Your search keyword '"Xing Li"' showing total 9 results

1. Combined use of principal component analysis/multiple linear regression analysis and artificial neural network to assess the impact of meteorological parameters on fluctuation of selected PM2.5-bound elements.

Author

Pongpiachan, Siwatt, Wang, Qiyuan, Apiratikul, Ronbanchob, Tipmanee, Danai, Li, Li, Xing, Li, Mao, Xingli, Li, Guohui, Han, Yongming, Cao, Junji, Surapipith, Vanisa, Aekakkararungroj, Aekkapol, and Poshyachinda, Saran

Subjects

TRACE elements, PRINCIPAL components analysis, MULTIPLE regression analysis, INCINERATION, AIR quality, AIR pollutants, ARTIFICIAL neural networks

Abstract

Based on the data of the State of Global Air (2020), air quality deterioration in Thailand has caused ~32,000 premature deaths, while the World Health Organization evaluated that air pollutants can decrease the life expectancy in the country by two years. PM2.5 was collected at three air quality observatory sites in Chiang-Mai, Bangkok, and Phuket, Thailand, from July 2020 to June 2021. The concentrations of 25 elements (Na, Mg, Al, Si, S, Cl, K, Ca, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ga, As, Se, Br, Sr, Ba, and Pb) were quantitatively characterised using energy-dispersive X-ray fluorescence spectrometry. Potential adverse health impacts of some element exposures from inhaling PM2.5 were estimated by employing the hazard quotient and excess lifetime cancer risk. Higher cancer risks were detected in PM2.5 samples collected at the sampling site in Bangkok, indicating that vehicle exhaust adversely impacts human health. Principal component analysis suggests that traffic emissions, crustal inputs coupled with maritime aerosols, and construction dust were the three main potential sources of PM2.5. Artificial neural networks underlined agricultural waste burning and relative humidity as two major factors controlling the air quality of Thailand. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evolutionary History and Genetic Variation of Zika Virus: Connection Between Thailand Zika Viruses and Global Outbreaks Strains.

Author

Bahoussi, Amina Nawal, Shah, Pir Tariq, Liu, Yue, Guo, Yan-Yan, Bu, Hongli, Wu, Changxin, and Xing, Li

Subjects

VIRAL variation, GENETIC variation, WHOLE genome sequencing, VACCINE development

Abstract

Background: Zika virus (ZIKV) has significant potential to cause future outbreaks due to insufficient countermeasures. The evolution of ZIKV in Southeast Asian countries remains poorly understood. Materials and Methods: The phylogenetic, phylogeographic network, and recombination analyses of 366 ZIKV complete genome sequences identified between 1947 and 2021 were performed and the amino acid variation landscape was determined to reveal the evolutionary characteristics. Results: ZIKV falls into two major genogroups: GI and GII, segregated into further subgenogroups (GI-1 to GI-3) and (GII-1 to GII-3), respectively. Importantly, Thailand strains cluster with Southeast Asian outbreak strains (Singapore 2016, the Philippines 2012, Cambodia 2010) into GII-2 and form a lineage independent of French Polynesia and the Americas large outbreak strains. Thailand ZIKV strains shared their ancestral route to the strains from French Polynesia, which further connects to Brazil ZIKV through a short mutational branch. Both recombination and specific mutations may contribute to the emergence of new virus lineage in Thailand. Conclusion: This report provides insights into the evolutionary characteristics of ZIKV in Southeast Asia, which may be helpful for epidemiological investigation, vaccine development, and surveillance of the virus. [ABSTRACT FROM AUTHOR]

Published

2024

3. An Application of Artificial Neural Network to Evaluate the Influence of Weather Conditions on the Variation of PM 2.5 -Bound Carbonaceous Compositions and Water-Soluble Ionic Species.

Author

Pongpiachan, Siwatt, Wang, Qiyuan, Apiratikul, Ronbanchob, Tipmanee, Danai, Li, Yu, Xing, Li, Li, Guohui, Han, Yongming, Cao, Junji, Macatangay, Ronald C., Poshyachinda, Saran, Aekakkararungroj, Aekkapol, and Hashmi, Muhammad Zaffar

Subjects

CARBONACEOUS aerosols, ARTIFICIAL neural networks, WEATHER, PRINCIPAL components analysis, AIR pollutants, METEOROLOGICAL satellites

Abstract

Previous studies have determined biomass burning as a major source of air pollutants in the ambient air in Thailand. To analyse the impacts of meteorological parameters on the variation of carbonaceous aerosols and water-soluble ionic species (WSIS), numerous statistical models, including a source apportionment analysis with the assistance of principal component analysis (PCA), hierarchical cluster analysis (HCA), and artificial neural networks (ANNs), were employed in this study. A total of 191 sets of PM2.5 samples were collected from the three monitoring stations in Chiang-Mai, Bangkok, and Phuket from July 2020 to June 2021. Hotspot numbers and other meteorological parameters were obtained using NOAA-20 weather satellites coupled with the Global Land Data Assimilation System. Although PCA revealed that crop residue burning and wildfires are the two main sources of PM2.5, ANNs highlighted the importance of wet deposition as the main depletion mechanism of particulate WSIS and carbonaceous aerosols. Additionally, Mg2+ and Ca2+ were deeply connected with albedo, plausibly owing to their strong hygroscopicity as the CCNs responsible for cloud formation. [ABSTRACT FROM AUTHOR]

Published

2022

4. Effects of Agricultural Waste Burning on PM2.5-Bound Polycyclic Aromatic Hydrocarbons, Carbonaceous Compositions, and Water-Soluble Ionic Species in the Ambient Air of Chiang-Mai, Thailand.

Author

ChooChuay, Chomsri, Pongpiachan, Siwatt, Tipmanee, Danai, Deelaman, Woranuch, Iadtem, Natthapong, Suttinun, Oramas, Wang, Qiyuan, Xing, Li, Li, Guohui, Han, Yongming, Hashmi, Muhammad Zaffar, Palakun, Jittree, Poshyachinda, Saran, Aukkaravittayapun, Suparerk, Surapipith, Vanisa, and Cao, Junji

Subjects

INCINERATION, POLYCYCLIC aromatic hydrocarbons, AGRICULTURAL wastes, CARBONACEOUS aerosols, BIOMASS burning, COAL combustion

Abstract

PM2.5 is widely regarded as a major air pollutant due to its adverse health impacts and intimate relationship with the climate system. This study aims to characterize the chemical components (e.g., organic carbon (OC), elemental carbon (EC), water soluble ionic species (WSIS) and polycyclic aromatic hydrocarbons (PAHs) in PM2.5 collected at Doi–Inthanon in Chiang-Mai, Thailand, the highest mountain in Thailand. All samples (n = 50) were collected by MiniVolTM portable air samplers from March 2017 to March 2018. In this study we found the average PM2.5 concentration was 100 ± 48.6 μg m−3. The OC/EC ratio was 6.8 ± 3.0, and the decreasing order of the WSIS concentrations was SO42->Na+>Ca2+>NH4+>NO3->K+>Cl−>NO2->Mg2+> F-. The total concentrations of nineteen PAHs were defined as the sum of Ace, Fl, Phe, Ant, Fluo, Pyr, B[a]A, Chry, B[b]F, B[k]F, B[a]F, B[e]P, B[a]P, Per, Ind, B[g,h,i]P, D[a,h]A, Cor, and D[a,e]P. The concentration of total PAHs was 2.361 ± 2.154 µg m−3. Principal component analysis (PCA) highlights the importance of vehicular exhaust, biomass burning, diesel emissions, sea-salt aerosols and volatilization from fertilizers as the five dominant potential sources that accounted for 51.6%, 16.2%, 10.6%, 5.20% and 3.70% of the total variance, respectively. The rest of the 12.7% variance probably is associated with unidentified local and regional sources such as incinerators, joss paper/incense burning, and domestic cooking. Interestingly, the results from the source estimations from the PCA underlined the importance of vehicular exhaust as the major contributor to the PM2.5 concentrations in the ambient air of Don-Inthanon, Chiang-Mai province. However, it is crucial to emphasize that the impacts of agricultural waste burning, fossil fuel combustion, coal combustion and forest fires on the variations of OC, EC and WSIS contents were not negligible. [ABSTRACT FROM AUTHOR]

Published

2022

5. Vertical profile of organic and elemental carbon in sediments of Songkhla Lake, Thailand.

Author

Pongpiachan, Siwatt, Tipmanee, Danai, Choochuay, Chomsri, Hattayanone, Mattanawadee, Deelaman, Woranuch, Iadtem, Natthapong, Bunsomboonsakul, Suratta, Palakun, Jittree, Poshyachinda, Saran, Leckngam, Apichart, Somboonpon, Pitipong, Panyaphirawat, Thirasak, Aukkaravittayapun, Suparerk, Wang, Qiyuan, Xing, Li, Li, Guohui, Han, Yongming, and Cao, Junji

Subjects

LAKE sediments, CARBONACEOUS aerosols, SEDIMENT sampling, ATMOSPHERIC deposition, SEDIMENTATION & deposition, BIOMASS burning, VOLCANIC eruptions

Abstract

In this study, a historical record of atmospheric deposition in the sediment cores from Songkhla Lake, the second largest lake in Southeast Asia, located in the southern part of Thailand is reported. It is well known that lake sediments, including spheroidal carbonaceous particles generated by both anthropogenic and natural emissions, contain records of lake, catchment, and atmospheric deposition histories. Vertical profiles of these carbonaceous particles can be used to investigate enormously influential disturbances, particularly those triggered by extreme paleo events, over large spatial areas. In this study, organic carbon/elemental carbon (OC/EC) ratios displayed unusually high values of 3.07 and 4.02 for depths 240 and 340 mm, respectively. Previous studies have attributed remarkably high values of OC/EC ratios to both biomass burnings and volcanic eruptions. Although anthropogenic emissions (e.g. fossil fuel combustions) can be responsible for relatively high levels of contamination, as expected, the existence of relatively low OC/EC ratios (i.e. 1.43 ± 0.30) for all sediment samples (except those collected at 240 and 340 mm depths) suggests a tropical background of these particles. [ABSTRACT FROM AUTHOR]

Published

2019

6. A 150-year record of black carbon (soot and char) and polycyclic aromatic compounds deposition in Lake Phayao, north Thailand.

Author

Han, Yongming, Bandowe, Benjamin A. Musa, Schneider, Tobias, Pongpiachan, Siwatt, Ho, Steven Sai Hang, Wei, Chong, Wang, Qiyuan, Xing, Li, and Wilcke, Wolfgang

Subjects

SOOT, POLYCYCLIC aromatic compounds, CARBON-black, CARBONACEOUS aerosols, CHAR, BIOMASS burning, EMISSION inventories, BIOCHAR

Abstract

An improved understanding of the historical variation in the emissions and sources (biomass burning, BB vs. fossil fuel, FF combustion) of soot and char, the two components of black carbon (BC), and polycyclic aromatic compounds (PACs) may help in assessing the environmental effects of the Atmospheric Brown Cloud (ABC) in SE Asia. We therefore determined historical variations of the fluxes of soot, char, and PACs (24 polycyclic aromatic hydrocarbons (PAHs), 12 oxygenated PAHs (OPAHs), and 4 azaarenes) in a dated sediment core (covering the past ∼150 years) of Phayao Lake in Thailand. The soot fluxes have been increasing in recent times, but at a far lower rate than previously estimated based on BC emission inventories. This may be associated with a decreasing BB contribution as indicated by the decreasing char fluxes from old to young sediments. The fluxes of high- and low-molecular-weight (HMW and LMW) PAHs, OPAHs, and azaarenes all sharply increased after ∼1980, while the ΣLMW-/ΣHMW-PAHs ratios decreased, further supporting the reduction in BB contribution at the expense of increasing FF combustion emissions. We also suggest that the separate record of char and soot, which has up to now not been done in aerosol studies, is useful to assess the environmental effects of ABC because of the different light-absorbing properties of these two BC components. Our results suggest that besides the establishment of improved FF combustion technology, BB must be further reduced in the SE Asian region in order to weaken the ABC haze. Image 1 • Deposition of black carbon, soot and PACs to a Thai sediment core sharply increased since ∼1980. • Variations in char and soot deposition in Thailand over the past 150 years were decoupled. • Decreasing biomass burning offset the recent increase in other soot emissions to the atmosphere. [ABSTRACT FROM AUTHOR]

Published

2021

7. Quantifying the contributions of local emissions and regional transport to elemental carbon in Thailand.

Author

Xing, Li, Li, Guohui, Pongpiachan, Siwatt, Wang, Qiyuan, Han, Yongming, Cao, Junji, Tipmanee, Danai, Palakun, Jittree, Aukkaravittayapun, Suparerk, Surapipith, Vanisa, and Poshyachinda, Saran

Subjects

AIR pollution control, BIOMASS burning, METEOROLOGICAL research, EMISSION control, WEATHER forecasting

Abstract

We used the Weather Research and Forecasting Model coupled with Chemistry (WRF-Chem) to simulate elemental carbon (EC) concentrations in Thailand in 2017. The goals were to quantify the respective contributions of local emissions and regional transport outside Thailand to EC pollution in Thailand, and to identify the most effective emission control strategy for decreasing EC pollution. The simulated EC concentrations in Chiang Mai, Bangkok, and Phuket were comparable with the observation data. The correlation coefficient between the simulated and observed EC concentrations was 0.84, providing a good basis for evaluating EC sources in Thailand. The simulated mean EC concentration over the whole country was the highest (1.38 μg m−3) in spring, and the lowest (0.51 μg m−3) in summer. We conducted several sensitivity simulations to evaluate EC sources. Local emissions (including anthropogenic and biomass burning emissions) and regional transport outside Thailand contributed 81.2% and 18.8% to the annual mean EC concentrations, respectively, indicating that local sources played the dominant role for EC pollution in Thailand. Among the local sources, anthropogenic emissions (including the industry, power plant, residential, and transportation sectors) and biomass burning contributed 75.1% and 6.1% to the annual mean EC concentrations, respectively. As the anthropogenic emissions dominated the EC pollution, we performed four sensitivity simulations by reducing 30% of the emissions from each of the industry, power plant, residential, and transportation sectors in Thailand. The results indicated that controlling transportation emissions in Thailand was the most effective way in reducing the EC pollution. The 30% reduction of transportation emissions decreased the annual mean EC concentrations by 12.1%. In contrast, 30% reductions of the residential, industry, and power plant emissions caused 8.4%, 6.4%, and 4.0% decreases in the annual mean EC concentrations, respectively. The model results could potentially provide useful information for air pollution control strategies in Thailand. Image 1 • EC concentrations in Thailand are the highest in spring and the lowest in summer. • The local anthropogenic emissions in Thailand contribute 75.1% to EC pollution. • Biomass burning emissions in Thailand contribute 6.1% to EC concentrations. • Regional transport contributes 18.8% to EC pollution in Thailand. • Model reveals that controlling transportation sources reduces EC pollution the most. Main finding: Anthropogenic emissions in Thailand, biomass burning in Thailand, and regional transport outside Thailand contribute 75.1%, 6.1%, and 18.8% of the annual-mean EC concentrations in Thailand. Controlling the transportation emissions in Thailand is effective for reducing EC pollution. [ABSTRACT FROM AUTHOR]

Published

2020

8. Combined use of principal component analysis/multiple linear regression analysis and artificial neural network to assess the impact of meteorological parameters on fluctuation of selected PM2.5-bound elements.

Author

Pongpiachan S, Wang Q, Apiratikul R, Tipmanee D, Li L, Xing L, Mao X, Li G, Han Y, Cao J, Surapipith V, Aekakkararungroj A, and Poshyachinda S

Subjects

Humans, Principal Component Analysis, Environmental Monitoring, Thailand, Dust analysis, Regression Analysis, Particulate Matter analysis, Air Pollutants analysis, Neoplasms

Abstract

Based on the data of the State of Global Air (2020), air quality deterioration in Thailand has caused ~32,000 premature deaths, while the World Health Organization evaluated that air pollutants can decrease the life expectancy in the country by two years. PM2.5 was collected at three air quality observatory sites in Chiang-Mai, Bangkok, and Phuket, Thailand, from July 2020 to June 2021. The concentrations of 25 elements (Na, Mg, Al, Si, S, Cl, K, Ca, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ga, As, Se, Br, Sr, Ba, and Pb) were quantitatively characterised using energy-dispersive X-ray fluorescence spectrometry. Potential adverse health impacts of some element exposures from inhaling PM2.5 were estimated by employing the hazard quotient and excess lifetime cancer risk. Higher cancer risks were detected in PM2.5 samples collected at the sampling site in Bangkok, indicating that vehicle exhaust adversely impacts human health. Principal component analysis suggests that traffic emissions, crustal inputs coupled with maritime aerosols, and construction dust were the three main potential sources of PM2.5. Artificial neural networks underlined agricultural waste burning and relative humidity as two major factors controlling the air quality of Thailand., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Pongpiachan et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

9. Evolutionary History and Genetic Variation of Zika Virus: Connection Between Thailand Zika Viruses and Global Outbreaks Strains.

Author

Bahoussi AN, Shah PT, Liu Y, Guo YY, Bu H, Wu C, and Xing L

Subjects

Animals, Phylogeny, Thailand epidemiology, Disease Outbreaks, Genetic Variation, Zika Virus, Zika Virus Infection epidemiology, Zika Virus Infection veterinary

Abstract

Background: Zika virus (ZIKV) has significant potential to cause future outbreaks due to insufficient countermeasures. The evolution of ZIKV in Southeast Asian countries remains poorly understood. Materials and Methods: The phylogenetic, phylogeographic network, and recombination analyses of 366 ZIKV complete genome sequences identified between 1947 and 2021 were performed and the amino acid variation landscape was determined to reveal the evolutionary characteristics. Results: ZIKV falls into two major genogroups: GI and GII, segregated into further subgenogroups (GI-1 to GI-3) and (GII-1 to GII-3), respectively. Importantly, Thailand strains cluster with Southeast Asian outbreak strains (Singapore 2016, the Philippines 2012, Cambodia 2010) into GII-2 and form a lineage independent of French Polynesia and the Americas large outbreak strains. Thailand ZIKV strains shared their ancestral route to the strains from French Polynesia, which further connects to Brazil ZIKV through a short mutational branch. Both recombination and specific mutations may contribute to the emergence of new virus lineage in Thailand. Conclusion: This report provides insights into the evolutionary characteristics of ZIKV in Southeast Asia, which may be helpful for epidemiological investigation, vaccine development, and surveillance of the virus.

Published

2024