Abstract
This research was to conduct a pilot study for two consecutive days in order to assess fine particulate matter (PM2.5) exposure of an entire population in a community. We aimed to construct a surveillance system by analyzing the observed spatio-temporal variation of exposure. Guro-gu in Seoul, South Korea, was divided into 2,204 scale grids of 100 m each. Hourly exposure concentrations of PM2.5 were modeled by the inverse distance weighted method, using 24 sensor-based air monitoring instruments and the indoor-to-outdoor concentration ratio. Population distribution was assessed using mobile phone network data and indoor residential rates, according to sex and age over time. Exposure concentration, population distribution, and population exposure were visualized to present spatio-temporal variation. The PM2.5 exposure of the entire population of Guro-gu was calculated by population-weighted average exposure concentration. The average concentration of outdoor PM2.5 was 42.1 µg/m3, which was lower than the value of the beta attenuation monitor measured by fixed monitoring station. Indoor concentration was estimated using an indoor-to-outdoor PM2.5 concentration ratio of 0.747. The population-weighted average exposure concentration of PM2.5 was 32.4 µg/m3. Thirty-one percent of the population exceeded the Korean Atmospheric Environmental Standard for PM2.5 over a 24 h average period. The results of this study can be used in a long-term aggregate and cumulative PM2.5 exposure assessment, and as a basis for policy decisions on public health management among policymakers and stakeholders.
Highlights
Fine particulate matter (PM2.5 ) is an air pollutant that is classified as a Group 1 carcinogen by the International Agency for Research on Cancer [1]
A PM2.5 exposure assessment in a community such as an industrial complex is crucial in terms of public health since it can provide the data required to develop a suitable management plan [4]
The exposure assessment for the entire reliable because the concentration of PM2.5 was modeled by a sensor-based air monitoring instrument population was reliable because the concentration of PM2.5 was modeled by a sensor-based air that captures real-time measurements, data communication, and population distribution representing monitoring instrument that captures real-time measurements, data communication, and population population dynamics
Summary
Fine particulate matter (PM2.5 ) is an air pollutant that is classified as a Group 1 carcinogen by the International Agency for Research on Cancer [1]. It can cause various adverse health effects. 6–13% increase in long-term exposure risk of cardiopulmonary disease mortality rate [2]. Accounts for a 7.3% increase in all-cause mortality [3]. A PM2.5 exposure assessment in a community such as an industrial complex is crucial in terms of public health since it can provide the data required to develop a suitable management plan [4].
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