Wood burning pollution in Chile: A tale of two mid-size cities
link https://doi.org/10.1016/j.apr.2021.02.011account_box Jorquera, Héctoraccount_box Villalobos, Ana Maríaaccount_box Schauer, James J.
Comparte este registro
Cities in southern Chile are facing high levels of PM2.5 because of wood burning pollution. We quantify the contribution of wood smoke to fine particles in two mid-size cities: Molina and Valdivia, located in different climate zones. The sampling campaigns were carried out during austral winter (July to September) in 2018 (Molina) and 2019 (Valdivia). 24-h filter samples were analyzed for carbonaceous compounds, secondary ions, metals, and particle-phase organic molecular markers. Average winter concentrations of PM2.5 were 53 ± 32 μg/m3 (average ± standard deviation) in Molina and 89 ± 55 μg/m3 in Valdivia. The major component of fine particles was organic matter, representing more than 70% of PM2.5. Concentrations of organic molecular markers were used in a receptor model (US EPA CMB8.2) to identify and quantify primary sources of PM2.5. The major source of PM2.5 was wood smoke, which accounted for 41.55 ± 9.77 μg/m3 (62.9 ± 15.3%) in Molina and 43.65 ± 24.06 μg/m3 (51.7 ± 21.1%) in Valdivia. Secondary organic aerosols (SOA) generated from inefficient wood burning, contributed 20.4 ± 17.7% in Molina and 28.9 ± 27.6% in Valdivia. Secondary inorganic ions and dust are minor sources of PM2.5. The total contribution of wood smoke (adding primary wood smoke and SOA) could be as much as 83% in Molina and 81% in Valdivia, during the winter season.
Registro Sencillo
Registro Completo
| Autor | Jorquera, Héctor Villalobos, Ana María Schauer, James J. |
| Otro autor | CEDEUS (Chile) |
| Título | Wood burning pollution in Chile: A tale of two mid-size cities |
| Revista | Atmospheric Pollution Research |
| Volumen | 12 |
| Número de publicación | 4 |
| Página inicio | 50 |
| Página final | 59 |
| Fecha de publicación | 2021 |
| Resumen | Cities in southern Chile are facing high levels of PM2.5 because of wood burning pollution. We quantify the contribution of wood smoke to fine particles in two mid-size cities: Molina and Valdivia, located in different climate zones. The sampling campaigns were carried out during austral winter (July to September) in 2018 (Molina) and 2019 (Valdivia). 24-h filter samples were analyzed for carbonaceous compounds, secondary ions, metals, and particle-phase organic molecular markers. Average winter concentrations of PM2.5 were 53 ± 32 μg/m3 (average ± standard deviation) in Molina and 89 ± 55 μg/m3 in Valdivia. The major component of fine particles was organic matter, representing more than 70% of PM2.5. Concentrations of organic molecular markers were used in a receptor model (US EPA CMB8.2) to identify and quantify primary sources of PM2.5. The major source of PM2.5 was wood smoke, which accounted for 41.55 ± 9.77 μg/m3 (62.9 ± 15.3%) in Molina and 43.65 ± 24.06 μg/m3 (51.7 ± 21.1%) in Valdivia. Secondary organic aerosols (SOA) generated from inefficient wood burning, contributed 20.4 ± 17.7% in Molina and 28.9 ± 27.6% in Valdivia. Secondary inorganic ions and dust are minor sources of PM2.5. The total contribution of wood smoke (adding primary wood smoke and SOA) could be as much as 83% in Molina and 81% in Valdivia, during the winter season. |
| Derechos | acceso restringido |
| DOI | 10.1016/j.apr.2021.02.011 |
| Enlace | |
| Id de publicación en WoS | WOS:000635598900006 |
| Palabra clave | Air pollution Residential wood burning Fuel poverty Sustainable urban development |
| Tema ODS | 11 Sustainable cities and communities 03 Good health and well-being 13 Climate action |
| Tema ODS español | 11 Ciudades y comunidades sostenibles 03 Salud y bienestar 13 Acción por el clima |
| Temática | Tecnología |
| Tipo de documento | artículo |