Author:
Zalakeviciute Rasa,Alexandrino Katiuska,Mejia Danilo,Bastidas Marco G.,Oleas Nora H.,Gabela Diana,Chau Phuong Ngoc,Bonilla-Bedoya Santiago,Diaz Valeria,Rybarczyk Yves
Abstract
AbstractParticulate matter (PM) accounts for millions of premature deaths in the human population every year. Due to social and economic inequality, growing human dissatisfaction manifests in waves of strikes and protests all over the world, causing paralysis of institutions, services and circulation of transport. In this study, we aim to investigate air quality in Ecuador during the national protest of 2019, by studying the evolution of PM2.5 (PM ≤ 2.5 µm) concentrations in Ecuador and its capital city Quito using ground based and satellite data. Apart from analyzing the PM2.5 evolution over time to trace the pollution changes, we employ machine learning techniques to estimate these changes relative to the business-as-usual pollution scenario. In addition, we present a chemical analysis of plant samples from an urban park housing the strike. Positive impact on regional air quality was detected for Ecuador, and an overall − 10.75 ± 17.74% reduction of particulate pollution in the capital during the protest. However, barricade burning PM peaks may contribute to a release of harmful heavy metals (tire manufacture components such as Co, Cr, Zn, Al, Fe, Pb, Mg, Ba and Cu), which might be of short- and long-term health concerns.
Funder
CEDIA
Universidad de Las Americas, Ecuador
Publisher
Springer Science and Business Media LLC
Cited by
10 articles.
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