Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-10T07:37:29.591Z Has data issue: false hasContentIssue false

45 - Approaches to Undergraduate Research in Sustainability

from Part III.6 - Disciplines A–Z

Published online by Cambridge University Press:  11 August 2022

By
Michael A. Reiter  and
Kimberly D. S. Reiter
Edited by
Harald A. Mieg ,
Elizabeth Ambos ,
Angela Brew ,
Dominique Galli  and
Judith Lehmann
Harald A. Mieg
Affiliation:
Humboldt-Universität zu Berlin
Elizabeth Ambos
Affiliation:
Council on Undergraduate Research, Washington DC
Angela Brew
Affiliation:
Macquarie University, Sydney
Dominique Galli
Affiliation:
Indiana University–Purdue University, Indianapolis
Judith Lehmann
Affiliation:
Universidad de Buenos Aires, Argentina
Get access

Summary

Sustainability science education research since the work of Kates et al. (2001) suggests that, despite uncertainties regarding the field and its methods, students are engaged in sustainability research, gain confidence when faced with a real-world problem to address, and learn to interact effectively with stakeholders in a team situation. Sustainability science education also benefits from introducing students to interdisciplinarity and wicked problem-solving. Challenges include the lack of agreement on what sustainability education entails, institutional resistance to interdisciplinary approaches, staffing and funding, lack of administrative support, and identifying and assessing key competencies. However, despite the challenges, there are several notable approaches developed and programs initiated for undergraduates.

Keywords

community-based researcheducation for sustainable developmentinterdisciplinary educationsustainabilitysustainability educationsustainability sciencesustainable human and environmental systemssystemic synthesisundergraduate educationundergraduate research
Type
Chapter
Information
The Cambridge Handbook of Undergraduate Research , pp. 423 - 430
Publisher: Cambridge University Press
Print publication year: 2022

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Barth, M. (2009). Assessment of key competencies – A conceptual framework. In: Adomssent, M., Barth, M., & Beringer, A. (Eds.), World in transition: Sustainability perspectives for higher education (pp. 93100). VAS Verlag. https://ssrn.com/abstract=2170811Google Scholar
Barth, M. (2014). Implementing sustainability in higher education: Learning in an age of transformation. Routledge.Google Scholar
Benton-Short, L., & Merrigan, K. A. (2016). Beyond interdisciplinary: How sustainability creates opportunities for pan-university efforts. Journal of Environmental Studies and Sciences, 6(2), 387398.Google Scholar
Bhattacharyya, P., Huss-Lederman, S., & Deering, B. (2018). Using the SENCER approach in collaborating across disciplines: Participating in Do Now U. Science Education and Civic Engagement: An International Journal, 10(2), 510.Google Scholar
Brandt, P., Ernst, A., Gralla, F., Luederitz, C., Lang, D. J., Newig, J., Reinert, F., Abson, D. J., & Von Wehrden, H. (2013). A review of transdisciplinary research in sustainability science. Ecological Economics, 92, 115.Google Scholar
Clark, S. G., Steen-Adams, M. M., Pfirman, S., & Wallace, R. L. (2011) Professional development of interdisciplinary environmental scholars. Journal of Environmental Studies and Sciences, 1(2), 99113.Google Scholar
Cotton, D., Bailey, I., Warren, M., & Bissell, S. (2009). Revolutions and second‐best solutions: Education for sustainable development in higher education. Studies in Higher Education, 34(7), 719733.CrossRefGoogle Scholar
Fadeeva, Z., & Mochizuki, Y. (2010). Higher education for today and tomorrow: University appraisal for diversity, innovation and change towards sustainable development. Sustainability Science, 5, 249256.Google Scholar
Focht, W. J., Reiter, M. A., Barresi, P. A., & Smardon, R. C. (Eds.) (2019). Education for sustainable human and environmental systems: From theory to practice. Routledge.Google Scholar
Fortuin, K. P. J., van Koppen, C. S. A., & Kroeze, C. (2013). The contribution of systems analysis to training students in cognitive interdisciplinary skills in environmental science education. Journal of Environmental Studies and Sciences, 3(2), 139152.CrossRefGoogle Scholar
Holmberg, J., & Samuelsson, B. E. (Eds.) (2006). Drivers and barriers for implementing sustainable development in higher education. Education for Sustainable Development in Action, Technical Paper No. 3. UNESCO.Google Scholar
Junyent, M., & Geli de Ciurana, A. M. (2008). Education for sustainability in university studies: A model for reorienting the curriculum. British Educational Research Journal, 34(6), 763782.CrossRefGoogle Scholar
Kajikawa, Y. (2008). Research core and framework of sustainability science. Sustainability Science, 3(2), 215239.Google Scholar
Kates, R. W., Clark, W. C., Corell, R., Hall, J. M., Jaeger, C. C., Lowe, I., McCarthy, J. J., Schellnhuber, H. J., Bolin, B. et al. (2001). Sustainability science. Science, 292(5517), 641642.CrossRefGoogle ScholarPubMed
Koehn, P. H., & Uitto, J. I. (2014). Evaluating sustainability education: Lessons from international development experience. Higher Education, 67(5), 621635.Google Scholar
Lambrechts, W., & Ceulemans, K. (2013). Sustainability assessment in higher education: Evaluating the use of the auditing instrument for sustainability in higher education (AISHE) in Belgium. In Caeiro, S., Azeiteiro, U. M., & Filho, W. L. (Eds.), Sustainability assessment tools in higher education institutions (pp. 157174). Springer.CrossRefGoogle Scholar
Lang, D. J., Wiek, A., Bergmann, M., Stauffacher, M., Martens, P., Moll, P., Swilling, M., & Thomas, C. J. (2012). Transdisciplinary research in sustainability science: Practice, principles, and challenges. Sustainability Science, 7(supplement 1), 2543.CrossRefGoogle Scholar
Lozano, R. (2006). A tool for a graphical assessment of sustainability in universities (GASU). Journal of Cleaner Production, 14(9–11), 963972.Google Scholar
Lozano, R., & Watson, M. K. (2013). Assessing sustainability in university curricula: Case studies from the University of Leeds and the Georgia Institute of Technology. In Caeiro, S., Azeiteiro, U. M., & Filho, W. L. (Eds.), Sustainability assessment tools in higher education institutions (pp. 359373). Springer.CrossRefGoogle Scholar
Miller, T. R., Muñoz-Erickson, T., & Redman, C. L. (2011). Transforming knowledge for sustainability: Towards adaptive academic institutions. International Journal of Sustainability in Higher Education, 12(2), 177192.CrossRefGoogle Scholar
Moore, J. (2005). Seven recommendations for creating sustainability education at the university level: A guide for change agents. International Journal of Sustainability in Higher Education, 6(4), 326339.Google Scholar
Pfirman, S. (Ed.) (2011). Interdisciplinary hiring and career development: Guidance for individuals and institutions. National Council for Science and the Environment.Google Scholar
Roorda, N., & Martens, P. (2008). Assessment and certification of higher education for sustainable development. Sustainability: The Journal of Record, 1(1), 4156.Google Scholar
Shriberg, M. (2002). Institutional assessment tools for sustainability in higher education: Strengths, weaknesses, and implications for practice and theory. Higher Education Policy, 15(2), 153167.Google Scholar
Vincent, S., & Focht, W. (2010). In search of common ground: Exploring identity and core competencies for interdisciplinary environmental programs. Environmental Practice, 12(1), 7686.CrossRefGoogle Scholar
Vincent, S., Roberts, J. T., & Mulkey, S. (2016). Interdisciplinary environmental and sustainability education: Islands of progress in a sea of dysfunction. Journal of Environmental Studies and Sciences, 6(2), 418424.CrossRefGoogle Scholar
Wiek, A., & Kay, B. (2015). Learning while transforming: Solution-oriented learning for urban sustainability in Phoenix, Arizona. Current Opinion in Environmental Sustainability, 16, 2936.Google Scholar
Wiek, A., Bernstein, M. J., Laubichler, M., Caniglia, G., Minteer, B., & Lang, D. J. (2013). A global classroom for international sustainability education. Creative Education, 4(4), 19.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×