NIGK17007U Advanced Soil Science and Isotope Geochemistry
MSc Programme in Environmental Science
MSc Programme in Geography and Geoinformatics
MSc Programme in Geography and Geoinformatics with a minor subject
The course teaches state-of-the art principles and methodologies interfacing soil science and the field of isotope geochemistry. The course emphasizes the connection between fundamental processes in soils (C, N cycling), vegetation and application of stable isotope techniques to unravel the link between terrestrial processes and atmosphere.
Accordingly, the course focuses on modern concepts of soil biogeochemical functioning and explains advanced state-of-the art experimental and technical approaches to unravel soil processes to understand soil functions in natural and managed soils. The course has a particular focus on application of advanced stable isotope analysis as tracers of geochemical and biological processes in terrestrial systems as a mean to establish knowledge on the interaction between physical and chemical environment and human activity.
The course includes practical exercises with soil and air isotopic analysis.
- Terminology, notations and analysis in stable isotope work
- Isotope fractionation; kinetic and equilibrium reactions; natural abundance and tracers; mixing models
- Stable isotope analysis of bulk soil, soil elements and gases
- Abundance and characteristics of elements/compounds that undergo isotopic fractionation in soil environment
- Understanding the cycling of Carbon and Nitrogen in soils (C and N-cycles; stocks; atmosphere)
- Methods to determine different C and N fractions
- Conceptual understanding of different soil organic matter pools
- Analytical methods to study soil processes in-situ in the rhizosphere and detritusphere
- Linking soil physical structure to plant and microbial activity
- Apply correct scientific terms and definitions
- Apply and solve algebraic equations involving isotopic two- and three-end mixing models
- Identify and describe prerequisites for applications of stable isotope techniques in terrestrial settings (H, C, N, O, S)
- Identify and describe key processes that can be investigated by isotope techniques.
- Identify and apply methods to determine different C and N pools in soils
- Apply methods to determine C and N in differently stabilized soil fractions and calculate C and N distribution and stocks
- Formulate proposals to identify and solve complex geographical problems and questions related to impacts on soil functionality and Earth systems (climate change, land use, management)
- Evaluate and discuss demands and prerequisites for accurate isotopic analysis in various sample materials
- Evaluate and discuss experimental and analytical approaches to study soils as a complex system
- Evaluate, discuss and explain scientific publications to fellow students and scientists
Please see Absalon.
- Theory exercises
Teh course has substantial practical content, and feedback is given orally during the course based on the performance of students during the practical field- and laboratory activities.
An oral feedback is given in response to the written assignement.
- 7,5 ECTS
- Type of assessment
- Oral examination, 20 minWritten assignment, OngoingThe written assignment is prepared during the course and must be handed in prior to the exam week. The oral exam uses the written assignment as its point of departure. It includes the titles listed in the officially approved reading list. A combined grade is given after the oral exam.
- Without aids
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners.
Resubmission of written assignment, handed in prior to the re-examination week.
Twenty minutes oral examination. The oral exam uses the written assignment as its point of departure. It includes the approved reading list. A combined grade is given after the oral exam.
Criteria for exam assesment
Please see learning outcomes