Participatory modelling for the integrated sustainability assessment of water: The World Cellular Model and the MATISSE project
Author
Summary, in English
This paper describes the participatory process of developing and implementing a prototype model
aimed at supporting the Integrated Sustainability Assessment of water resources and policy options at
different scales. The model - called the World Cellular Model (WCM) focuses on the representation
of agents’ behaviours and their systemic relationships with their environment. This is achieved by
examining the interests, motives, cultural beliefs and structural resources that drive agents’ actions
with regard to the use of stocks and flows of water, by looking at the impact of such water behaviours
on the environment and on the natural ecosystems at different scales, and by examining in a
coevolutionary way the impact of such environmental changes on the behaviours of agents. The WC
model takes a ‘total system’, multi-scale, agent perspective. That is, agents operate in a single
interrelated system in which each individual or collective agent responds to the availability and use of
a set of stocks and flows of rules and/or institutions (S), energy and resources (E), information and
knowledge (I) that in turn provokes environmental change (C) or impact on the social ecological
system. . This model is being developed together with the use of participatory Integrated Assessment
focus groups (IA-fgs) with real stakeholders to get insights about agents’ behaviours and the possible
architecture of the model so as to increase its socio-ecological robustness and policy relevance. Our
research is part of the EU funded project Matisse (Methods and Tools for Integrated Sustainability
Assessment).
aimed at supporting the Integrated Sustainability Assessment of water resources and policy options at
different scales. The model - called the World Cellular Model (WCM) focuses on the representation
of agents’ behaviours and their systemic relationships with their environment. This is achieved by
examining the interests, motives, cultural beliefs and structural resources that drive agents’ actions
with regard to the use of stocks and flows of water, by looking at the impact of such water behaviours
on the environment and on the natural ecosystems at different scales, and by examining in a
coevolutionary way the impact of such environmental changes on the behaviours of agents. The WC
model takes a ‘total system’, multi-scale, agent perspective. That is, agents operate in a single
interrelated system in which each individual or collective agent responds to the availability and use of
a set of stocks and flows of rules and/or institutions (S), energy and resources (E), information and
knowledge (I) that in turn provokes environmental change (C) or impact on the social ecological
system. . This model is being developed together with the use of participatory Integrated Assessment
focus groups (IA-fgs) with real stakeholders to get insights about agents’ behaviours and the possible
architecture of the model so as to increase its socio-ecological robustness and policy relevance. Our
research is part of the EU funded project Matisse (Methods and Tools for Integrated Sustainability
Assessment).
Publishing year
2007
Language
English
Full text
- Available as PDF - 950 kB
- Download statistics
Document type
Working paper
Publisher
MATISSE project
Topic
- Social Sciences Interdisciplinary
Keywords
- Integrated Sustainability Assessment
- water modelling
- participation.
Status
Published
Project
- MATISSE