Interdisciplinary Teaching: Designing for Success
There is a wide spectrum of approaches to interdisciplinary teaching and which one is most suitable may vary by institution, instructor, and topic. Below are some tips and examples to get you started.
The Importance of Working Across Disciplines
Exploring sustainability-related issues from a variety of disciplinary 'lenses' is a starting point for understanding the complexity of these topics and addressing the needs and concerns of the different stakeholders involved. Bridging disciplines requires recognizing the differences in disciplinary cultures and working with these differences to build a culture that values collaboration and is respectful of the spectrum of expertise and interests/values/approaches of other group. The intent is not to create a classroom of 'hybrid' or 'jack-of-all-trade' students, but rather, to demonstrate how different perspectives and strengths can be beneficial in solving real-world problems.
Incorporating interdisciplinary teaching into the classroom can be done small scale (e.g. inviting guest lecturers from other departments) or at a larger scale (e.g. team teaching a course). Regardless of scale, it is important for instructors to demonstrate the collaboration and respect for other disciplinary perspectives throughout the process. For instance, if one is team teaching a course, it would be important for the instructors to develop the course and materials together, with mutual respect and understanding of each others' work and perspectives. Following the mission of team teaching, instructors must work together and the course content must be integrated at the design stage in order to build a strong and cohesive base for teaching.
Activities with an Interdisciplinary Approach
Unit 2: Application of Concepts to Case Studies
Patricia Stapleton, Worcester Polytechnic Institute; Lisa Doner, Plymouth State University; Lorraine Motola, Metropolitan College of New York
Unit 3: Culmination of Module in Town Hall Meeting
Patricia Stapleton, Worcester Polytechnic Institute; Lorraine Motola, Metropolitan College of New York; Lisa Doner, Plymouth State University
Unit 2: Water Footprints
Robert Turner, University of Washington-Bothell Campus
Unit 4: Oceans In Peril: Pressures on Ocean Ecosystems
MICHELLE KINZEL, Southwestern College; Astrid Schnetzer, North Carolina State University; Cara Thompson, Arizona State University at the West Campus
Unit 3: Energy Flows and Feedback Processes
Bob Mackay, Clark College; Allison Dunn, Worcester State University; Phil Resor, Wesleyan University
Unit 6: Capstone: A modern catastrophic volcanic eruption?
Bob Mackay, Clark College; Phil Resor, Wesleyan University; Allison Dunn, Worcester State University
Integration by Design
Points of Intersection
Capitalize on Strengths of Others
Another approach for bringing an interdisciplinary component into your course involves finding solutions to common barriers by utilizing strengths of other disciplinary 'cultures.' For instance, one can bridge two cultures together using quantitative skills and literacy.
A generalized example of this is that engineers may be more facile with numbers, but may not question their origin. Conversely, geoscience students may find working with numbers and equations challenging, but have a better grasp on the origin of the numbers and formulas. Working together can build an appreciation for collaborative problem solving and may provide peer-to-peer instruction that benefits both types of students.
Provide a Meaningful Context and Example for Students
Putting interdisciplinary work in a context that is meaningful to students and applicable to their lives is engaging and appeals to the affective domain. Undergraduate research or service learning projects provide a mechanism for encouraging interdisciplinary work in the classroom or community. These can be done at the smaller scale (a project within a course) or a course can be designed around the project itself.
These experiences provide an excellent example of how science can be applied in the 'real world' as well as illustrate how different groups collaborate in the real world to find solutions to real-world issues. Depending on the project, they may even involve talking or working with leaders and organizations in a community, which can tie together science, policy, and economics. Depending on the project design, students can build skills that will prepare them for the workforce, including: teamwork, writing, and public speaking.
Integration by Design: Related Workshop PresentationsKey concepts of sustainability in our courses and disciplines (PowerPoint 287kB Jul25 12) by Jean MacGregor, The Evergreen State College. This presentation was given at the 2012 Systems, Society and Sustainability workshop.
Challenges we Face Integrating the Engineering and Geoscience Cultures (PowerPoint 2007 (.pptx) 535kB Mar7 13) by Paul Santi, Colorado School of Mines. This presentation was given at the 2013 Engineering, Sustainability and the Geosciences workshop.
Breaking out of the Silo: Training a new breed of Geoengiscists (Acrobat (PDF) 4.4MB Mar6 13) by Terri Hogue, Colorado School of Mines. This presentation was given at the 2013 Engineering, Sustainability and the Geosciences workshop.
Ready to Design?
Now that you have an idea of some of the important general considerations for designing an interdisciplinary course, you can learn about specific examples of interdisciplinary strategies. The Interdisciplinary Approaches to Teaching module from Pedagogy in Action also provides an in-depth look at the what/why/and how of interdisciplinary teaching as a pedagogy along with examples for using an interdisciplinary approach.