357981 |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
https://clu-in.org/ https://www.epa.gov/ https://frtr.gov/ http://aem.asm.org/ http://umbbd.ethz.ch/ |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
Introductory lectures and subsequent seminars, individual preparation of selected topics and their presentation. |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
The course covers a wide range of biotechnological processes used to stabilize / recover different types of ecosystems. The first part focuses on the general principles applicable to all types of these processes. Attention is paid in particular to: a) understanding of the relationships between the biological and abiotic components of ecosystems, b) the utilization of different types of metabolism of organisms under different physicochemical conditions, c) the existence and development of metabolic pathways for the decomposition of important groups of xenobiotics, d) enhancing the biodegradation activity of current microorganisms and the development of new strains, e) mathematical models for the description of bioremediation processes. The second part is devoted to a comprehensive overview of individual bioremediation processes for the decontamination of various types of matrices (air, water, soil). According to each student's focus, case studies are discussed in detail. Besides technological solution is carried their assessment of the economic and legislative point of view. |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
none |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
none |
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Last update: Masák Jan prof. Ing. CSc. (16.08.2018)
Defense individually processed topic. Oral exam. |
Coursework assessment | |
Form | Significance |
Oral examination | 100 |