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Research aimed at helping to solve pressing societal problems must meet specific quality requirements: The knowledge it produces must not only be sound but also useable. This is particularly true of research that aims at bringing specific knowledge to bear on policy issues relating to sustainable development. This guide provides detailed actor-specific requirements profiles for this type of “policy relevant sustainability research.”
This guide is aimed at research funding agencies and contracting entities, researchers themselves and policymakers1 who participate directly in the research process. It can be used both for cases where the research funding agency/contracting entity and the policymaker are different institutions or where they are identical. However, policy consulting by specialized agencies that do not perform original research is not addressed.
The requirements profiles serve two functions. First of all, they should function as a guide for the three stakeholder groups, aiding them in their efforts to increase and ensure the quality of research processes and research outcomes. And, secondly, they should improve the reflexive communication among stakeholders regarding the means and the goals of research...
The results presented here are part of a research and development project (Research Code Number: 3711 11 701) funded by the German Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (BMU) and the German Federal Environment Agency (UBA). The project was carried out by the Institute for Social-Ecological Research (ISOE, project management), the Institute for Ecological Economy Research and the Environmental Policy Research Center for of the Freie Universität Berlin (FFU) (project duration: 09/2011-01/2013).
The aim of the project was to develop concepts that can be used to increase the relevance of sustainability research for the design of environmental policy in Germany. In addition to the requirements profiles for a policy relevant sustainability research presented in this guide, recommendations, based on empirical studies, have been developed regarding how the coordination between different government departments with respect to funding such research can be optimized. The project's final report will be available starting March 2013 from the UBA.
Science is under pressure. In times when it is a matter of nothing less that a transformation toward sustainable development, society and politics are demanding not just reliable knowledge but above all useful knowledge. In order to be able to produce such knowledge science must change its structures and ways of working. A renewed understanding of critique can provide guidance to the process of change that must be actively shaped by science itself.* The “Great Transformation” in the direction of sustainable development is a global challenge for society (WBGU2011). All involved have stressed that this transformation, if it succeeds, will lead to profound changes in all parts of society (see PIK 2007). This applies to science as well, which after all is a part of society (WBGU2011, pp. 341 f.). For in view of an unprecedented social-ecological crisis science is coming increasingly under pressure to provide knowledge that is not only methodically reliable but also useful for dealing with the challenges ahead. It is obvious this pressure can strike at the very core of the scientific project: Any orientation toward nonscientific criteria with respect to what is to count as relevant knowledge threatens to undermine the reflexive and cooperative search for “true knowledge.”
In this situation we believe it to be crucial that science does not allow itself to become a plaything of calls for change, but rather that it itself shapes its own response to the new historical challenges. In the following, we argue that a renewed understanding of critique should be the starting point for such an endeavor.1 We will illustrate what a renewed understanding of critique might look like by posing nine theses.2 We see these theses as a contribution to the ongoing discourse on sustainability science or research for sustainable development.
The interactions of changes in climate and biodiversity with societal actions, structures and processes are a priority topic within the international scientific debate – and thus, a relevant subject matter for BiKF’s work. This paper outlines a concept for transdisciplinary research within BiKF. It focuses on the analysis of social-ecological systems supporting society with biodiversity driven ecosystem services. Such research is considering different issues: defining sustainable societal adaptations to climate induced biodiversity changes; permitting adequate understanding of the social-ecological reproduction of ecosystem functions, including their conservation and restoration; analysing the societal values and socio-economic utilisation of ecosystem services. Gaining knowledge in these areas provides an improved basis for decision-making in biodiversity and resource management.
The anthropocene – the epoch of humankind – is currently a topic of great interest. What consequences does the idea of humanity as a geological force have for the undertaken path of sustainable development? What new questions are arising for sustainability science? Diagnosing contemporary society from an anthropocene perspective could change the relationship between natural and social sciences, as well as between society and science: science will be needed even more as a critical authority and must be organized to an even greater extent in a transdisciplinary manner. New forms of social participation in the process of producing scientifically legitimated knowledge are indispensable.∗
More than ten years ago the Dutch chemist and Nobel laureate Paul Crutzen coined the term “Anthropocene” to describe the period during which humans have begun to significantly influence biological, geological and atmospheric processes, thus becoming a relevant geological force on planet Earth (Crutzen and Stoermer 2000, Crutzen 2002). In the earth sciences the anthropocene represents nothing less than a transition to a new epoch and is therefore being discussed intensively. Until 2016 data have been collected by geologists from the International Commission on Stratigraphy (ICS) to provide evidence that might help answer the question whether a turning point has been reached in the history of the Earth (Zalasiewicz et al. 2011). A decision will be made as to whether and when a new epoch in Earth history has begun.
The significance and consequences outside the geoscientific discourse of identifying an “epoch of humans” (Zalasiewicz 2013) has, so far, only been understood to a small extent. Yet this change of perspective is one of the most important in the last 100 hundred years, for it means society and nature have become so closely intertwined that they can no longer be studied independently of each other. Natural spheres and societal spheres have merged into one large system (Guillaume 2015, Becker und Jahn 2006). A well-founded acceptance of the concept of the anthropocene, however, has been lacking, especially where transitions to a sustainable development are being researched. It remains unclear whether the concept of the Anthropocene will lead to a new fundamental understanding of the relationships between nature and society and, if so, what opportunities this new understanding might open for shaping these relationships in a more sustainable manner. And lastly, and equally importantly, it is still unclear whether science’s role and responsibilities will change in the course of developing visions of the future. With this article we hope to stimulate further discussions of these issues.