EVOLVING ROLE OF THE ARCHITECT: DESIGNING FOR DISASTER RESILIENCE IN THE BUILT ENVIRONMENT AMIDST CLIMATE CHANGE
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Abstract
Climate change has intensified the frequency and severity of floods, wildfires, heatwaves, storms, and other natural hazards, exposing the vulnerability of the built environment and highlighting the need to redefine the architect's professional responsibilities. This study examines the evolving role of architects in promoting disaster resilience through the integration of disaster risk reduction principles into architectural design and planning. The research adopted a qualitative methodology based on a critical review of contemporary literature and comparative analysis of seven international case studies representing diverse climatic regions and hazard contexts. The findings demonstrate that resilient architectural practice extends beyond aesthetics and functionality to include hazard-responsive planning, passive survivability, adaptive material selection, community participation, and systems thinking. The case studies further reveal that architects who integrate resilience strategies into the design process contribute significantly to reducing disaster risks while enhancing environmental sustainability and community adaptive capacity. The study recommends that architectural education, professional practice, and government policies mainstream disaster risk reduction and climate adaptation into building design standards, professional training, and development regulations. This paradigm shift will enable architects to transform the built environment from a vulnerable asset into a resilient system capable of protecting lives, livelihoods, and critical infrastructure under future climate uncertainties.
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References
Adegun, O. B., & Adedeji, Y. M. (2021). Floating architecture and urbanism in the face of climate change: A review of recent projects. Journal of Building Engineering, 44, 103297. https://doi.org/10.1016/j.jobe.2021.103297
Aravena, A. (2019). Elemental: Incremental housing and participatory design manual. Hatje Cantz.
Arup. (2022). The resilient cities index 2022. Arup Group.
Birkmann, J., Liwenga, E., Pandey, R., & Boyd, E. (2022). Poverty, livelihoods and sustainable development. In H.-O. Pörtner et al. (Eds.), Climate change 2022: Impacts, adaptation and vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change (pp. 1171–1274). Cambridge University Press.
Bowler, D. E., Buyung-Ali, L., Knight, T. M., & Pullin, A. S. (2010). Urban greening to cool towns and cities: A systematic review of the empirical evidence. Landscape and Urban Planning, 97(3), 147–155. https://doi.org/10.1016/j.landurbplan.2010.05.006
Crichton, D. (2018). The changing role of insurance in the management of flood risk. Journal of Building Survey, Appraisal and Valuation, 7(2), 112–122.
Firman, T. (2020). The dynamics of Indonesia's urban land use and the role of the state in the era of decentralisation. Cities, 106, 102858.
Fischer, J. H., & Juras, A. (2023). Decision analysis for seabird recovery: Navigating complexity across ecosystems, balancing competing values and bridging spaces between research and implementation. Journal of Applied Ecology, 60(6), 1234–1246.
Fox, N. J., & Alldred, P. (2021). Doing new materialist data analysis: A Spinozo-Deleuzian ethological toolkit. International Journal of Social Research Methodology, 24(5), 625–638.
Gencer, E. A. (Ed.). (2020). The Routledge handbook of urban disaster resilience. Routledge.
IPCC. (2022). Climate change 2022: Impacts, adaptation and vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press.
Jha, A. K., Bloch, R., & Lamond, J. (2020). Cities and flooding: A guide to integrated urban flood risk management for the 21st century. World Bank.
Lepore, D., & Pensa, S. (2021). Incremental housing and the role of participatory design: The case of ELEMENTAL. Journal of Urban Design, 26(4), 411–429.
Lizarralde, G., & Johnson, C. (2021). The role of architecture in disaster risk reduction: A critical analysis. In B. L. Chmutina & J. von Lill (Eds.), A research agenda for disaster risk reduction (pp. 88–102). Edward Elgar Publishing.
Mane-Wheoki, J. (2020). Te Kura Whare: A Tūhoe Living Building. Architecture New Zealand, (2), 56–63.
Moe, K. (2019). Unless: The architect's ethical imperative in the climate epoch. Architectural Research Quarterly, 23(3), 223–234.
National Academies of Sciences, Engineering, and Medicine. (2019). Enhancing the resilience of the nation's electricity system. National Academies Press.
NLÉ Works. (2011). Makoko Floating School. Lagos, Nigeria.
Olotuah, A. O. (2021). Climate change adaptation in informal settlements: The case of Makoko, Lagos, Nigeria. In O. B. Adegun (Ed.), The Routledge handbook of urban resilience in the Global South (pp. 215–228). Routledge.
Sagala, S., Wimbardana, R., Pratama, A., et al. (2021). Urban resilience in the face of concurrent disasters: COVID-19 and flooding in Jakarta. International Journal of Disaster Risk Reduction, 62, 102386.
Schmidt, M. (2022). Green infrastructure as a tool for urban climate adaptation in Berlin. Journal of Environmental Planning and Management, 65(5), 801–820.
Sharifi, A., & Yamagata, Y. (Eds.). (2021). Resilient urban form. Springer.
Squire, V. A. (2020). The architecture of extreme environments: Halley VI. Polar Record, 56, e35.
Till, J., et al. (2020). A blueprint for a climate-conscious architectural curriculum. London School of Architecture & Architects Climate Action Network.
UN-Habitat. (2021). Cities and pandemics: Towards a more just, green and healthy future. United Nations Human Settlements Programme.
Walker, A. (2021). Building for the blaze: How architects are rethinking design for a fiery future. Journal of Architectural Education, 75(1), 28–37.
World Bank. (2019). Lifelines: The resilient infrastructure opportunity. World Bank.
Olotuah, A. O. (2021). Climate change adaptation in informal settlements: The case of Makoko, Lagos, Nigeria. In O. B. Adegun (Ed.), The Routledge handbook of urban resilience in the Global South (pp. 215–228). Routledge. https://doi.org/10.4324/9781003025796-18
Sagala, S., et al. (2021). Urban resilience in the face of concurrent disasters: COVID-19 and flooding in Jakarta. International Journal of Disaster Risk Reduction, 62, 102386. https://doi.org/10.1016/j.ijdrr.2021.102386
Schmidt, M. (2022). Green infrastructure as a tool for urban climate adaptation in Berlin. Journal of Environmental Planning and Management, 65(5), 801–820. https://doi.org/10.1080/09640568.2021.1917347
Sharifi, A., & Yamagata, Y. (2021). Resilient urban form: A conceptual framework. In A. Sharifi & Y. Yamagata (Eds.), Resilient urban form (pp. 3–19). Springer. https://doi.org/10.1007/978- 3-030-64861-0_1
Squire, V. A. (2020). The architecture of extreme environments: Halley VI. Polar Record, 56(e35), 1–12. https://doi.org/10.1017/S0032247420000295
Till, J., et al. (2020). A blueprint for a climate-conscious architectural curriculum. The London School of Architecture and Architects Climate Action Network (ACAN). https://www.architectscan.org/blueprint-report
UN-Habitat. (2021). Cities and pandemics: Towards a more just, green and healthy future. United Nations Human Settlements Programme. https://unhabitat.org/cities-and-pandemics- towards-a-more-just-green-and-healthy-future-0
Walker, A. (2021). Building for the blaze: How architects are rethinking design for a fiery future. Journal of Architectural Education, 75(1), 28–37. https://doi.org/10.1080/10464883.2021.1884009
World Bank. (2019). Lifelines: The resilient infrastructure opportunity. The World Bank. https://doi.org/10.1596/978-1-4648-1430-3