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751-5101-00L 2 Credits MSC D-USYS
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Biogeochemistry and Sustainable Management

Lecturers & Examiners: Prof. Dr. Werner Eugster, PD Dr. Valentin Klaus
Does not take place this semester.
VVZ CR n/a

Last Updated: 2026-02-05 15:47:24

Abstract

This course focuses on the interactions between ecology, biogeochemistry and management of agro- and forest ecosystems, thus, coupled human-environmental systems. Students learn how human impacts on ecosystems via management or global change are mainly driven by effects on biogeochemical cycles and thus ecosystem functioning, but also about feedback mechanisms of terrestrial ecosystems.

Objective

Students will analyse and understand the complex and interacting processes of ecology, biogeochemistry and management of agroecosystems, be able to analyze large meteorological and flux data sets, and evaluate the impacts of weather events and management practices, based on real-life data. Moreover, students will be able to coordinate and work successfully in small (interdisciplinary) teams.

Content

Agroecosystems play a major role in all landscapes, either for production purposes, ecological areas or for recreation. The human impact of any management on the environment is mainly driven by effects on biogeochemical cycles. Effects of global change impacts will also act via biogeochemistry at the soil-biosphere-atmosphere-interface. Thus, ecosystem functioning, i.e., the interactions between ecology, biogeochemistry and management of terrestrial systems, is the science topic for this course. Students will gain profound knowledge about biogeochemical cycles and greenhouse gas fluxes in managed grassland and/or cropland ecosystems. Responses of agroecosystems to the environment, i.e., to climate and weather events, but also to management will be studied. Different meteorological and greenhouse gas flux data will be analysed (using R) and assessed in terms of production, greenhouse gas budgets and carbon sequestration. Thus, students will learn about the complex interactions of a coupled human-environmental system. Students will work with real-life data from the long-term measurement network Swiss FluxNet. Data from the intensively managed grassland site Chamau will be used to investigate the biosphere-atmosphere exchange of CO2, H2O, N2O and CH4. Functional relationships will be identified, greenhouse gas budgets will be calculated for different time periods and in relation to management over the course of a year.

Resources

Lecture Notes

Handouts will be available on the webpage of the course.

Literature

Will be discussed in class.

Learning Materials (Links)

General Information

Language
English
Levels
MSC
Frequency
Yearly recurring

Examination

Type
graded semester performance
- active participation in class- flipped classroom: read 3 book chapters throughout the semester (wks 2, 4, 12), answer predefined questions, counts 50%- data analyses tasks (n=4) with two short reports (in English) about data analyses (2nd half of semester), counts 50%

Course Components

Type Title Time & Place Hours
lecture with exercise Biogeochemistry and Sustainable Management
Does not take place this semester.
No time listed 2 h weekly

Offered In