While previous studies have shown that urban heat islands (UHI) tend to increase residential water use, they have not yet analyzed the feedbacks among vegetation intensity, diurnal temperature variation, water use, and characteristics of the built environment. This study examines these feedback relationships with the help of a path model applied to spatially disaggregated data from Phoenix, Arizona. The empirical evidence from the observations in Phoenix suggests the following: (1) impervious surfaces contribute to increased residential water use by exacerbating UHI; (2) larger lots containing pools and mesic vegetation increase water demand by reducing diurnal temperature difference; and (3) smart design of urban environments needs to go beyond simplistic water body- and vegetation-based solutions for mitigating uncomfortably high temperatures and consider interactions between surface materials, land use, UHI, and water use.
Details
- Residential Land Use, the Urban Heat Island, and Water Use in Phoenix: A Path Analysis
- Guhathakurta, Subhrajit (Author)
- Gober, Patricia (Author)
- Digital object identifier: https://doi.org/10.1177/0739456X10374187
- Corresponding Author: Subhrajit Guhathakurta Arizona State University subhro.guha@asu.edu, opens in a new window
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Guhathakurta, S., & Gober, P. (2010). Residential land use, the urban heat island, and water use in Phoenix: A path analysis. Journal of Planning Education and Research, 30(1), 40–51. https://doi.org/10.1177/0739456X10374187