Affiliation:
1. Civitas Systems, USA
2. Energy Institute and the Institute for Science, Technology, and Public Policy, Texas A&M University, USA
Abstract
This chapter discusses the universal concept of a system through the lens of system thinking and science and applies it to the concept of sustainable development. Because system science is inherently multidisciplinary, examples and concepts are borrowed from many disciplines. Any system can be explained through multiple dimensions or components of which this chapter details ‘structure' by modeling systems as static cross-impact networks; it frames sustainable development—referred to as anthropocentric systems—as an interconnected group of sectors, like an economy, using a nexus approach. As nations work toward implementing the complex and interconnected United Nation's Sustainable Development Goals (SDGs), this chapter offers methods to identify the type of interactions and quantify the strengths among them. This approach supports the process of priority setting and highlights areas in particular needed for policy coordination across different sectors.
Reference81 articles.
1. Prioritising SDG targets: assessing baselines, gaps and interlinkages
2. Integrated Modeling of the Water-Energy-Land-Food Nexus: Importance of Context, Scale, Boundary, and Community Capacity.;B.Amadei;24th International Sustainability Development Research Society Conference,2018
3. Arcade, J., Godet, M., Meunier, F., & Roubelat, F. (1999). Structural analysis with the MICMAC method & Actor’s strategy with MACTOR method. Futures Research Methodology, American Council for the United Nations University: The Millennium Project.
4. The Rural-Urban Food Systems’ Links with the Agenda 2030: From FAO Guidelines on Food Supply and Distribution Systems to a Dairy Sector Application in the Area of Bogota