Course Schedule

Start > Leuphana Bachelor (B.A./B.Eng./B.Sc./LL.B.) -> Major Environmental and Sustainability Studies (ab Studienbeginn WiSe 17/18) -> Practices of Natural Sustainability Science

Lehrveranstaltungen

Global Change Biology and Macroecology (Seminar/Übung)

Dozent/in: Thorsten Aßmann, Swantje Grabener

Termin:
 wöchentlich | Montag | 12:15 - 13:45 | 13.10.2025 - 30.01.2026 | C 13.107 Labor
Einzeltermin | Sa, 25.10.2025, 08:15 - Sa, 25.10.2025, 15:45 | C 13.107 Labor
Einzeltermin | So, 26.10.2025, 08:15 - So, 26.10.2025, 15:45 | C 13.107 Labor
Einzeltermin | Sa, 15.11.2025, 08:15 - Sa, 15.11.2025, 15:45 | C 13.107 Labor
Einzeltermin | So, 16.11.2025, 08:15 - So, 16.11.2025, 15:45 | C 13.107 Labor

Inhalt: Struktur und Dynamik von Verbreitungsgebieten Umweltparameter, insb. des Klimas, als Voraussetzung für die Verbreitung von Populationen, Arten und Lebensgemeinschaften Einsatz molekulargenetischer Werkzeuge zur Rekonstruktion der geschichte von Verbreitungsgebieten (Phylogeographie) Artenreichtum, Regelhaftigkeiten, Diversitätsgradienten (ökologische Biogeographie) globale Extinktionsmuster, Klimawandel, Landnutzungsveränderung und Naturschutz Vorhersagen von Verbreitungsgebieten unter den Bedingungen des Klimawandels

Practices in Chemistry Towards Sustainability - Exercise (Seminar/Übung)

Dozent/in: Ann-Kathrin Amsel

Termin:
 wöchentlich | Dienstag | 08:15 - 11:45 | 13.10.2025 - 30.01.2026 | C 13.120 Labor
wöchentlich | Dienstag | 08:15 - 11:45 | 13.10.2025 - 30.01.2026 | C 13.208 Labor

Inhalt: The planetary boundary for novel entities has been exceeded due to the global increase in the production, use of chemicals and lack of capacities for their hazard assessment. Furthermore, some chemicals have adverse side effects on humans and the environment due to their environmental persistence, bioaccumulation potential and (eco)toxicity. In this seminar and exercise, different concepts and tools in green and sustainable chemistry for the design and assessment of chemicals are introduced to discuss how chemistry can contribute to sustainable development. Experimental and computer-based methods are applied to demonstrate the advantageous possibilities of their combination in the assessment of chemicals but also challenges on the way to sustainability. Concepts: • Benign by Design • 12 principles of green chemistry • Key characteristics of sustainable chemistry Laboratory techniques: • Ion chromatography • Solid Phase Extraction • LC-MS-MS • NMR spectroscopy • UV/vis spectroscopy • Melting point Tools & computer-based methods: • Data set creation and analysis (e.g. Clustering) • QSAR • ChemSelect • Green Chemistry Metrics