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Lecturer(s)
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Course content
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1. Princiles of biological evolution. Relations between chemical and biological evolution. 2. Evolution teory - historical overview. 3. Interactions: evolution - phylogeny - ontogeny. 4. Molecular evolution. 5. Cellular and cubcellular (organellar) evolution. 6. Deterministic and stochastic models of population processes. 7. Speciation. 8. Natural selection. Fisher´s theoreme. 9. Role of mutation, migration and selection in evolution. 10. Darwinism and neodarwinian concenptions of evolution. 11. Genetic drift. Theory of (near) neutral selection. 12. Origin of live vs evolution. 13. Evolution (theory) vs creationism (theory). 14. Application of evolution biology in praktice.
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Learning activities and teaching methods
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unspecified
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Learning outcomes
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The aim of the course is to provide information on microevolution and macroevolution, principles, mechanisms and strategies of the biological systems evolution, origin of life, evolution theories, evolution vs creation hypotheses and theories, philosophical and methodological aspects of the evolution. Introduction to Biology or Cellular and General Biology.
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Prerequisites
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unspecified
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Assessment methods and criteria
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unspecified
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Recommended literature
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Darwin Ch. O vzniku druhů přírodním výběrem.. Praha, 1953.
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Dawkins R. Sobecký gen. Mladá Fronta Praha,. 1998.
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Dostál P. a kol. Historický vývoj organismů.. UK Praha, 2004.
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Flegr J. Evoluční biologie.. Academia Praha, 2005.
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Margulisová L. Symbiotická planeta.. Academia Praha, 2004.
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Markoš A. Povstávání živého tvaru.. Vesmír Praha, 1998.
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Rosypal S. a kol. Nový přehled biologie.. 2003.
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Rosypal S. Fylogeneze, systém a biologie organismů.SPN Praha: 744pp. 1992.
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Zrzavý J., Storch D., Mihulka S. Jak se dělá evoluce.. Paseka Praha, 2004.
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