A multidisciplinary approach to authentic learning experiences for nature-based solutions design: broadening the monkey cheeks

被引：4

作者：

Irvine K. ^{[1
]}

Likitswat F. ^{[1
]}

Suwanarit A. ^{[1
]}

Koottatep T. ^{[2
]}

机构：

[1] Faculty of Architecture and Planning, Thammasat University, Khlong Luang

[2] School of Energy, Resources and Development, Environmental Engineering and Management Program, Asian Institute of Technology, Khlong Luang

来源：

Australasian Journal of Engineering Education | 2022年 / 27卷 / 01期

关键词：

Landscape Architecture; multidisciplinary education; Nature-based solutions; Smart Cities; studio design class; water resource modelling;

D O I：

10.1080/22054952.2022.2083789

中图分类号：

学科分类号：

摘要：

Students in a Landscape Architecture studio at Thammasat University and an Environmental Engineering class at Asian Institute of Technology joined to develop and assess Nature-based Solution designs for a pond/wetland system in peri-urban Bangkok. The Landscape Architecture class first developed their design visions and subsequently their designs were introduced to the Engineering students through on-line presentations and collaborative on-site investigations. The Engineering students used combinations of water quality sampling, static calculations, and application of a conceptual, dynamic urban hydrology model to assess design performance. The Engineering students effectively incorporated some aspects of the architectural designs into their assessments, particularly those related to constructed wetlands for water quality improvement. Application of the dynamic model for water quantity assessments and provision of project cost estimates proved more challenging. Course evaluations indicated that students in both classes gained a better appreciation of the multidisciplinary process necessary for successful water resource planning, but also would prefer even greater interaction between the disciplines. Planned pedagogical improvements, including introduction of Steinitz’ Framework for Theory, are discussed. ©, Engineers Australia.

引用

页码：47 / 63

页数：16

共 49 条

[1]

Akamani K., Holzmueller E.J., Groninger J.W., Managing Wicked Environmental Problems as Complex social-ecological Systems: The Promise of Adaptive Governance, Landscape Dynamics, Soils and Hydrological Processes in Varied Climates, pp. 741-762, (2016)

[2]

Arrobbio O., Sonetti G., Cinderella Lost? Barriers to the Integration of Energy Social Sciences and Humanities outside Academia, Energy Research & Social Science, 73, (2021)

[3]

Attoe W., Mugerauer R., Excellent Studio Teaching in Architecture, Studies in Higher Education, 16, 1, pp. 41-50, (1991)

[4]

Bailey M., Chatzakis E., Spencer N., Lampitt Adey K., Sterling N., Smith N., A design-led Approach to Transforming Wicked Problems into Design Situations and Opportunities, Journal of Design, Business & Society, 5, 1, pp. 95-127, (2019)

[5]

Bennett N.J., Roth R., Klain S.C., Chan K., Christie P., Clark D.A., Wyborn C., Conservation Social Science: Understanding and Integrating Human Dimensions to Improve Conservation, Biological Conservation, 205, pp. 93-108, (2017)

[6]

Bhandari A., Ong S.K., Steward B.L., Student Learning in a Multidisciplinary Sustainable Engineering Course, Journal of Professional Issues in Engineering Education and Practice, 137, 2, pp. 86-93, (2011)

[7]

Brix H., Koottatep T., Fryd O., Laugesen C.H., The Flower and the Butterfly Constructed Wetland System at Koh Phi Phi—System Design and Lessons Learned during Implementation and Operation, Ecological Engineering, 37, 5, pp. 729-735, (2011)

[8]

Chen Y., Daamen T.A., Heurkens E.W., Verheul W.J., Interdisciplinary and Experiential Learning in Urban Development Management Education, International Journal of Technology and Design Education, 30, 5, pp. 919-936, (2020)

[9]

Christy A.D., Lima M., Developing Creativity and Multidisciplinary Approaches in Teaching Engineering problem-solving, International Journal of Engineering Education, 23, 4, (2007)

[10]

Exter M.E., Gray C.M., Fernandez T.M., Conceptions of Design by Transdisciplinary Educators: Disciplinary Background and Pedagogical Engagement, International Journal of Technology and Design Education, 30, 4, pp. 777-798, (2020)

← 1 2 3 4 5 →