Extant research into the efficacy of—especially interdisciplinary—higher education for sustainable development (HESD) is limited. A need exists to investigate students’ development of sustainability knowledge, attitudes, and behaviours. Furthermore, universities have experienced difficulties implementing interdisciplinary HESD because of organisational barriers due to monodisciplinary structures, as well as educators’ and students’ reservations. This study introduces an interdisciplinary approach to HESD and investigates its efficacy regarding students’ development of sustainability knowledge, attitudes, and behaviours at a university in Germany. The approach applies a series of lectures by different sustainability experts accompanied by several tutorials that support students’ interdisciplinary learning and teamwork towards an interdisciplinary sustainability product. Tutors were trained in interdisciplinary teaching methods, as well as interdisciplinary communication and conflict management, beforehand. Before participating in the interdisciplinary course, the students had a moderate level of sustainability knowledge and behaviour, and a high level of sustainability attitudes. The results from the pre–post-test analysis indicate an increase in students’ sustainability knowledge and behaviours, and no change in students’ sustainability attitudes. If typical barriers to interdisciplinarity are mitigated, interdisciplinary HESD can facilitate students’ development.
Systems thinking is one of the skills necessary for sustainable behavior, especially regarding sustainable consumption. Students are faced with complexity and uncertainty while taking part in it and other daily life aspects. There is a need to foster their competence in this field. From a classroom point of view, the mystery method is an example for implementing education for sustainable consumption and working with complex and uncertain content. With the mystery method students construct an influence diagram, which consists of concepts and requires several skills, especially in decision-making. Using these diagrams as a form of assessment is desirable but also very difficult, because of the mentioned complexity and uncertainty that is part of the task itself. The study presented here tackles this problem by creating an expert based reference diagram that has been constructed with the help of educational data mining. The result shows that it is possible to derive such a reference even if parts remain ambiguous due to the inherent complexity. The reference may now be used to assess students’ systems thinking abilities, which will be undertaken in future research. Beside this, the reference can be used as a reflective tool in lessons, so students can compare their own content knowledge and discuss differences to the experts’ reference.
Influence diagrams, derived from the mystery method as its learning output, represent an externalization of systems thinking and are, therefore, valid to research; so far they have not been conceptualized in the research literature for teaching systems thinking in education for sustainable development. In this study, 31 of those diagrams are confronted with (1) three different expert references, in (2) two different ways, by (3) three different scoring systems to determine which evaluation option is both valid and easy to implement. As a benchmark, the diagrams’ diameters are used, which allows statements about the quality of the maps/diagrams in general. The results show that, depending on the combination of variables that play a role in the evaluation (1, 2, 3), the quality of the influence diagram becomes measurable. However, strong differences appear in the various evaluation schemes, which can be explained by each variable’s peculiarities. Overall, the tested methodology is effective, but will need to be sharpened in the future. The results also offer starting points for future research to further deepen the path taken here.
Nearly fifteen years after the Rio Conference and ten years after the Lucerne Declaration on Geographical Education for Sustainable Development we are interested to what extent the goals of this declaration have been implemented? What role does Geography play in Education for Sustainable Development in higher education? Therefore, we analyzed the modules of 107 degree programs with Geography as a degree major or as a teacher training subject at 55 German universities, technical colleges and universities of education. We conducted a quantitative text analysis in which we searched the key words "Sustainability", "Sustainable Development", "Education for Sustainable Development" and "Nature-Society Studies" in the Module Regulations. Our data indicate the existence of a great heterogeneity between the degree programs. The key words were predominantly found in majors in "Human Geography", "Geography" and teacher training programs for "academic high schools". In this article the conceptual aspects can be derived on the basis of results: (a) differences in the orientation of degree programs, (b) varying degree of implementation in the modules, (c) different conceptual understanding of the principles of sustainability, (d) the concepts of Environmental Education and Education for Sustainable Development are individually and sometimes mixed and (e) heterogeneity between mandatory courses and electives.
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