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280213 VO PF2 Introduction in Environmental Biology (NPI) (2019W)
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An/Abmeldung
Hinweis: Ihr Anmeldezeitpunkt innerhalb der Frist hat keine Auswirkungen auf die Platzvergabe (kein "first come, first served").
Details
max. 30 Teilnehmer*innen
Sprache: Englisch
Prüfungstermine
- Mittwoch 29.01.2020 16:15 - 17:15 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 05.02.2020 16:15 - 17:15 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 12.02.2020 16:15 - 17:15 Seminarraum Geochemie 2C193 1.OG UZA II
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
preliminary meeting 02.10.2019 16:15, Seminarraum Geochemie 2C193 UZA II
- Mittwoch 02.10. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 09.10. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 16.10. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 23.10. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 30.10. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 06.11. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 13.11. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 20.11. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 27.11. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 04.12. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 11.12. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 08.01. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 15.01. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
- Mittwoch 22.01. 16:15 - 18:30 Seminarraum Geochemie 2C193 1.OG UZA II
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
Art der Leistungskontrolle und erlaubte Hilfsmittel
Schriftliche Prüfung.
8 gleichwertige Fragen
50% zum Bestehen
8 gleichwertige Fragen
50% zum Bestehen
Mindestanforderungen und Beurteilungsmaßstab
Learning outcome: Students are able to recognize plants and microorganisms as
key players of element cycles and ecosystem scale processes. They can explain major physiological processes, such as CO2- and N2-fixation, or energy generation by respiration or fermentation. They are able to relate these cellular processes to the ecosystem scale and are able to identify the various controls over biological production and decomposition processes. Upon successful completion of the module, students can view the above described processes from an ecological perspective, specifically under the aspects of spatial and temporal variations of ecosystems, organismic interactions and community composition.
key players of element cycles and ecosystem scale processes. They can explain major physiological processes, such as CO2- and N2-fixation, or energy generation by respiration or fermentation. They are able to relate these cellular processes to the ecosystem scale and are able to identify the various controls over biological production and decomposition processes. Upon successful completion of the module, students can view the above described processes from an ecological perspective, specifically under the aspects of spatial and temporal variations of ecosystems, organismic interactions and community composition.
Prüfungsstoff
Lecture series
Literatur
Will be provided by the lecturers
Zuordnung im Vorlesungsverzeichnis
Letzte Änderung: Sa 02.04.2022 00:25
Cell theory incl. Cell cycle
Water, Transport and Metabolism
Evolution
Photosynthesis
Respiration
Biodiversity in soils (Prokaryotes and Fungi)
Protein synthesis, Evolution, Phylogeny and Taxonomy
Protists, Plants and Animals
Secondary metabolites
Nitrogen
Phosphorus and Sulfur
Ecology