Desde hace más de una década, existen diversas iniciativas internacionales y nacionales para que las universidades asuman un rol de liderazgo para promover una educación para el desarrollo sostenible y dar respuestas a los retos globales de la sociedad actual. Es preciso analizar la efectividad de esas iniciativas y preguntarnos si las universidades están formando a sus estudiantes para afrontar con responsabilidad dichos retos.Éste es uno de los objetivos del proyecto EDINSOST, dentro de cuyo marco hemos llevado a cabo una investigación de tipo cualitativa, desarrollando grupos de discusión con estudiantes de últimos cursos de distintas universidades y perfiles académicos. Esto nos ha permitido integrar en nuestros análisis la perspectiva del alumnado universitario.En este artículo se presentan las aportaciones más relevantes en relación a la visión de los estudiantes sobre la sostenibilidad, su experiencia formativa en la universidad y su opinión sobre cómo podría mejorarse. Los resultados muestran que la formación en sostenibilidad que aporta la universidad es insuficiente, y que los estudiantes no se sienten preparados para integrar la sostenibilidad en su actividad profesional. Sin embargo, consideran fundamental que la universidad incluya la sostenibilidad en sus currículos académicos, y enfatizan la importancia de emplear metodologías activas que conecten al alumnado con la realidad y fomenten la reflexión.La investigación muestra que queda mucho trabajo por hacer para integrar la sostenibilidad en la formación universitaria. Las propuestas del alumnado están alineadas con las de los expertos en educación para la sostenibilidad, y para llevarlas a cabo se requiere tanto la formación y compromiso del profesorado como la implicación institucional.
The incorporation of sustainability in universities finds the greatest barriers in the field of teaching. The curricula do not usually cover all dimensions of sustainability as most of the experiences are isolated and they do not reach all students. Within a larger study, an exploratory investigation has been carried out on how sustainability competences are being integrated into the programs of both Informatics Engineering and Industrial Engineering degrees of 25 Spanish universities. The main findings suggest that existing courses in the domain of the humanities and engineering projects, as well as the final degree project, are very appropriate areas for developing a holistic and reflective approach. Likewise, there is a lack of environmental issues in Informatics Engineering, and ethical issues do not usually appear in Industrial Engineering courses. In general, there is no systematic and strategic integration along the degree programs. However, inspiring practices have been identified to propose lines of action and a curriculum model to embed sustainability into engineering education coherently and effectively. In addition, some reflections on drivers, opportunities, and challenges to achieve it are presented.
This paper presents three tools developed within the framework of the project EDINSOST2-SDG, aimed at embedding and assessing the Education for Sustainable Development (ESD) in Engineering curricula. ESD is promoted through the introduction into engineering curricula of learning outcomes related to sustainability and, specifically, to the Sustainable Development Goals (SDG). The first tool, the “Engineering Sustainability Map”, contains ESD-related learning outcomes that any engineering student should have acquired upon completion of their studies. These learning outcomes are described according to four sustainability competencies: (1) Critical contextualization of knowledge, (2) Sustainable use of resources, (3) Participation in community processes, and (4) Application of ethical principles. The second tool, the “Sustainability Presence Map” of a degree, shows the percentage of the presence in the curriculum of each sustainability competency. The calculation of the presence of each competency is based on the effective integration of the related learning outcomes into a specific curriculum. Respective data are provided by teachers responsible for the coordination of the different subjects of the degree, collected by means of a questionnaire. The third tool presented is a questionnaire aimed at measuring the level of ESD that students perceive they have acquired through each competency. The comparison of data resulting from the Sustainability Presence Map with the data from the student questionnaire is the first step that allows the effectiveness of embedding ESD in a degree to be determined, a proper learning assessment will confirm such effectiveness. The three tools presented in this work have undergone a validation process and are currently being used in a set of engineering degrees related to the EDINSOST2-SDG project. The results of the application of these tools are part of the future research work of the authors.
This paper presents an experience in developing professional ethics by an approach that integrates knowledge, teaching methodologies and assessment coherently. It has been implemented for students in both the Software Engineering and Computer Engineering degree programs of the Technical University of Madrid, in which professional ethics is studied as a part of a required course. Our contribution of this paper is a model for formative assessment that clarifies the learning goals, enhances the results, simplifies the scoring and can be replicated in other contexts. A quasi-experimental study that involves many of the students of the required course has been developed. To test the effectiveness of the teaching process, the analysis of ethical dilemmas and the use of deontological codes have been integrated, and a scoring rubric has been designed. Currently, this model is also being used to develop skills related to social responsibility and sustainability for undergraduate and postgraduate students of diverse academic context.
This article presents the results of the EDINSOST project in relation to the university faculty’s practice concerns and the need to embed sustainability education in the Spanish Higher Education system. Four questions were devised to determine (1) which conceptions the university faculty has about sustainability in the context of the Spanish higher education (2) what sustainability competencies the university faculty holds (3) the ways in which sustainability teaching strategies are implemented and (4) the ways in which practical coursework related to sustainability is undertaken in a Spanish university context. The methodology that was applied was comprised of a discourse analysis of faculty focus groups. To that end, a category system and a focus group implementation protocol were designed and validated, as well as processes of construct elaboration based on the analysis of the focus groups’ discourses. Among the most relevant contributions stemming from the research questions regarding the faculty’s assumptions was the evidence that the holistic conception of sustainability is not addressed in all its dimensions and the environmental dimension is overemphasised. The need for training to teach sustainability competencies and the faculty’s lack of awareness were also identified. As far as sustainability teaching strategies are concerned, project-based learning prevails, with service-learning emerging as the most effective strategy, even though its application is hindered by faculty training gaps. Finally, the absence of sustainability in teaching guides and study plans and the scarce institutional support for establishing sustainability as a strategic subject in the university were significant findings.
This paper features a methodology for embedding and assessing a competency in an academic curriculum using competency maps. This methodology enables embedding and assessment of any competency in any curriculum, regardless of the educational level, as long as the competency is correctly described by means of a competency map. As an example of the application of this methodology, a proposal for embedding and assessing sustainability in engineering degrees is presented. A competency map embodies the set of learning outcomes of the competency that students should have acquired upon completion of their studies. This information allows the designers of the curriculum to determine the learning outcomes that should be developed in the degree and to distribute them appropriately among the subjects. The presence map can be constructed from the competency map. It contains information regarding the extent to which each learning outcome of the competency map is being developed in the degree. This paper proposes the construction of a presence map in two steps: (1) perform a survey and (2) conduct a semi-structured interview with professors. The interview, which is conducted by one or several experts in the competency, allows the different criteria used by the professors when filling out the questionnaire to be unified, whereas the presence map shows whether a particular competency is correctly embedded in the curriculum and the aspects that could be improved. Finally, to validate that the students are achieving the learning outcomes of the competency map, we propose a survey to measure the students’ perception about their own learning in the competency. These results can be compared with the presence map to help determine whether, from the students’ point of view, the expected learning outcomes are being achieved in the corresponding subjects. The aim of this process is to provide the information necessary to indicate any changes in the curriculum that may improve the embedding of the competency.
In the present globalized world, the impacts of engineering are growing in importance, society is becoming more aware of them, and more and more universities are including ethical and social issues into their engineering degree programs. This article describes the experience of developing competences of ethical, social and environmental responsibility in undergraduate IT engineering degrees at the Technical University of Madrid. The implementation of these competences has evolved in recent years and currently they are developed in two specific subjects in the first and third year, and that work is completed in the Final Year Project. This model allows us to reach all the students at different times along their studies and with a acceptable level of depth. It is an integral experience, where appropriate contents, teaching methodologies and assessment methods have been adapted to deal with social issues in our academic context. As lessons learned, we highlight the effectiveness this model for developing the aforementioned competences and the important role of external references (from professional, governmental and academic institutions) to intégrate ethical, social and environmental aspects into engineering degrees.
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