Estimated effects of meteorological factors and fire hotspots on ambient particulate matter in the northern region of Thailand

Estimated effects of meteorological factors and fire hotspots on ambient particulate matter in the northern region of Thailand

A number of studies have revealed the effects of several meteorological factors on the concentration of ambient particulate matter (PM). However, the corresponding non-linear and lagged effects of those variables on PM concentration remain unclear. This study aimed to explore the effect of meteorolo...

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Bibliographic Details
Published in:Air quality, atmosphere and health atmosphere and health, 2021-11, Vol.14 (11), p.1857-1868
Main Authors: Sritong-aon, Chittamon, Thomya, Jiraporn, Kertpromphan, Chitchanok, Phosri, Arthit
Format: Article
Language:eng
Subjects:
Air pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Earth and Environmental Science
Environment
Environmental Health
Health Promotion and Disease Prevention
Humidity
Meteorological effects
Particulate emissions
Particulate matter
Pollution control
Rainfall
Regression models
Relative humidity
Temperature effects
Weather
Weather conditions
Wind
Wind speed
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Summary:A number of studies have revealed the effects of several meteorological factors on the concentration of ambient particulate matter (PM). However, the corresponding non-linear and lagged effects of those variables on PM concentration remain unclear. This study aimed to explore the effect of meteorological variables and fire hotspot counts on PM concentration in the northern part of Thailand using the two-stage approach. In the first stage, combination of log-linear regression model and distributed lag non-linear model was used to estimate province-specific effect of meteorological factors and fire hotspots on PM 2.5 and PM 10 adjusting by confounders. In the second stage, the multivariate meta-analysis was applied to pool province-specific estimate, and the results showed that the negative associations of temperature, relative humidity, wind speed, and rainfall with PM 2.5 and PM 10 were observed, while air pressure and fire hotspot was positively associated with PM. Moreover, the effects of temperature, relative humidity, wind speed, rainfall, and fire hotspot on PM 2.5 and PM 10 were lasted for 5–8 days, whereas those of air pressure were peaked at lag 7 days and become attenuated toward the null afterward. In conclusion, results from this study could contribute a better understanding on the effects of meteorological variables and fire hotspots on PM concentration and induce the development of more tailored air pollution mitigation strategies depending on weather conditions.
ISSN:1873-9318
1873-9326