NFYK13000U Climate Change Mechanisms and Tipping Points
Volume 2014/2015
Education
MSc Programme in Climate
Change
MSc Programme in Agriculture
MSc Programme in Agriculture
Content
Introduction to the fundamental physical and bio-geo-chemical mechanisms defining the climate and climate variations on Earth.
- Introduction to the fundamental processes in the climate system.
- Energy balance considerations.
- The physics of the greenhouse (atmospheric) effect.
- The concepts of radiative forcing, feedback and climate sensitivity.
- Different types of forcing: Direct and indirect solar forcing, long wave forcing (i.e. greenhouse gases), the direct and indirect forcing related to aerosols and atmospheric chemistry.
- The most important fast feedbacks (water vapour, snow-albedo, lapse rate, high cloud, low cloud).
- Climate drivers or feedbacks? A discussion of forcing versus longer term feedbacks involving the ocean circulation and the ice sheets.
- The role of oceanic and terrestrial carbon cycles (feedbacks and/or forcing).
- An overview of the role of the cryosphere in climate feedbacks.
- The processes behind so-called tipping elements.
Learning Outcome
After having completed the course the student should have an overview of the physical and bio-geo-chemical mechanisms behind climate variations/changes on Earth. More specifically the student should be able to
Knowledge
- Understand the nature of the globally averaged energy-flows.
- Understand the nature and role of the greenhouse effect.
- Account for the concepts of radiative forcing, climate feedbacks and climate sensitivity and be able to perform simple exercises involving these concepts.
- List the most important climate drivers and feedback mechanisms operating on different time scales and to separate climate drivers from climate feedbacks.
Skills
- Apply the relevant scientific terminologies correctly.
- Present the results of an analysis or exercise in a well-structured, logical, coherent and scientifically correct form.
Competences
- Provide qualified contributions to discussions on climate change mechanisms.
Literature
Will be annouced in Absalon
Teaching and learning methods
Lectures and theoretical
exercises
Workload
- Category
- Hours
- Exam
- 1
- Lectures
- 35
- Preparation
- 128
- Theory exercises
- 42
- Total
- 206
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Exam
- Credit
- 7,5 ECTS
- Type of assessment
- Oral examination, 25 minutes25 minutes oral examination in unknown question with 25 minutes preparation time.
- Aid
- All aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners.
- Re-exam
- 25 minutes oral examination in unknown question with 25 minutes preparation time.
Criteria for exam assesment
The grade 12 is given for the excellent performance fulfilling the learning outcome of the course with few or no important misses.
Course information
- Language
- English
- Course code
- NFYK13000U
- Credit
- 7,5 ECTS
- Level
- Full Degree Master
- Duration
- 1 block
- Placement
- Block 3
- Schedule
- C (Mon 13-17 + Wednes 8-17)
- Course capacity
- No limitations
- Continuing and further education
- Study board
- Study Board of Geosciences and Management
Contracting department
- The Niels Bohr Institute
Course responsibles
- Anders Svensson (2-63754270646b306d7730666d)
Saved on the
03-12-2014