Skip to 0 minutes and 16 secondsCrans-Montana is a region in the Swiss Alps.
Skip to 0 minutes and 27 secondsSituated on a southern slope, it is one of the driest areas of Switzerland. In the past, the region has considerably suffered from water scarcity. This raises the question how the situation will evolve in the future. How will climate change affect this region? How will diverse scenarios of socioeconomic developments mark this zone?
Skip to 0 minutes and 54 secondsThe case is complex, as it involves intricate systems and multiple stakeholders. This glacier serves as an important water reservoir. How will it respond to global warming? How will its response influence water availability? Various agents use the water, including households, agriculture, tourism, or hydropower.
Skip to 1 minute and 32 secondsAll have different needs, priorities, and perspectives when it comes to the water issues. All answer the question differently what a more sustainable water governance would mean.
Skip to 1 minute and 47 secondsWater scarcity and sustainable water governance are topics that call for transdisciplinary approaches, as they are characterised by high complexity, urgency, and contestation. If we want to understand the basic issues, we need to combine different disciplinary approaches. Hydrologists and glaciologists help us to figure out the water supply. Sociologists or human geographers explain the topics of water use and governance. In addition, we need to collect and grasp the perspectives of the different water users. This helps to figure out what water sustainability means for each of them. Thus, a picture evolves, how a more sustainable water governance might be reached.
Skip to 2 minutes and 42 secondsThe big question is: how can all these actors create jointly new knowledge and action that are relevant for both science and stakeholders involved? In our project, we tested different approaches to achieve this goal. We organised a multi-stakeholder learning group involving all the mentioned actors. It met regularly to create a shared understanding of the causes and the consequences of water scarcity and to discuss research insights. It also discussed desirable pathways for the future and the strategies to address them. Actors differing in their views needed to deliberate what kind of future they envisioned and which direction development should take. To enhance this dialogue, we conducted a participatory visioning process. We worked with a dialogue tool called the 'sustainability wheel'.
Skip to 3 minutes and 45 secondsIt visualised factors in four segments, rating them from very poor to very good. It helped to integrate and synthesise all the different knowledge created in the course of the project. It supported the evaluation of scenarios. It also gave us an overall picture of the insights our project generated concerning sustainable water governance.
Skip to 4 minutes and 13 secondsOur case describes how to address water scarcity. It is a good example of a transdisciplinary research project. We'd like to share with you how we designed and implemented it in order to develop sustainable water governance.
Skip to 4 minutes and 33 secondsWhat potentials and challenges did we encounter during the implementation process? Stay with it to find out.
Tackling water scarcity – part 1: addressing the effects of climate change
The threat of water shortage is quite common in Crans-Montana-Sierre, a region in the Swiss Alps. In the future, the situation might even get worse. This calls for new strategies and management practices: an ideal case for transdisciplinary approaches.
Crans-Montana is one of the driest areas of Switzerland. Located in the Alps it has faced several periods in which water became scarce. The problem is expected to intensify as climate change and various demographic developments take effect. The search for a more sustainable water governance involves a group that combines scientists from various disciplines as well as stakeholders from non-academic backgrounds.
Transdisciplinary research offers a way to co-produce the knowledge necessary for solving such problems. However, the case of water scarcity in Crans-Montana required novel research designs, methods, and approaches. This was one of the challenges the MontanAqua team faced as it started to tackle the complex situation.
As a result, the team designed and implemented an innovative and participatory process. It allowed all parties to share their knowledge. Jointly, they generated sustainability visions. In addition, the MontanAqua team developed a tool for assessment and communication: the sustainability wheel.
In this video, Flurina Schneider introduces the complex case. She considers main issues, explains, how the team got different actors to cooperate and gives you a first glimpse on the sustainability wheel.
What do you think were the biggest obstacles the MontanAqua team had to overcome? Share your thoughts in the comments section below.
Educator: PD Dr. Flurina Schneider
© University of Basel, Swiss Academies of Arts and Sciences, Swiss TPH, University of Bern, UsysTDLab, Université de Genève, Lucerne University of Applied Sciences and Arts