Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry
Fireworks degrade air quality, reduce visibility, alter atmospheric chemistry, and cause short-term adverse health effects. However, there have not been any comprehensive physicochemical and optical measurements of fireworks and their associated impacts in a Southeast Asia megacity, where fireworks...
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Archīum Ateneo
2021
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Oceanography and Atmospheric Sciences and Meteorology Physics Lorenzo, Genevieve Rose Bañaga, Paola Angela Cambaliza, Maria Obiminda L Cruz, Melliza Templonuevo Azadi Aghdam, Mojtaba Arellano, Avelino Betito, Grace Braun, Rachel A Corral, Andrea F Dadashazar, Hossein Edwards, Eva-Lou Eloranta, Edwin Holz, Robert Leung, Gabrielle Ma, Lin MacDonald, Alexander B Reid, Jeffrey S Simpas, James Bernard Stahl, Connor Visaga, Shane Marie Sorooshian, Armin Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
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Fireworks degrade air quality, reduce visibility, alter atmospheric chemistry, and cause short-term adverse health effects. However, there have not been any comprehensive physicochemical and optical measurements of fireworks and their associated impacts in a Southeast Asia megacity, where fireworks are a regular part of the culture. Size-resolved particulate matter (PM) measurements were made before, during, and after New Year 2019 at the Manila Observatory in Quezon City, Philippines, as part of the Cloud, Aerosol, and Monsoon Processes Philippines Experiment (CAMP2Ex). A high-spectral-resolution lidar (HSRL) recorded a substantial increase in backscattered signal associated with high aerosol loading ∼440 m above the surface during the peak of firework activities around 00:00 (local time). This was accompanied by PM2.5 concentrations peaking at 383.9 µg m−3. During the firework event, water-soluble ions and elements, which affect particle formation, growth, and fate, were mostly in the submicrometer diameter range. Total (>0.056 µm) water-soluble bulk particle mass concentrations were enriched by 5.7 times during the fireworks relative to the background (i.e., average of before and after the firework). The water-soluble mass fraction of PM2.5 increased by 18.5 % above that of background values. This corresponded to increased volume fractions of inorganics which increased bulk particle hygroscopicity, kappa (κ), from 0.11 (background) to 0.18 (fireworks). Potassium and non-sea-salt (nss) SO42-" role="presentation" style="box-sizing: border-box; border-radius: 0px; display: inline; line-height: normal; word-spacing: normal; overflow-wrap: normal; white-space: nowrap; float: none; direction: ltr; max-width: none; max-height: none; min-width: 0px; min-height: 0px; border: 0px; padding: 0px; margin: 0px; position: relative;">2−4 contributed the most (70.9 %) to the water-soluble mass, with their mass size distributions shifting from a smaller to a larger submicrometer mode during the firework event. On the other hand, mass size distributions for NO3-" role="presentation" style="box-sizing: border-box; border-radius: 0px; display: inline; line-height: normal; word-spacing: normal; overflow-wrap: normal; white-space: nowrap; float: none; direction: ltr; max-width: none; max-height: none; min-width: 0px; min-height: 0px; border: 0px; padding: 0px; margin: 0px; position: relative;">−3, Cl−, and Mg2+ (21.1 % mass contribution) shifted from a supermicrometer mode to a submicrometer mode. Being both uninfluenced by secondary aerosol formation and constituents of firework materials, a subset of species were identified as the best firework tracer species (Cu, Ba, Sr, K+, Al, and Pb). Although these species (excluding K+) only contributed 2.1 % of the total mass concentration of water-soluble ions and elements, they exhibited the highest enrichments (6.1 to 65.2) during the fireworks. Surface microscopy analysis confirmed the presence of potassium/chloride-rich cubic particles along with capsule-shaped particles in firework samples. The results of this study highlight how firework emissions change the physicochemical and optical properties of water-soluble particles (e.g., mass size distribution, composition, hygroscopicity, and aerosol backscatter), which subsequently alters the background aerosol's respirability, influence on surroundings, ability to uptake gases, and viability as cloud condensation nuclei (CCN). |
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Lorenzo, Genevieve Rose Bañaga, Paola Angela Cambaliza, Maria Obiminda L Cruz, Melliza Templonuevo Azadi Aghdam, Mojtaba Arellano, Avelino Betito, Grace Braun, Rachel A Corral, Andrea F Dadashazar, Hossein Edwards, Eva-Lou Eloranta, Edwin Holz, Robert Leung, Gabrielle Ma, Lin MacDonald, Alexander B Reid, Jeffrey S Simpas, James Bernard Stahl, Connor Visaga, Shane Marie Sorooshian, Armin |
| author_facet |
Lorenzo, Genevieve Rose Bañaga, Paola Angela Cambaliza, Maria Obiminda L Cruz, Melliza Templonuevo Azadi Aghdam, Mojtaba Arellano, Avelino Betito, Grace Braun, Rachel A Corral, Andrea F Dadashazar, Hossein Edwards, Eva-Lou Eloranta, Edwin Holz, Robert Leung, Gabrielle Ma, Lin MacDonald, Alexander B Reid, Jeffrey S Simpas, James Bernard Stahl, Connor Visaga, Shane Marie Sorooshian, Armin |
| author_sort |
Lorenzo, Genevieve Rose |
| title |
Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
| title_short |
Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
| title_full |
Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
| title_fullStr |
Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
| title_full_unstemmed |
Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry |
| title_sort |
measurement report: firework impacts on air quality in metro manila, philippines, during the 2019 new year revelry |
| publisher |
Archīum Ateneo |
| publishDate |
2021 |
| url |
https://archium.ateneo.edu/physics-faculty-pubs/76 https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1075&context=physics-faculty-pubs |
| _version_ |
1728621366507208704 |
| spelling |
ph-ateneo-arc.physics-faculty-pubs-10752022-03-28T08:30:51Z Measurement Report: Firework Impacts on Air Quality in Metro Manila, Philippines, during the 2019 New Year Revelry Lorenzo, Genevieve Rose Bañaga, Paola Angela Cambaliza, Maria Obiminda L Cruz, Melliza Templonuevo Azadi Aghdam, Mojtaba Arellano, Avelino Betito, Grace Braun, Rachel A Corral, Andrea F Dadashazar, Hossein Edwards, Eva-Lou Eloranta, Edwin Holz, Robert Leung, Gabrielle Ma, Lin MacDonald, Alexander B Reid, Jeffrey S Simpas, James Bernard Stahl, Connor Visaga, Shane Marie Sorooshian, Armin Fireworks degrade air quality, reduce visibility, alter atmospheric chemistry, and cause short-term adverse health effects. However, there have not been any comprehensive physicochemical and optical measurements of fireworks and their associated impacts in a Southeast Asia megacity, where fireworks are a regular part of the culture. Size-resolved particulate matter (PM) measurements were made before, during, and after New Year 2019 at the Manila Observatory in Quezon City, Philippines, as part of the Cloud, Aerosol, and Monsoon Processes Philippines Experiment (CAMP2Ex). A high-spectral-resolution lidar (HSRL) recorded a substantial increase in backscattered signal associated with high aerosol loading ∼440 m above the surface during the peak of firework activities around 00:00 (local time). This was accompanied by PM2.5 concentrations peaking at 383.9 µg m−3. During the firework event, water-soluble ions and elements, which affect particle formation, growth, and fate, were mostly in the submicrometer diameter range. Total (>0.056 µm) water-soluble bulk particle mass concentrations were enriched by 5.7 times during the fireworks relative to the background (i.e., average of before and after the firework). The water-soluble mass fraction of PM2.5 increased by 18.5 % above that of background values. This corresponded to increased volume fractions of inorganics which increased bulk particle hygroscopicity, kappa (κ), from 0.11 (background) to 0.18 (fireworks). Potassium and non-sea-salt (nss) SO42-" role="presentation" style="box-sizing: border-box; border-radius: 0px; display: inline; line-height: normal; word-spacing: normal; overflow-wrap: normal; white-space: nowrap; float: none; direction: ltr; max-width: none; max-height: none; min-width: 0px; min-height: 0px; border: 0px; padding: 0px; margin: 0px; position: relative;">2−4 contributed the most (70.9 %) to the water-soluble mass, with their mass size distributions shifting from a smaller to a larger submicrometer mode during the firework event. On the other hand, mass size distributions for NO3-" role="presentation" style="box-sizing: border-box; border-radius: 0px; display: inline; line-height: normal; word-spacing: normal; overflow-wrap: normal; white-space: nowrap; float: none; direction: ltr; max-width: none; max-height: none; min-width: 0px; min-height: 0px; border: 0px; padding: 0px; margin: 0px; position: relative;">−3, Cl−, and Mg2+ (21.1 % mass contribution) shifted from a supermicrometer mode to a submicrometer mode. Being both uninfluenced by secondary aerosol formation and constituents of firework materials, a subset of species were identified as the best firework tracer species (Cu, Ba, Sr, K+, Al, and Pb). Although these species (excluding K+) only contributed 2.1 % of the total mass concentration of water-soluble ions and elements, they exhibited the highest enrichments (6.1 to 65.2) during the fireworks. Surface microscopy analysis confirmed the presence of potassium/chloride-rich cubic particles along with capsule-shaped particles in firework samples. The results of this study highlight how firework emissions change the physicochemical and optical properties of water-soluble particles (e.g., mass size distribution, composition, hygroscopicity, and aerosol backscatter), which subsequently alters the background aerosol's respirability, influence on surroundings, ability to uptake gases, and viability as cloud condensation nuclei (CCN). 2021-04-23T07:00:00Z text application/pdf https://archium.ateneo.edu/physics-faculty-pubs/76 https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1075&context=physics-faculty-pubs Physics Faculty Publications Archīum Ateneo Oceanography and Atmospheric Sciences and Meteorology Physics |