Abstract
Levels of urban pollution can be influenced largely by meteorological conditions and the topography of the area. The impact of the relative humidity (RH) on the daily average PM2.5 concentrations was studied at several sites in a mid-size South American city at a high elevation over the period of nine years. In this work, we show that there is a positive correlation between daily average urban PM2.5 concentrations and the RH in traffic-busy central areas, and a negative correlation in the outskirts of the city in more industrial areas. While in the traffic sites strong events of precipitation (≥9 mm) played a major role in PM2.5 pollution removal, in the city outskirts, the PM2.5 concentrations decreased with increasing RH independently of rain accumulation. Increasing PM2.5 concentrations are to be expected in any highly motorized city where there is high RH and a lack of strong precipitation, especially in rapidly growing and developing countries with high motorization due to poor fuel quality. Finally, two models, based on a logistic regression algorithm, are proposed to describe the effect of rain and RH on PM2.5, when the source of pollution is traffic-based vs. industry-based.
Highlights
The cities of the developing world with populations greater than 100,000 dominate the list of urban areas at high elevations (>2000 m.a.s.l.)
The statistical analyses of daily data show that the 2007–2016 average relative humidity (RH) for central Quito is relatively high at 69.9%, and that the annual average PM2.5 concentration is elevated at 17.1 ± 6.05 μg/m3
To the best of our knowledge, this work is the first attempt at studying the long-term impact of RH on PM2.5 concentrations at an urban scale in a high elevation city considering the role of precipitation
Summary
The cities of the developing world with populations greater than 100,000 dominate the list of urban areas at high elevations (>2000 m.a.s.l.). Small- and mid-size cities (
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