Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia
We used a Weather Research and Forecasting Model with Chemistry (WRF-CHEM) model that includes anthropogenic emissions from EDGAR-HTAP, biomass burning from FINN, and biogenic emissions from MEGAN to investigate the main volatile organic compound (VOC) ozone precursors during high levels of biomass...
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2405844019363212 |
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doaj-3b19652701974dd7b645995fc09537ee2020-11-25T03:00:22ZengElsevierHeliyon2405-84402019-10-01510e02661Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast AsiaTeerachai Amnuaylojaroen0Ronald C. Macatangay1Suratsawadee Khodmanee2Department of Environmental Science, School of Energy and Environment, University of Phayao, Phayao, 56000, Thailand; Atmospheric Pollution and Climate Change Research Unit, School of Energy and Environment, University of Phayao, Phayao, 56000, Thailand; Corresponding author.Atmospheric Research Unit, National Astronomical Research Institute of Thailand, Chiang Mai, 53000, ThailandDepartment of Environmental Science, School of Energy and Environment, University of Phayao, Phayao, 56000, ThailandWe used a Weather Research and Forecasting Model with Chemistry (WRF-CHEM) model that includes anthropogenic emissions from EDGAR-HTAP, biomass burning from FINN, and biogenic emissions from MEGAN to investigate the main volatile organic compound (VOC) ozone precursors during high levels of biomass burning emissions in March 2014 over upper Southeast Asia. A comparison between the model and ground-based measurement data shows that the WRF-CHEM model simulates the precipitation and 2 m temperature reasonably well, with index of agreement (IOA) values ranging from 0.76 to 0.78. Further, the model predicts O3, NO2, and CO fairly well, with IOA values ranging from 0.50 to 0.57. However, the magnitude of the simulated NO2 concentration was generally underestimated compared to OMI satellite observations. The model result shows that CO and VOCs such as BIGENE play an important role in atmospheric oxidation to surface O3. In addition, biomass burning emissions are responsible for increasing surface O3 by ∼1 ppmv and increasing the reaction rate of CO and BIGENE by approximately 0.5 × 106 and 1 × 106 molecules/cm3/s, respectively, in upper Southeast Asia.http://www.sciencedirect.com/science/article/pii/S2405844019363212Environmental scienceAtmospheric scienceClimatologyEnvironmental chemistryEnvironmental pollutionEarth-surface processes |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Teerachai Amnuaylojaroen Ronald C. Macatangay Suratsawadee Khodmanee |
| spellingShingle |
Teerachai Amnuaylojaroen Ronald C. Macatangay Suratsawadee Khodmanee Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia Heliyon Environmental science Atmospheric science Climatology Environmental chemistry Environmental pollution Earth-surface processes |
| author_facet |
Teerachai Amnuaylojaroen Ronald C. Macatangay Suratsawadee Khodmanee |
| author_sort |
Teerachai Amnuaylojaroen |
| title |
Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia |
| title_short |
Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia |
| title_full |
Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia |
| title_fullStr |
Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia |
| title_full_unstemmed |
Modeling the effect of VOCs from biomass burning emissions on ozone pollution in upper Southeast Asia |
| title_sort |
modeling the effect of vocs from biomass burning emissions on ozone pollution in upper southeast asia |
| publisher |
Elsevier |
| series |
Heliyon |
| issn |
2405-8440 |
| publishDate |
2019-10-01 |
| description |
We used a Weather Research and Forecasting Model with Chemistry (WRF-CHEM) model that includes anthropogenic emissions from EDGAR-HTAP, biomass burning from FINN, and biogenic emissions from MEGAN to investigate the main volatile organic compound (VOC) ozone precursors during high levels of biomass burning emissions in March 2014 over upper Southeast Asia. A comparison between the model and ground-based measurement data shows that the WRF-CHEM model simulates the precipitation and 2 m temperature reasonably well, with index of agreement (IOA) values ranging from 0.76 to 0.78. Further, the model predicts O3, NO2, and CO fairly well, with IOA values ranging from 0.50 to 0.57. However, the magnitude of the simulated NO2 concentration was generally underestimated compared to OMI satellite observations. The model result shows that CO and VOCs such as BIGENE play an important role in atmospheric oxidation to surface O3. In addition, biomass burning emissions are responsible for increasing surface O3 by ∼1 ppmv and increasing the reaction rate of CO and BIGENE by approximately 0.5 × 106 and 1 × 106 molecules/cm3/s, respectively, in upper Southeast Asia. |
| topic |
Environmental science Atmospheric science Climatology Environmental chemistry Environmental pollution Earth-surface processes |
| url |
http://www.sciencedirect.com/science/article/pii/S2405844019363212 |
| work_keys_str_mv |
AT teerachaiamnuaylojaroen modelingtheeffectofvocsfrombiomassburningemissionsonozonepollutioninuppersoutheastasia AT ronaldcmacatangay modelingtheeffectofvocsfrombiomassburningemissionsonozonepollutioninuppersoutheastasia AT suratsawadeekhodmanee modelingtheeffectofvocsfrombiomassburningemissionsonozonepollutioninuppersoutheastasia |
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