Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity

Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity

Drivers of open-air public utility jeepneys (PUJs) in the Philippines are regularly exposed to severe levels of fine particulate pollution (PM2.5), making them the appropriate sub-population for investigating the health impacts of PM2.5 on populations chronically exposed to these kinds of unique sou...

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Main Authors: Collado, Jarl Tynan, Abalos, Jose Gabriel, de los Reyes, Imee, Cruz, Melliza T., Leung, Gabrielle Frances, Abenojar, Katrina, Manalo, Carlos Rosauro, Go, Bernell, Chan, Christine L., Gotangco, Charlotte Kendra Z, Simpas, James Bernard, Porio, Emma E, Wong, John Q., Lung, Shih Chun Candice, Cambaliza, Maria Obiminda L.
Format: text
Published: Archīum Ateneo 2023
Subjects:
Jeepney
Low-cost sensor
Metro Manila
Personal monitoring
Traffic pollution
Environmental Indicators and Impact Assessment
Environmental Monitoring
Environmental Public Health
Environmental Sciences
Physical Sciences and Mathematics
Online Access:https://archium.ateneo.edu/es-faculty-pubs/119
https://drive.google.com/file/d/1D98eXz47Wv3bpzB6vmJm2L2UzIei6fA3/view?usp=sharing
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.es-faculty-pubs-11182024-02-21T08:02:06Z Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity Collado, Jarl Tynan Abalos, Jose Gabriel de los Reyes, Imee Cruz, Melliza T. Leung, Gabrielle Frances Abenojar, Katrina Manalo, Carlos Rosauro Go, Bernell Chan, Christine L. Gotangco, Charlotte Kendra Z Simpas, James Bernard Porio, Emma E Wong, John Q. Lung, Shih Chun Candice Cambaliza, Maria Obiminda L. Drivers of open-air public utility jeepneys (PUJs) in the Philippines are regularly exposed to severe levels of fine particulate pollution (PM2.5), making them the appropriate sub-population for investigating the health impacts of PM2.5 on populations chronically exposed to these kinds of unique sources. Real-time PM2.5 exposures of PUJ drivers for a high-traffic route in Metro Manila, Philippines were assessed using Academia Sinica-LUNG (AS_LUNG) portable sensing devices. From all 15-second measurements obtained, the mean concentration of PM2.5 is 36.4 µg m–3, seven times greater than the mean annual guideline value (5.0 µg m–3) set by the World Health Organization (WHO). Elevated levels of PM2.5 were observed at key transportation microenvironments (TMEs) such as a transport terminal and near a shopping mall. The occurrence of hotspots along the route is mainly attributed to traffic-promoting factors like stoplights and traffic rush hours. Multiple linear regression (MLR) analysis revealed that the area by the shopping mall had the highest contribution (β = 52 µg m–3) to PUJ driver exposure. To the best of our knowledge, this study is the first in the country to perform a detailed characterization of the exposure of a high-risk occupational group to PM2.5. These results reveal information that is normally undetected by fixed site monitoring (FSM), underscoring the importance of mobile measurements as a complement to FSM in assessing the exposure of urban populations to air pollution more extensively. Furthermore, this study demonstrates the heavy influence of traffic-promoting factors on air pollution, and the feasibility of high-resolution mobile sensing for quantifying pollution characteristics in rapidly developing nations with unique air pollution sources. Gaps in our knowledge of their health impacts may be closed through quantifying exposure using reliable sensing devices and methods presented in this work. 2023-01-01T08:00:00Z text https://archium.ateneo.edu/es-faculty-pubs/119 https://drive.google.com/file/d/1D98eXz47Wv3bpzB6vmJm2L2UzIei6fA3/view?usp=sharing Environmental Science Faculty Publications Archīum Ateneo Jeepney Low-cost sensor Metro Manila Personal monitoring Traffic pollution Environmental Indicators and Impact Assessment Environmental Monitoring Environmental Public Health Environmental Sciences Physical Sciences and Mathematics
institution Ateneo De Manila University
building Ateneo De Manila University Library
continent Asia
country Philippines
Philippines
content_provider Ateneo De Manila University Library
collection archium.Ateneo Institutional Repository
topic Jeepney
Low-cost sensor
Metro Manila
Personal monitoring
Traffic pollution
Environmental Indicators and Impact Assessment
Environmental Monitoring
Environmental Public Health
Environmental Sciences
Physical Sciences and Mathematics
spellingShingle Jeepney
Low-cost sensor
Metro Manila
Personal monitoring
Traffic pollution
Environmental Indicators and Impact Assessment
Environmental Monitoring
Environmental Public Health
Environmental Sciences
Physical Sciences and Mathematics
Collado, Jarl Tynan
Abalos, Jose Gabriel
de los Reyes, Imee
Cruz, Melliza T.
Leung, Gabrielle Frances
Abenojar, Katrina
Manalo, Carlos Rosauro
Go, Bernell
Chan, Christine L.
Gotangco, Charlotte Kendra Z
Simpas, James Bernard
Porio, Emma E
Wong, John Q.
Lung, Shih Chun Candice
Cambaliza, Maria Obiminda L.
Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
description Drivers of open-air public utility jeepneys (PUJs) in the Philippines are regularly exposed to severe levels of fine particulate pollution (PM2.5), making them the appropriate sub-population for investigating the health impacts of PM2.5 on populations chronically exposed to these kinds of unique sources. Real-time PM2.5 exposures of PUJ drivers for a high-traffic route in Metro Manila, Philippines were assessed using Academia Sinica-LUNG (AS_LUNG) portable sensing devices. From all 15-second measurements obtained, the mean concentration of PM2.5 is 36.4 µg m–3, seven times greater than the mean annual guideline value (5.0 µg m–3) set by the World Health Organization (WHO). Elevated levels of PM2.5 were observed at key transportation microenvironments (TMEs) such as a transport terminal and near a shopping mall. The occurrence of hotspots along the route is mainly attributed to traffic-promoting factors like stoplights and traffic rush hours. Multiple linear regression (MLR) analysis revealed that the area by the shopping mall had the highest contribution (β = 52 µg m–3) to PUJ driver exposure. To the best of our knowledge, this study is the first in the country to perform a detailed characterization of the exposure of a high-risk occupational group to PM2.5. These results reveal information that is normally undetected by fixed site monitoring (FSM), underscoring the importance of mobile measurements as a complement to FSM in assessing the exposure of urban populations to air pollution more extensively. Furthermore, this study demonstrates the heavy influence of traffic-promoting factors on air pollution, and the feasibility of high-resolution mobile sensing for quantifying pollution characteristics in rapidly developing nations with unique air pollution sources. Gaps in our knowledge of their health impacts may be closed through quantifying exposure using reliable sensing devices and methods presented in this work.
format text
author Collado, Jarl Tynan
Abalos, Jose Gabriel
de los Reyes, Imee
Cruz, Melliza T.
Leung, Gabrielle Frances
Abenojar, Katrina
Manalo, Carlos Rosauro
Go, Bernell
Chan, Christine L.
Gotangco, Charlotte Kendra Z
Simpas, James Bernard
Porio, Emma E
Wong, John Q.
Lung, Shih Chun Candice
Cambaliza, Maria Obiminda L.
author_facet Collado, Jarl Tynan
Abalos, Jose Gabriel
de los Reyes, Imee
Cruz, Melliza T.
Leung, Gabrielle Frances
Abenojar, Katrina
Manalo, Carlos Rosauro
Go, Bernell
Chan, Christine L.
Gotangco, Charlotte Kendra Z
Simpas, James Bernard
Porio, Emma E
Wong, John Q.
Lung, Shih Chun Candice
Cambaliza, Maria Obiminda L.
author_sort Collado, Jarl Tynan
title Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
title_short Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
title_full Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
title_fullStr Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
title_full_unstemmed Spatiotemporal Assessment of PM2.5 Exposure of a High-risk Occupational Group in a Southeast Asian Megacity
title_sort spatiotemporal assessment of pm2.5 exposure of a high-risk occupational group in a southeast asian megacity
publisher Archīum Ateneo
publishDate 2023
url https://archium.ateneo.edu/es-faculty-pubs/119
https://drive.google.com/file/d/1D98eXz47Wv3bpzB6vmJm2L2UzIei6fA3/view?usp=sharing
_version_ 1792202649103237120

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