Abstract: A United Nations international collaboration between the Education for Sustainable Development (ESD) and the Principles for Responsible Management Education (PRME) resulted in the creation of Sulitest® (aka Sustainability Literacy Test) an open, online training and assessment tool freely available to higher education institutions globally. This study analyzes the effectiveness of the newly developed Sulitest® to not only measure sustainability literacy of higher education student populations, but also act as a catalyst for boosting affective learning outcomes by: (a) generating interest in sustainability-related issues, (b) improving sustainability-related understandings, and (c) enhancing students’ interests in the subject matter. In order to do so we present a two-phase, exploratory mixed-method pilot study. Preliminary results from this pilot study reveal Sulitest is a useful tool for not only assessing sustainability literacy but also spurring student interests and motivations in sustainability-related subject matters. Findings, discussion and limitations are provided.
Continue ReadingAbstract: Energy literacy, defined by the DOE, “is an understanding of nature and role of energy in the universe and in our lives” and, “…is also the ability to apply this understanding to answer questions and solve problems” (U.S. Department of Energy, 2013). Energy literacy is continuously evolving with the development of new feedstocks, technologies, and processes – all of which contribute to the changing landscape of energy production and use. In order for energy education to evolve with the energy field, better tools are needed to assess educational programs. The assessment discussed here is a step towards developing such an assessment for bioenergy.
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Introductory urban planning courses provide an effective platform for delivering education for sustainable development (ESD) competencies. As general education courses, they constitute a unique niche for conveying sustainability concepts, theories, and applications to undergraduates. Learning outcomes include new skill sets, such as transdisciplinarity. One vexing question, however, is how to ascertain if ESD is actually being delivered. This paper suggests that instructors can answer this question by building an understanding of their classrooms, students, and objectives over time using simple techniques. We illustrate our course design considerations and our attempts to gain insight by inspecting class assignments and student survey data. We hope to engage readers in a conversation that develops an outcomes assessment paradigm which recognizes the oftentimes hard-to-quantify nature of affective learning outcomes inherent to ESD, and embraces the values of exploration, diversity, and emergence intrinsic to sustainability.
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Full PDF: Obermille & Atwood JSE Vol 7 Dec 2014 Abstract: The importance of teaching sustainability literacy is readily accepted, but relatively little attention has been paid to the adequacy or preparation of faculty to accomplish this task. At Seattle University, samples of incoming students, staff and faculty completed SUSTLIT, a survey of sustainability literacy. […]
Continue ReadingIn recent years, Co-Curricular Sustainability Programs (CoCSPs) have been established at many higher education institutions. However, few such programs have developed learning outcomes or assessment processes to measure the types of learning that are occurring within their programs. This case study creates synthesis between sustainability education and student leadership competencies and shares a place-based framework for designing and assessing learning outcomes. By utilizing learning outcomes and assessment processes, leadership educators can strengthen the effectiveness of their sustainability programs and facilitate transformational learning experiences for students across campus
Continue ReadingThe purpose of this study was to determine systems thinking skill development among undergraduate students and assess the effectiveness of two different instructional methods for increasing these skills. Undergraduate students from two four-year state institutions, one located in the Midwestern region (n=20) of the United States and one in the Southwestern region (n=16) participated in the study. To accomplish the research object, the study employed a mixed between-within subjects experiment. Employing two different systems thinking teaching interventions, one group of students was exposed to a one-time intervention while the other group was exposed to a more extended and holistic intervention. Data were collected at two points in time: pre- and post-intervention. At the beginning (pre-intervention) and end (post-intervention) of one semester, students read case studies describing apparel firms’ sustainability efforts. The students were then tasked to identify sustainability challenges, analyze conflicts between challenges, and offer business recommendations. Using a rubric, the authors scored the students’ responses on a scale of 0 to 5 and assessed ability to 1) think holistically and 2) perceive interrelationships and resolve resulting conflicts. T-tests revealed that prior to the teaching interventions, as a whole, the students had unsophisticated skills related to their ability to think in systems. ANOVA revealed that, through instructional methods focused on systems thinking, it is possible to increase students’ ability to think in systems. Additionally, the study revealed that, compared to a constrained one-time intervention, a long-term, holistic, and integrated approach is significantly more effective in encouraging students’ system thinking competencies. Results of this study support the need for educators to integrate teaching methods designed to increase students’ systems thinking competencies holistically throughout course curriculum. Additionally, the study outlines a transferrable approach to assessing systems thinking skills within postsecondary education.
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