Ulrike Hiltner: Catalogue data in Autumn Semester 2024 |
| Name | Dr. Ulrike Hiltner |
| Address | Professur für Waldökologie ETH Zürich, CHN G 78 Universitätstrasse 16 8092 Zürich SWITZERLAND |
| Telephone | +41 44 632 57 59 |
| ulrike.hiltner@usys.ethz.ch | |
| URL | http://www.forest-science.org |
| Department | Environmental Systems Science |
| Relationship | Lecturer |
| Number | Title | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|
| 701-1677-00L | Quantitative Vegetation Dynamics: Models from Tree to Globe | 3 credits | 3G | H. Lischke, U. Hiltner, B. Rohner | |
| Abstract | The course introduces basic concepts and applications of dynamic vegetation models at various temporal and spatial scales. Different modeling approaches and underlying principles are presented and critically discussed during the lectures. In the integrated exercise parts, students work in a number of small projects with some of the introduced models to gain practical experience. | ||||
| Learning objective | Students will - be enabled to understand, assess and evaluate the fundamental properties of dynamic systems using vegetation models as case studies - obtain an overview of dynamic modelling techniques and their applications from the individual plant to the global level - understand the basic assumptions of the various model types, which dictate the applicability and limitations of the respective model - be enabled to work with such model types on their own - appreciate the methodological basis for impact assessments of future climate change and other environmental changes on ecosystems. | ||||
| Content | Models of individuals - Deriving single-plant models from inventory measurements - Plant models based on 'first principles' Models at the stand scale - Simple approaches: matrix models - Competition for light and other resources as central mechanisms - Individual-based stand models: distance-dependent and distance-independent - Theoretical models Models at the landscape scale - Simple approaches: cellular automata - Dispersal and disturbances (windthrow, fire, bark beetles) as key mechanisms - Landscape models Global models - Sacrificing local detail to attain global coverage: processes and entities - Dynamic Global Vegetation Models (DGVMs) - DGVMs as components of Earth System Models | ||||
| Lecture notes | Handouts will be available in the course and for download | ||||
| Literature | Will be indicated at the beginning of the course | ||||
| Prerequisites / Notice | - Ideally basic experiences in modelling and systems analysis - Basic knowledge of programming, ideally in R - Good knowledge of general ecology, ideally of vegetation dynamics and forest systems | ||||