Sheltering From a Gathering Storm: Temperature Resilience in Pakistan
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This case study, one of three in the project, focuses on key issues related to temperature in Pakistan, and provides insights into the economic and nonfinancial returns of adaptive, resilient shelter designs that take into consideration hazards such as typhoons, flooding, and temperature increases.
Key Points in Brief:
-Climate change will seriously impact urban areas in Pakistan.
-Increases in the temperature minimums and heat index need greater attention.
-The T-min is the most important variable for shelter design.
-Heat impacts vary by gender and occupation.
-Temperature increases will make cities unaffordable for the poor.
-New T-min heat reduction measures are needed.
-Several passive technologies for heat reduction have been proven effective.
-Concrete is unsuitable for heat resilient housing.
-Greater awareness of heat reduction measures is needed.
-Heat is not the only problem affecting poor communities.
Keywords: Climate Resilient Architecture; Climate Modeling and Scenario Planning; Disaster Risk Reduction/Hazard Management; Economics; Extreme Heat; Gender; Health; Resilience and Climate Change Adaptation; Social Vulnerability (Disclaimer) These documents are an output from a project funded by the UK Department for International Development (DFID) and the Netherlands Directorate-General for International Cooperation (DGIS) for the benefit of developing countries. However, the views expressed and information contained in these documents are not necessarily those of or endorsed by DFID, DGIS, or the entities managing the delivery of the Climate and Development Knowledge Network, which can accept no responsibility or liability for such views, completeness or accuracy of the information, or any reliance placed on them.
Authors: Fawad Khan; Sharmeen Malik; Atta Rehman
Keywords: Climate Resilient Architecture; Climate Modeling and Scenario Planning; Disaster Risk Reduction/Hazard Management; Economics; Extreme Heat; Gender; Health; Resilience and Climate Change Adaptation; Social Vulnerability
Citation: Khan, F., Malik, S., & Rehman, A. (2014). Sheltering from a gathering storm: Temperature resilience in Pakistan. Boulder, CO: ISET-International.