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290012 PR Wetland Analysis (2024S)
Continuous assessment of course work
Labels
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
- Registration is open from We 07.02.2024 08:00 to Tu 20.02.2024 08:00
- Deregistration possible until Su 31.03.2024 23:59
Details
max. 20 participants
Language: English
Lecturers
Classes (iCal) - next class is marked with N
- Wednesday 06.03. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 13.03. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 20.03. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 10.04. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 17.04. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Thursday 25.04. 14:00 - 15:30 Seminarraum 2A310 3.OG UZA II
- Wednesday 08.05. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 15.05. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 22.05. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 29.05. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 05.06. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 12.06. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 19.06. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
- Wednesday 26.06. 09:45 - 11:15 Seminarraum 2A310 3.OG UZA II
Information
Aims, contents and method of the course
Assessment and permitted materials
Presentation of course topics, submissions, small self-chosen project of measuring GHG in teams of 2-3 people + presentation of first results + scientific documentation, participation
Minimum requirements and assessment criteria
20% Presentation of course topics (incl. discussions)
30% Submission of exercises (10% each)
50% Project (presentation and scientific report of self-chosen project)Key:
≥ 87% = „Very good“
≥ 75% = „Good“
≥ 63% = „Satisfactory“
≥ 50% = „Sufficient“
< 50% = „Deficient“
30% Submission of exercises (10% each)
50% Project (presentation and scientific report of self-chosen project)Key:
≥ 87% = „Very good“
≥ 75% = „Good“
≥ 63% = „Satisfactory“
≥ 50% = „Sufficient“
< 50% = „Deficient“
Examination topics
Reading list
Aubinet, Marc. Eddy Covariance : A Practical Guide to Measurement and Data Analysis. Dordrecht [u.a.]: Springer, 2012. Springer Atmospheric Sciences. Web.Bedford, Leopold, D. J., & Gibbs, J. P. (2013). Wetlands Ecosystems. In Encyclopedia of Biodiversity (Second Edition, pp. 384–402). Elsevier Inc. https://doi.org/10.1016/B978-0-12-384719-5.00314-2Chapin, F. Stuart, Matson, P. A, Mooney, Harold A, Matson, Pamela A., Mooney, Harold A. Principles of terrestrial ecosystem ecology
DOI 10.1007/b97397Butterbach-Bahl, Sander, B. O., Pelster, D., & Díaz-Pinés, E. (2016). Quantifying greenhouse gas emissions from managed and natural soils. In Methods for Measuring Greenhouse Gas Balances and Evaluating Mitigation Options in Smallholder Agriculture (pp. 71–96). https://doi.org/10.1007/978-3-319-29794-1_4Introduction of a guideline for measurements of greenhouse gas fluxes from soils using non-steady-state chambers
Martin Maier, Tobias K. D. Weber, Jan Fiedler, Roland Fuß, Stephan Glatzel, Vytas Huth, Sabine Jordan, Gerald Jurasinski, Lars Kutzbach, Klaus Schäfer, Daniel Weymann, Ulrike Hagemann
https://doi.org/10.1002/jpln.202200199Mitsch, W.J., & Gosselink, J.G. (2015): Wetlands, 5th edition, Wiley, 747 p.Yu, Hiscox, A., & DeLaune, R. D. (2013). Greenhouse Gas Emission by Static Chamber and Eddy Flux Methods. In Methods in Biogeochemistry of Wetlands (pp. 427–437). American Society of Agronomy and Soil Science Society of America. https://doi.org/10.2136/sssabookser10.c22
DOI 10.1007/b97397Butterbach-Bahl, Sander, B. O., Pelster, D., & Díaz-Pinés, E. (2016). Quantifying greenhouse gas emissions from managed and natural soils. In Methods for Measuring Greenhouse Gas Balances and Evaluating Mitigation Options in Smallholder Agriculture (pp. 71–96). https://doi.org/10.1007/978-3-319-29794-1_4Introduction of a guideline for measurements of greenhouse gas fluxes from soils using non-steady-state chambers
Martin Maier, Tobias K. D. Weber, Jan Fiedler, Roland Fuß, Stephan Glatzel, Vytas Huth, Sabine Jordan, Gerald Jurasinski, Lars Kutzbach, Klaus Schäfer, Daniel Weymann, Ulrike Hagemann
https://doi.org/10.1002/jpln.202200199Mitsch, W.J., & Gosselink, J.G. (2015): Wetlands, 5th edition, Wiley, 747 p.Yu, Hiscox, A., & DeLaune, R. D. (2013). Greenhouse Gas Emission by Static Chamber and Eddy Flux Methods. In Methods in Biogeochemistry of Wetlands (pp. 427–437). American Society of Agronomy and Soil Science Society of America. https://doi.org/10.2136/sssabookser10.c22
Association in the course directory
(MG21 APF ECOLSPEC) (MA-ERD-W4.10)
Last modified: Fr 08.03.2024 10:46
- to understand the different greenhouse gas measurement techniques
- to get practical experience of taking GHG measurements applying the closed chamber technique
- to get practical experience of taking GHG measurements applying the eddy covariance technique
The course will be taught through presentations, practical exercises, project works and a field excursion to a nearby GHG measurement station (Lake Neusiedl). You will gain practical experience of working on GHG measurements and data and we hope that you will gain ideas for your self-chosen project.