Long Range Transport of Southeast Asia PM2.5 Pollution to Northern Thailand during High Biomass Burning Episode

Amnuaylojaroen, Teerachai; Inkom, Jirarat

doi:10.20944/preprints202010.0157.v1

2020

DOI: 10.20944/preprints202010.0157.v1

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Long Range Transport of Southeast Asia PM2.5 Pollution to Northern Thailand during High Biomass Burning Episode

Teerachai Amnuaylojaroen¹,

Jirarat Inkom²

Abstract: This paper aims to investigate the airflow that can transport emission sources of PM2.5 from neighboring countries to contribute to air pollution in northern Thailand. We applied the coupled atmospheric and air pollution model which is based on the Weather Research and Forecasting Model (WRF) and a Hybrid Single-Particle Lagrangian Integrated Trajectory Model (HYSPLIT). The model output was compared to the ground-based measurement from the Pollution Control Department (PCD) to examine model performance. As a r… Show more

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Cited by 8 publications

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Projection of the Near-Future PM2.5 in Northern Peninsular Southeast Asia under RCP8.5

2022

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Throughout the year, particularly during the dry season, the northern peninsula of Southeast Asia struggles with air pollution from PM2.5. In this study, we used the Nested Regional Climate and Chemistry Model (NRCM-Chem) to predict the PM2.5 concentrations over Southeast Asia’s northern peninsula during the years 2020–2029 under the Representative Concentration Pathway (RCP)8.5. In general, the model reasonably shows a good result, including temperature, precipitation, and PM2.5 concentration, compared to the observation with an Index of Agreement (IOA) in the range of 0.63 to 0.80. However, there were some underestimations for modeled precipitation and temperature and an overestimation for modeled PM2.5 concentration. As a response to changes in climatic parameters and the emission of PM2.5’s precursors, PM2.5 concentrations tend to increase across the region in the range of (+1) to (+35) µg/m3 during the dry season (November to April) and decline in the range of (−3) to (−30) µg/m3 during the wet season (May to October). The maximum increase in PM2.5 concentrations were found in March by >40 µg/m3.

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Projection of the Near-Future PM2.5 in Northern Peninsular Southeast Asia under RCP8.5

2022

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Ambient Nanoparticles (PM0.1) Mapping in Thailand

Phairuang

Piriyakarnsakul²,

Inerb

et al. 2022

Atmosphere

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Nanoparticles (NPs), nanoaerosols (NAs), ultrafine particles (UFPs), and PMs0.1 (diameters ≤ 0.1 µm or 100 nm) are used interchangeably in the field of atmospheric studies. This review article summarizes recent research on PM0.1 in Thailand. The review involved peer-reviewed papers that appeared in the Scopus and the Web of Science databases and included the most recently published articles in the past 10 years (2013–2022). PM0.1 mainly originate from combustion processes such as in motor vehicles. The highest mass concentration of PMs0.1 occurs during the dry season, in which open fires occur in some regions of Thailand. The northern area of the country has higher PM0.1 mass concentrations, followed by the central and southern areas. Carbonaceous nanoaerosols are produced during normal periods, and the proportions of organic to elemental carbon and char to soot suggest that these originate from motor vehicles. However, in haze periods, biomass fires can also produce carbon-containing particles. PM0.1 pollution from local and cross-border countries also needs to be considered. The overall conclusions reached will likely have a beneficial long-term impact on achieving a blue sky over Thailand through the development of coherent policies and managing new air pollution challenges and sharing knowledge with a broader audience.

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Distribution and Meteorological Control of PM2.5 and Its Effect on Visibility in Northern Thailand

2023

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In the dry season, the north of Thailand always experiences reduced air quality, reduced visibility, and public health exposure from the burning of biomass domestically and in surrounding countries. The purpose of this research was to investigate the distribution and the meteorological control of PM2.5 accumulation, as well as its effect on visibility in northern Thailand in 2020. The Geographic Information System (GIS) was applied for the analysis of the spatial distribution, while Pearson’s correlation coefficient was utilized to examine the association between PM2.5 and meteorological variables. The results showed that the PM2.5 concentrations were in the range of 16–195 μg/m3 in 2020. The high level of PM2.5 in Lampang, Chiang Rai, and Chiang Mai provinces was in the range of 150 to 195 μg/m3 from January to May. Favorable meteorological conditions included low wind and relative humidity, and high temperatures contributed to high PM2.5 concentrations in northern Thailand. Domestic burning and burning in neighboring countries contribute to huge amounts of smoke that cause low visibility in northern Thailand, especially at 1 km above ground level, with a reduced visibility in the range of 70–90% for all provinces in April.

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Long Range Transport of Southeast Asia PM2.5 Pollution to Northern Thailand during High Biomass Burning Episode

Cited by 8 publications

References 4 publications

Projection of the Near-Future PM2.5 in Northern Peninsular Southeast Asia under RCP8.5

Projection of the Near-Future PM2.5 in Northern Peninsular Southeast Asia under RCP8.5

Ambient Nanoparticles (PM0.1) Mapping in Thailand

Distribution and Meteorological Control of PM2.5 and Its Effect on Visibility in Northern Thailand

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