Abstract

The exposure to airborne particulate matter (PM) and its constituents is an important factor to be considered when evaluating their potential health risk. Transition metals found in PM are known to contribute significantly to the exacerbation of respiratory ailments. Exposure to these constituents results in the induction of oxidative stress in the bronchial epithelium, thus promoting the secretion of inflammatory mediators. Therefore, it is important to know the contributions of PM2.5 constituents to further investigate their relationship with toxic responses and associated health risks. PM2.5 samples from three rural (Humacao, Guayama, and Guayanilla) and two urban (more populated) sites (Bayamón and Ponce) from Puerto Rico were analyzed for various inorganic constituents. A total of 59 trace elements were analyzed, of which eight were considered with the greatest toxic potential. The highest annual average concentration of PM2.5 was reported at the urban site of Ponce (5.82 ± 1.40 μg m−3), while Bayamón’s average concentration was not as high (4.69 ± 1.30 μg m−3) compared to concentrations at the rural sites Humacao, Guayama, and Guayanilla (4.33 ± 1.20 μg m−3, 4.93 ± 1.50 μg m−3, and 4.88 ± 1.20 μg m−3 respectively. The concentration at the Ponce site exhibited the highest summer value (7.57 μg m−3) compared to that of all the rural sites (~ 6.40 μg m−3). The lowest summer PM2.5 values were obtained at the Humacao site with an average of 5.76 μg m−3. Average Cu and Zn concentrations were 3- and 2-fold higher at the urban sites (0.68 ng m−3 and 6.74 ng m−3 respectively) compared to the rural sites (0.17 ng m−3 and 4.11 ng m−3). Relative toxicity of inorganic PM extract indicates Bayamón (urban) and Guayama with similar low LC50 followed by Humacao, Guayanilla, and finally Ponce (urban) with the highest LC50. Of the eight potential toxic metals considered, only Fe was found to be higher at the rural sites. To our understanding, there are different sources of emission for these metals which potentially indicate main anthropogenic sources, together with the trade winds adding periodically volcanic and African Dust Storm particulates that affect Puerto Rico. These results are the first of their kind to be reported in Puerto Rico.

Highlights

  • Airborne particulate matter (PM2.5), referred to as particle pollution (USEPA 2016), is a complex mixture of extremely small particles and liquid droplets

  • We report the measurement of 59 trace elements found in airborne PM2.5 extracts from five different sites in Puerto Rico, selected by their location

  • Humacao receives most of its airborne particulate from the reposition and deposition from the North Atlantic trade winds and the Caribbean Sea including local natural and anthropogenic sources

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Summary

Introduction

Airborne particulate matter (PM2.5), referred to as particle pollution (USEPA 2016), is a complex mixture of extremely small particles and liquid droplets. The emergence of these particles due to the industrial revolution has made the present atmosphere quite different from what it was originally. Industrialization, urbanization, and population activity aggregates lead to an increase in anthropogenic emissions from both fossil fuel and biomass combustion (Kim et al 2015). Three different types of ambient particles are defined by size: ultrafine (less than 0.10 μm), fine (0.10–2.5 μm), and coarse (2.5– 10 μm). Fine particulate matter (PM2.5) originates from fossil fuel combustion, road traffic, agriculture, and industrial manufacturing processes

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