Fine resolution air quality dynamics related to socioeconomic and land use factors in the most polluted desert metropolitan in the American Southwest

https://doi.org/10.1016/j.scitotenv.2021.147713Get rights and content
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Highlights

  • Green vegetation biomass in arid cities can significantly lower urban emissions.

  • During the period of population growth, ambient environment has worsened in the study area.

  • Higher density of buildings tend to be surrounded by lower air quality.

  • This study reveals insight into the social inequality of air pollution exposure.

  • The AOD increase rate of vegetation coverage exceeds other land cover types in urban region.

Abstract

Air pollution kills approximately 4.2 million people every year. As air pollution varies significantly in different urban areas, the assessment of urban emissions is key to taking appropriate actions and formulating policies for sustainable built environments and to promote the wellbeing of people. The overarching goal of this study was to generate fine resolution aerosol optical depth (AOD) using Landsat imagery and examine both the socioeconomic inequalities of air pollution exposure and the air quality variation related to different land-use categories. This study has focused on a period of unusual population growth, 2000–2010, in the Phoenix Metropolitan Area. It was found that socioeconomic factors, vegetation indexes, and land use land cover types are all strong predictors of AOD, and the negative coefficients of socioeconomic values reveal insight into the social inequality of air pollution exposure. Results suggest that the government regulation on air pollution during the study period helped to improve air quality. Meanwhile, planting vegetation to mitigate air pollution should be carefully examined in order to find the right vegetation species and spatial configuration of vegetation cover in urban settings.

Keywords

AOD
Landsat
Lands use and land cover types
Socioeconomic status
Air pollution
Vegetation

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