Applied Ecosystem Ecology
The central idea of the course is to study the mechanisms and processes that control ecosystem functioning via interactions between organisms, the environment and human activities. Using a system ecology approach we will analyze systems from the global scale through the ecosystem to the scale of the soil microenvironment in order to understand the background of fundamental services that ecosystems provide. We will analyze the influence and impact of human activities including different land uses, pollution and climate change, as well as potential climate change mitigation strategies including bioenergy production. Through theoretical exercises students will learn how to apply the knowledge obtained during the course, e.g. to evaluate various environmental footprints of human activities and perform sustainability assessments of climate change mitigation strategies. The course will end with a course “conference” where student will present and discuss the concepts of planetary boundaries and the sustainable use of global resources. The core elements of the course are:
The functioning of the Globe and the three spheres (atmosphere, hydrosphere, geosphere)
Characteristics and differences of the global cycles of major elements (C, N, P and S) and their interactions
The triangle of organisms, processes and the environment
Succession, diversity and ecosystem functioning and how this affects stability, resistance and resilience of ecosystems
- Evaluation of impacts of human activities through qualitative and quantitative assessment of the flow of energy and matter through ecosystems
MSc Programme in Biology
MSc Programme in Environmental Science
MSc Programme in Nature Management
The aim of the course is to give a solid understanding of ecosystem ecology focusing on the role of living organisms for the flow of matter and energy at various scales and the interactions with human activities and climate change. After completing the course students should be able to:
- Describe the overall global functioning of the three spheres (atmosphere, hydrosphere, geosphere), including the global climate system and global cycling cycling of elements
- Discuss the role of organisms, trophic levels, and diversity for the flow of matter and energy and overall ecosystem functioning
- Describe the interactions between land use, species composition, and ecosystem functioning
- Explain how land-use affects the exchange of biogenic greenhouse gases between atmosphere and biosphere
- Describe the importance of scale for ecosystem functioning from soil aggregate to global scale
- Work quantitatively with ecosystem functioning, environmental impacts of different land-uses, and with sustainability assessments of climate change mitigation strategies
- Analyze the diversity of the main groups of organisms and its relation to functioning of the environment
- Analyze how different biomes have different conditions and therefore different threats to their optimal functioning
- Formulate aims and guiding principles for the use and protection of ecosystems, their functioning and biotic composition
- Evaluate the effect of human activities on the environments and their functions to provide services to the surroundings and to the human society
- Analyze, put into perspective, and criticize original research papers and reports
- Perform effective written and oral presentations of acquired knowledge and ideas
Teaching will be organized in topical modules, each subdivided into lectures, theoretical exercises, paper presentations/discussions, field/lab demonstrations, and project work.
Selected scientific papers and book chapters (see Absalon). For general introduction purposes we use Chapin et al., Principles of Terrestrial Ecosystem Ecology.
An introductory course in systems ecology is an advantage but
not a requirement
Academic qualifications equivalent to a BSc degree is recommended.
Oral feedback from teacher and peers at student paper presentations and during exercises. Organised feedback from lecturer's on choice of essay topic. Feedback from teacher and peers (class) on seminar presentation of report and poster.
- 7,5 ECTS
- Type of assessment
Continuous assessmentWritten assignment, 2 hoursStudents hand in and present one essay (group), maximum 20 pages and one poster (individual) during the course. The course is concluded with a 2 hour written examination conducted from home through digital exam.
The essay and the poster, including their presentation, each contribute 25 % on the final grade and the written examination contributes 50 % on the final grade.
- All aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners
Criteria for exam assessment
See learning outcome.
Single subject courses (day)
- Theory exercises
- Field Work
- Course number
- 7,5 ECTS
- Programme level
- Full Degree Master
- Block 3
The number of seats may be reduced in the late registration period
- Study Board of Geosciences and Management
- Department of Geoscience and Natural Resource Management
- Faculty of Science
- Klaus Steenberg Larsen (3-737b7448716f7636737d366c73)
Klaus Steenberg Larsen and invited guest lecturers.
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