Urbanization and warming of Phoenix (Arizona, USA): Impacts, feedbacks and mitigation

This paper examines the impacts, feedbacks, and mitigation of the urban heat island in Phoenix, Arizona (USA). At Sky Harbor Airport, urbanization has increased the nighttime minimum temperature by 5°C and the average daily temperatures by 3.1°C. Urban warming has increased the number of "miser...

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Veröffentlicht in:	Urban ecosystems 2002-09, Vol.6 (3), p.183-183
Hauptverfasser:	Baker, Lawrence A, Brazel, Anthony J, Selover, Nancy, Martin, Chris, McIntyre, Nancy, Steiner, Frederick R, Nelson, Amy, Musacchio, Laura
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Sprache:	eng
Schlagworte:	Arthropoda Energy consumption Evapotranspiration Heat tolerance Human populations Population growth Urban areas Urban heat islands Urban planning Urbanization
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creator	Baker, Lawrence A Brazel, Anthony J Selover, Nancy Martin, Chris McIntyre, Nancy Steiner, Frederick R Nelson, Amy Musacchio, Laura
description	This paper examines the impacts, feedbacks, and mitigation of the urban heat island in Phoenix, Arizona (USA). At Sky Harbor Airport, urbanization has increased the nighttime minimum temperature by 5°C and the average daily temperatures by 3.1°C. Urban warming has increased the number of "misery hours per day" for humans, which may have important social consequences. Other impacts include (1) increased energy consumption for heating and cooling of buildings, (2) increased heat stress (but decreased cold stress) for plants, (3) reduced quality of cotton fiber and reduced dairy production on the urban fringe, and (4) a broadening of the seasonal thermal window for arthropods. Climate feedback loops associated with evapotranspiration, energy production and consumption associated with increased air conditioning demand, and land conversion are discussed. Urban planning and design policy could be redesigned to mitigate urban warming, and several cities in the region are incorporating concerns regarding urban warming into planning codes and practices. The issue is timely and important, because most of the world's human population growth over the next 30 years will occur in cities in warm climates.[PUBLICATION ABSTRACT]
doi_str_mv	10.1023/A:1026101528700
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subjects	Arthropoda Energy consumption Evapotranspiration Heat tolerance Human populations Population growth Urban areas Urban heat islands Urban planning Urbanization
title	Urbanization and warming of Phoenix (Arizona, USA): Impacts, feedbacks and mitigation
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