U n i w e r s y t e t Ś l ą s k i w K a t o w i c a c h, u l. B a n k o w a 1 2, 4 0-0 0 7 K a t o w i c e, h t t p : / / w w w. u s. e d u. p l w w w. e c o e t n o. u s. e d u. p l Faculty and level of studies: second year of Ethnology Module syllabus: Ecological basis for natural environment preservation Module code: of module variant (optional): ---- 1. General information Module coordinator Academic year Semester Form of studies The way of providing final module assessment (edyta.sierka@us.edu.pl) Winter Full-time The average of a final test grade (40%), e-learning quizzes (10%) and final presentation (50%). One absence during the classes encompassing 3 hours of lecture and 3 hours of practical classes is acceptable. 2. Description of courses and student work Lecture Tutor Classes content 12-AK-EK-02-S2-2EPO_fs_1 The lectures enable to learn the rules of natural environment as a basis for protection and preservation for future generations. Students are supposed to learn basic ecological concepts and gain knowledge connected with the following issues: 1. Systemic approaches towards natural environment. 2. Ecosystem types and services. 3. Biological diversity, ways of its assessment and its meaning for ecosystems functioning. 4. Ecological meaning of nature resources. 5. Direct and indirect natural environment elements transformations- causes and effects. 6. Global changes and natural environments. 7. Ecological indicators of natural environment condition. 8. Restoring, revitalization, the chances of ecosystems regeneration. Strona 1/5
9. The ways of minimalizing the influence of chosen types of projects on the environment. 10. Lifestyles and the natural environment. Methods for teaching Number of instructive hours (contact) Number of hours of unassisted student work Description of student work Classes organization Obligatory literature Providing and problem lecture with the use of e-learning 15h 25 h Apart from the contact classes, student is also obliged to familiarize with indicated compulsory texts. One instructive hour per week (according to the schedule: www. weinoe.us.edu.pl) Mackenzie A, Ball A. S. i S. R. Virdee 2000. Krótkie wykłady. Ekologia. Wydawnictwo Naukowe PWN Symonides E. 2008. Ochrona przyrody. Wydawnictwa UW. Supplementary literature Isbell F.I., Wilsey B.J. 2011. Increasing native, but not exotic, biodiversity increases aboveground productivity in ungrazed and intensely grazed grasslands. Oecologia. 165, pp. 771 781. Raport "Stan środowiska w Polsce". 2014. Biblioteka Monitoringu Środowiska. Inspekcja Ochrony Środowiska, http://www.gios.gov.pl Classes website ----------------- Practical classes Tutor Classes content _fs_2 During practical classes the following issues will be explained and analyzed: 1. Historic use of ecosystems- the analysis of needs in the development of human civilization. 2. Methods of specifying and measuring biological diversity. 3. The identification of ecosystems on the example of natural and shaped by man ecosystems. 4. The analysis of renewable fuels potential. 5. The change of climatic conditions of the Upper Silesia region in the light of Strona 2 z 5
global warming. 6. The evaluation of the condition of the environment e.g. rivers with the use of biological indicators. 7. Ecological indicators of natural environment conditions. 8. Environmental effects of technical, biological and spontaneous restoring. 9. Identification of environmental influences a list of minimalizing activities. Case study. 10. Global changes and natural environment functioning. Methods for teaching Number of instructive hours (contact) Number of hours of unassisted student work Description of student work Classes organization Obligatory literature Group division and individual work, the analysis of specific cases, the talk. 15 h 25 h Apart from instructional classes, student is also obliged to work on indicated compulsory reading; work on presentation; preparing the presentation; 1 instructive hour per week (according to the schedule: www. weinoe.us.edu.pl) Symonides E. 2008. Ochrona przyrody. Wydawnictwa UW. Winfree R. 2013. Global change, biodiversity, and ecosystem services : What can we learn from studies of pollination? Basic and Applied Ecology. 14 (6), pp. 453 460. Weiner J. 2003. Życie i ewolucja biosfery. Wydawnictwo naukowe PWN. Supplementary literature Raport "Stan środowiska w Polsce". 2014. Biblioteka Monitoringu Środowiska. Inspekcja Ochrony Środowiska, http://www.gios.gov.pl Classes website ----------------- 3. Description of the ways of verifying educational module effects Final test _w_1 Strona 3 z 5
Classes code/s Person/s carrying out verification Substantial requirements Assessment criteria Uniwersytet Śląski w Katowicach, ul. Bankowa 12, 40-007 Katowice, http://www.us.edu.pl _fs_1 Student who finishes the module, has acquired knowledge about chosen issues concerning ecological basis for natural environment preservation. He/she knows and understands key terms based on raised problems. A final test w in the form of a test selection -30 questions (4 answers with one key, for which a student can gain 1 point.) Individual grades are obtained according to the developed scale: 27-30 very good 23-26 good 19-22 sufficient 0-18 insufficient Student passes when he/she realizes e-learning classes and passes at least 2 out of 4 parts of the course for 30%. Process of verification Additional information Written final test, duration up to 45 minutes. Presentation _w_2 Classes code/s Person/s carrying out verification Substantial requirements Assessment criteria _fs_2 Student prepares a presentation encompassing the issues brought up during the practical classes, completed with the content acquired during an independent work with literature. Grading the multimedia presentation regarding natural environment preservation on the basis of gathered information according to the developed scale: 9-10 very good 6-8 good Strona 4 z 5
5-3 sufficient 0-4 insufficient Presentation will be graded on the basis of: - the way of its graphic preparation and presentation (max. 3 points), - the use of accessed data (max. 3 points) - identification of environmental threats (max. 2 points) - proper, ecological interference (max. 2 points) Process of verification Additional information Student works in a group. He/she is also assessed during the discussion after other students projects. Strona 5 z 5