Ambient particulate matter in Santiago, Chile: 1989–2018: A tale of two size fractions

Título
Ambient particulate matter in Santiago, Chile: 1989–2018: A tale of two size fractions
AutoresHéctor Jorquera
LíneaCritical Resources
Año publicación2020
Revista
Palabras clave
Sustainable development, Urban air quality, Particulate matter, Road dust, Motor vehicle emissions
Resumen

We have analyzed trends in ambient fine (PM2.5) and coarse (PM2.5-10) particulate matter in Santiago, Chile, for the last 30 years. PM2.5 has monotonously decreased between 67% and 72% at those sites. Trends varied between −2.0 and −2.7 (μg/m3/year) between 1989 and late 90’s, and between −0.7 and −1.1 (μg/m3/year) afterwards. This slowing down is likely a consequence of fast increase of motor vehicles in the city, which have become a dominant source of ambient PM2.5. Annual ambient PM2.5 concentrations are still above 20 (μg/m3), so more regulation is needed to bring them down.

Coarse particles have changed little in 30 years, decreasing between 0% and 12%; particle concentrations have evolved in a non-linear way: first increasing in 1989–1995, then decreasing until 2003, and with a flat trend afterwards. We ascribe these trends to a combination of a) public works implemented throughout the city, b) fugitive dust controls like street sweeping programs and emission offsets for PM10 and c) increasing numbers of motor vehicles in the city. Further initiatives are needed to curb down coarse particles as well.

By considering interaction between trend and seasonality, we have found that ambient PM2.5 has monotonously decreased all year long at all monitoring sites with similar patterns; this is characteristic of a regional-scale pollution. For ambient PM2.5-10 trend and season have a more complex, site-specific interaction, suggesting local sources and site location in the basin are relevant in determining ambient concentrations of coarse particles.

A limitation of this study is that no quantitative link between ambient concentrations trends and atmospheric emissions could be established with the analyses carried out. A strength of the study is the long period analyzed with measurements conducted with the same gravimetric methodology.

Doi
https://doi.org/10.1016/j.jenvman.2019.110035
Autor principaljorquera@ing.puc.cl