Assessment of Transboundary PM2.5 from Biomass Burning in Northern Thailand Using the WRF-Chem Model
Author:
Inlaung Kevalin1, Chotamonsak Chakrit2ORCID, Macatangay Ronald3ORCID, Surapipith Vanisa4ORCID
Affiliation:
1. Office of Research Administration, Chiang Mai University, Chiang Mai 50200, Thailand 2. Environmental Science Research Center, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand 3. National Astronomical Research Institute of Thailand (Public Organization), Chiang Mai 50180, Thailand 4. Asian Disaster Preparedness Center, Bangkok 10400, Thailand
Abstract
Air pollution, particularly PM2.5, poses a significant environmental and public health concern, particularly in northern Thailand, where elevated PM2.5 levels are prevalent during the dry season (January–May). This study examines the influx and patterns of transboundary biomass burning PM2.5 (TB PM2.5) in this region during the 2019 dry season using the WRF-Chem model. The model’s reliability was confirmed through substantial correlations between model outputs and observations from the Pollution Control Department (PCD) of Thailand at 10 monitoring stations. The findings indicate that TB PM2.5 significantly influences local PM2.5 levels, often surpassing contributions from local sources. The influx of TB PM2.5 began in January from southern directions, intensifying and shifting northward, peaking in March with the highest TB PM2.5 proportions. Elevated levels persisted through April and declined in May. Border provinces consistently exhibited higher TB PM2.5 concentrations, with Chiang Rai province showing the highest average proportion, reaching up to 45%. On days when PM2.5 levels were classified as ‘Unhealthy for Sensitive Groups’ or ‘Unhealthy’, TB PM2.5 contributed at least 50% to the total PM2.5 at all stations. Notably, stations in Chiang Rai and Nan showed detectable TB PM2.5 even at ‘Very Unhealthy’ levels, underscoring the significant impact of TB PM2.5 in the northern border areas. Effective mitigation of PM2.5-related health risks requires addressing PM2.5 sources both within and beyond Thailand’s borders.
Funder
CMU Proactive Researcher, Chiang Mai University
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