ENS247 Introduction to Biology

Faculty of Social Studies
Autumn 2019
Extent and Intensity
2/0/0. 4 credit(s). Type of Completion: zk (examination).
Teacher(s)
Mgr. Kateřina Rezková (lecturer)
Mgr. Pavel Rotter, Ph.D. (lecturer)
prof. RNDr. Hana Librová, CSc. (lecturer)
Guaranteed by
doc. Mgr. Bohuslav Binka, Ph.D.
Department of Environmental Studies – Faculty of Social Studies
Contact Person: Bc. Petra Burišková
Supplier department: Department of Environmental Studies – Faculty of Social Studies
Timetable
Tue 16:00–17:40 U43
Prerequisites
! ENSb1247 Introduction to Biology &&! NOW ( ENSb1247 Introduction to Biology )&&( ENS116 Zoological Review && ENS118 Botanical Review )
ENS116 Zoological Review ENS118 Botanical Review
Course Enrolment Limitations
The course is also offered to the students of the fields other than those the course is directly associated with.
fields of study / plans the course is directly associated with
there are 20 fields of study the course is directly associated with, display
Course objectives
The course is based on and extends secondary school biology. At the end of the course students should be able to conceive of the contemporary biology potentials, of what can be answered employing biological sciences and of what kind of answers they offer based on the selected explained biology phenomena. Furthermore, students should understand environmental issues from biological standpoint so that they are able to adequately participate in such discussions.
Learning outcomes
To identify and summarize current perspectives on the definition and emergence of life. To find the logical relations among processes, which occur in prokaryotic or eukaryotic cells. To explain the meaning of microorganisms in current biosphere and describe it´s importance for human. To identify significant bioindicators in environmental and put their occurence to relation with the degree of environmental loading. To introduce strong and weak sides of current views on evolution and to know the interconnection between some aspects of evolution theory and processes on molecular scale. To take into account trophic relationships and other links between ecosystem members in environmental risk analysis and management. To work critically with biologically oriented literature and to describe the biological nature of some significant environmental causes.
Syllabus
  • 1. Introduction: Why biology for environmentalists? Links to environmental issues.
  • 2. Introduction: What is life?
  • 3. In the beginning: Origin of life and the story of the Earth
  • 4. Microorganisms: their significance and role in actual environmetal issues.
  • 5. Microorganisms: Life all round the world: the origin of multicellularity.
  • 6. Microorganisms: What happens in the cell?
  • 7. Ecology: Biondicators.
  • 8. Ecology: Relations among organisms and their relativity. 9.Introduction to evolutionary biology 1: biological evolution, its specifics, conditions and mechanisms, microevolution (selection, genetic drift and draft, gene flow).
  • 10. Introduction to evolutionary biology 2: macroevolution (speciation, extinction), co-evolution, evolution of man, criticism and defence of evolutionary theories.
  • 11. Genetics, breeding, GMO, synthetical biology, biotechnology.
  • 12. Stress and damage from the biological standpoint. Biological theory of stress. Stress at the cell, organism and ecosystem level. Chemical stress. Actual issues of environmental pollution.
  • 13. Ecology: ecosystem.
Literature
    recommended literature
  • Klouda, P. (2005). Biochemie. Ostrava, Pavel Klouda
  • Markoš, A., Hajnal, L. (2007). Staré pověsti (po)zemské aneb Malá historie planety a života. Pavel Mervart
  • Traavik, T. a Ching, L. L.: Biosafety first - Holistic Approaches to Risk and Uncertainty in Genetic Engineering and Genetically Modified Organisms. Trondheim: Genok, 2007
  • Schrödinger, E. (2004). Co je život? Duch a hmota. K mému životu. Brno, Vutium
  • Funtowicz, S. a Ravetz, J. Uncertainty, Complexity and Post-normal Science. Environmental Toxicology and Chemistry. 1994, 13 (12), 1881-1885
  • Sapp, J.: Genesis: velký příběh biologie. Praha: Academia, 2015
  • Lhotský, J.: Úvod do studia symbiotických interakcí mikroorganismů: nový pohled na viry a bakterie. Praha: Academia, 2015
  • Rádl, E. (2006). Dějiny biologických teorií novověku I a II. Praha, Academia
  • Lhotský, J.: Symbiotický vesmír: biologický horizont událostí. Praha: Academia, 2014
  • FLEGR, Jaroslav. Evoluční biologie. 2., oprav. a rozšíř. vyd. Praha: Academia, 2009, 569 s. ISBN 9788020017673. info
  • DARWIN, Charles and Stanislav KOMÁREK. O vzniku druhů přírodním výběrem. Edited by Hana Marsault, Translated by Emil Hadač - Alena Hadačová. Vyd. 3., V nakl. Academia 2. Praha: Academia, 2007, 579 s. ISBN 9788020014924. info
  • Dějiny biologických teorií novověku. Edited by Anton Markoš - Zdeněk Neubauer - Emanuel Rádl, Translated by Tomá. Vyd. 1. Praha: Academia, 2006, 482 s. ISBN 8020013946. info
  • KAUFFMAN, Stuart A. and Anton MARKOŠ. Čtvrtý zákon : cesty k obecné biologii. Vyd. 1. Praha: Paseka, 2004, 261 s. ISBN 8071856363. info
  • ZRZAVÝ, Jan, David STORCH and Stanislav MIHULKA. Jak se dělá evoluce : od sobeckého genu k rozmanitosti života. Vyd. 1. Praha: Paseka, 2004, 289 s. ISBN 8071855782. info
  • MARGULIS, Lynn. Symbiotická planeta : nový pohled na evoluci. Translated by Zdeněk Urban. Vyd. 1. Praha: Academia, 2004, 150 s. ISBN 8020012060. info
  • CAPRA, Fritjof. Tkáň života : nová syntéza mysli a hmoty. Translated by Jan Pokorný. Vyd. 1. Praha: Academia, 2004, 290 s. ISBN 8020011692. info
  • ROSYPAL, Stanislav. Nový přehled biologie. 1. vydání. Praha: Scientia, 2003, xxii, 797. ISBN 9788086960234. info
  • MARKOŠ, Anton. Tajemství hladiny : hermeneutika živého. Vyd. 2., v Dokořán 1. Praha: Dokořán, 2003, 350 s. ISBN 8086569675. info
  • NEUBAUER, Zdeněk. Biomoc. Vyd. 1. Praha: Malvern, 2002, 272 s. ISBN 8090262864. info
  • DAWKINS, Richard. Slepý hodinář : zázrak života očima evoluční biologie. Praha: Ladislav Horáček - Paseka, 2002, 357 s. ISBN 807185445X. info
  • SÁDLO, Jiří and David STORCH. Biologie krajiny : biotopy České republiky. Vyd. 2. Praha: Vesmír, 2000, 94 s. ISBN 8085977311. info
  • KOMÁREK, Stanislav. Příroda a kultura : svět jevů a svět interpretací, aneb, Jak je to doopravdy. 1. vyd. Praha: Vesmír, 2000, 180 s. ISBN 8085977338. info
  • DAWKINS, Richard. Sobecký gen. 1. vyd. Praha: Mladá fronta, 1998, 319 s. ISBN 8020407308. info
  • Model a analogie ve vědě, umění a filozofii : (sborník příspěvků). Edited by Jiřina Stachová. Vyd. 1. Praha: Filosofia - nakladatelství Filosofického ústavu AV ČR, 1994, 317 s. ISBN 8070070595. info
  • LOVELOCK, James. Gaia : nový pohled na život na zemi. Translated by Jan Edlman. Vyd. 1. Prešov: Abies, 1993, 175 s. ISBN 8088699037. info
Teaching methods
Lectures, discussions, presentation of students, individual preparation of students for some lessons (reading, field exercise, presentation preparation).
Assessment methods
Three parts are assessed equally (for each of the part minimum of 15 points is needed out of 33 points possible, total at least 45 points out of 99 possible): 1) Students preparation and work in the course of the semester (reading, field exercise, presentation, discussion in the lessons), 2) test from the readings and lessons – written choice test, 3) oral exam.
Language of instruction
Czech
Further Comments
The course is taught annually.
Listed among pre-requisites of other courses
The course is also listed under the following terms Autumn 2011, Autumn 2012, Autumn 2013, Autumn 2014, Autumn 2015, Autumn 2016, Autumn 2017, Autumn 2018.
  • Enrolment Statistics (recent)
  • Permalink: https://is.muni.cz/course/fss/autumn2019/ENS247