Structure matters: Real-world laboratories as a new type of large-scale research infrastructure

Community member post by Franziska Stelzer, Uwe Schneidewind, Karoline Augenstein and Matthias Wanner

What are real-world laboratories? How can we best grasp their transformative potential and their relationship to transdisciplinary projects and processes? Real-world laboratories are about more than knowledge integration and temporary interventions. They establish spaces for transformation and reflexive learning and are therefore best thought of as large-scale research infrastructure. How can we best get a handle on the structural dimensions of real-word laboratories?

What are real-world laboratories?

Real-world laboratories are a targeted set-up of a research “infrastructure“ or a “space“ in which scientific actors and actors from civil society cooperate in the joint production of knowledge in order to support a more sustainable development of society.

Although such a laboratory establishes a structure, most discussions about real-world laboratories focus on processes of co-design, co-production and co-evaluation of knowledge, as shown in the figure below. Surprisingly, the structural dimension has received little attention in the growing field of literature.

Overcoming structure as the blind spot

We want to raise awareness of the importance of the structural dimension of real-world laboratories, including physical infrastructure as well as interpretative schemes or social norms, as also shown in the figure below. A real-world laboratory can be understood as a structure for nurturing niche development, or a space for experimentation that interacts (and aims at changing) structural conditions at the regime level.

Apart from this theoretical perspective, we want to add a concrete “infrastructural” perspective, as well as a reflexive note on the role of science and researchers. Giddens’ use of the term ‘structure’ helps to emphasize that scientific activity is always based on rules (eg., rules of proper research and use of methods in different disciplines) and resources (eg., funding, laboratories, libraries).

The two key challenges of real-world laboratories are that:

  1. both scientists and civil society actors are involved in the process of knowledge production; and,
  2. knowledge production takes place in real-world environments instead of scientific laboratories.
Franziska Stelzer (biography)


Uwe Schneidewind (biography)


Karoline Augenstein (biography)


Matthias Wanner (biography)


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Three schools of transformation thinking

Community member post by Uwe Schneidewind and Karoline Augenstein

Uwe Schneidewind (biography)

‘Transformation’ has become a buzzword in debates about sustainable development. But while the term has become very popular, it is often unclear what is meant exactly by ‘transformation’.

The fuzziness of the concept can be seen as a strength, giving it metaphoric power and facilitating inter- and transdisciplinary cooperation. However, this fuzziness means there is also a danger of the transformation debate being co-opted by powerful actors and used strategically to impede societal change towards more sustainable pathways.

Karoline Augenstein (biography)

Thus, issues of power are at stake here and we argue that a better understanding of the underlying assumptions and theories of change shaping the transformation debate is needed. We delineate three schools of transformation thinking and their assumptions about what drives societal change, and summarize them in the first table below. We then examine the relationship of these three schools of thinking to power, summarized in the second table. Continue reading