1PBL Netherland Environmental Assessment Agency, Bilthoven, the Netherlands
2Copernicus Institute of Sustainable Development, Department of Geosciences, Utrecht University, Utrecht, the Netherlands
3Stockholm Resilience Centre, Stockholm University, Stockholm, Sweden
4CSIRO, Canberra, Australia
Received: 16 Jul 2015 – Discussion started: 08 Sep 2015
Abstract. There is a need for more integrated research on sustainable development and global environmental change. In this paper, we focus on the planetary boundaries framework to provide a systematic categorization of key research questions in relation to avoiding severe global environmental degradation. The four categories of key questions are those that relate to (1) the underlying processes and selection of key indicators for planetary boundaries, (2) understanding the impacts of environmental pressure and connections between different types of impacts, (3) better understanding of different response strategies to avoid further degradation, and (4) the available instruments to implement such strategies. Clearly, different categories of scientific disciplines and associated model types exist that can accommodate answering these questions. We identify the strength and weaknesses of different research areas in relation to the question categories, focusing specifically on different types of models. We discuss that more interdisciplinary research is need to increase our understanding by better linking human drivers and social and biophysical impacts. This requires better collaboration between relevant disciplines (associated with the model types), either by exchanging information or by fully linking or integrating them. As fully integrated models can become too complex, the appropriate type of model (the racehorse) should be applied for answering the target research question (the race course).
Revised: 25 Jan 2016 – Accepted: 01 Feb 2016 – Published: 21 Mar 2016
van Vuuren, D. P., Lucas, P. L., Häyhä, T., Cornell, S. E., and Stafford-Smith, M.: Horses for courses: analytical tools to explore planetary boundaries, Earth Syst. Dynam., 7, 267-279, doi:10.5194/esd-7-267-2016, 2016.