Experimental measurement of stakeholder expectation formation and risk taking behavior for integrated regional agricultural land use modeling
- Publikations-Art
- Kongressbeitrag
- Autoren
- Eisele, M., Troost, C., Berger, T.
- Erscheinungsjahr
- 2016
- Veröffentlicht in
- Proceedings of the 8th International Congress on Environmental Modelling and Software
- Tagungsort
- Toulouse, France
- Tagungsdatum
- July 10-14, 2016
- Schlagworte
- sustainability
Understanding how stakeholders respond to climate signals, form expectations about the future and adapt behaviour under uncertaintyis crucial for simulating land use change in integrated assessment models. Traditional economic models of expectation formation assume rational or quasi-rational patterns of expectation formation and have typically been derived in the context of price expectations. Approaches for modelling decisions under uncertainty typically either follow the paradigms of (subjective) expected utility maximization or prospect theory.These approaches however may not fit to the analysis of climate change responses due to ambiguous climate signals, a long time span of change,and the significance of experiential learning. We developed a computer-based experiment that simulates climate variability as well as uncertainty about upcoming climatic conditions in the context of agricultural land use decisions. The software visualizes climate variability and decision outcomes for participants, and records their decisions and stated expectations. In this way, sequential learning processes can be observed and patterns of expectation formation and risk behaviour -including biases and heuristics described e.g. by Tversky & Kahnemann –can be analyzed.We applied the approach in several sessions to farmers and undergraduate students (n=97). Based on the results,we formulate behavioural models that are context-and individual-specific and reflect experiential learning. Prevalence of behavioural patterns informsthe parameterization of a multi-agent model (MPMAS) that is part of an integrated regional-scale land use modelling system.The method proved successful in eliciting behavioural parameters, easy to implement, and comprehensible to non-academics,as confirmed by participant evaluation after the experiment.
Beteiligte Personen
Beteiligte Einrichtungen
- Fg. Ökonomik der Landnutzung in den Tropen und Subtropen (Josef G. Knoll Professur)
- Hohenheim Tropen
- Institut für Tropische Agrarwissenschaften (Hans-Ruthenberg-Institut)
- Forschungszentrum für Bioökonomie
- Klimaanpassung
Projekte im Rahmen der Publikation
- DFG-FOR 1695: Agricultural Landscapes under Global Climate Change – Processes and Feedbacks on a Regional Scale
- DFG-FOR 1695: Central project management and communication (PZ)
- DFG-FOR: Agent-based modelling and assessment of human-environment interactions (P6)
- DFG-FOR: Integrated land system modeling (P8)
- DFG-PAK: Agent-based modelling and assessment of human-environment interactions (P6)
- DFG-PAK: Conceptual and technical integration of land system model components (P8)
- DFG-PAK: Structure and Functions of Agricultural Landscapes under Global Climate Change - Processes and Projections on a Regional Scale (Regional Climate Change)