Assessment of the exposure to PM2.5 in different Lebanese microenvironments at different temporal scales

Ali Faour; Maher Abboud; Georges Germanos; Wehbeh Farah

doi:10.1007/s10661-022-10607-6

Assessment of the exposure to PM_2.5 in different Lebanese microenvironments at different temporal scales

Environ Monit Assess. 2022 Oct 24;195(1):21. doi: 10.1007/s10661-022-10607-6.

Authors

Ali Faour¹, Maher Abboud², Georges Germanos², Wehbeh Farah²

Affiliations

¹ Center for Research and Analysis, Laboratory of Environment and Sustainable Development, Research Unit: Environment, Functional Genomics and Proteomics, Faculty of Sciences, Saint-Joseph University, Beirut, 1104 2020, Lebanon. ali.faour1@net.usj.edu.lb.
² Center for Research and Analysis, Laboratory of Environment and Sustainable Development, Research Unit: Environment, Functional Genomics and Proteomics, Faculty of Sciences, Saint-Joseph University, Beirut, 1104 2020, Lebanon.

Abstract

The weak potential of using the sole outdoor concentrations to represent personal exposure to PM_2.5 is confirmed by the literature; therefore, it is important to account for a person's movements over time when estimating the short-term personal air pollution exposure within different microenvironments (MEs). This study is an example of applying an assessment method of the exposure to PM_2.5 in different microenvironments at different temporal scales. A low-cost particle counter (the Dylos 1700) was used; its performance was validated in comparison with equivalent instruments such the SidePak AM520 Personal Aerosol Monitor (R² = 0.89). This validation also provided a function to convert measured particle number concentrations (PNCs) into calculated particle mass concentrations. The 150 profiles that was collected on a minute-by-minute basis regarding PM_2.5 concentration from December 2018 to May 2021 highlight the influence of individual activities and contextual factors on the air quality, so that Lebanon's annual PM_2.5 mean (24.2 µg⁄m³) is 142% higher than the World Health Organization (WHO) annual mean guideline (10 µg⁄m³). Winter is the most polluted period due to the increased application of space heating devices. Additionally, the occurrence of dusty winds during the spring period leads to the elevated levels of dispersed PM_2.5. Simultaneously, the rural zones are more polluted than urban ones due to the usage of more traditional heating equipment, in addition to the usage of chemical products like pesticides and fertilizers in agricultural activities in such areas. Furthermore, the (outdoor-indoor-transport) MEs indicate that the transport and indoor MEs have similar levels of suspended fine particulates, while outdoor MEs are less polluted. Studies based on the personal exposure to PM_2.5 were generally applied on specific and limited places such as schools, workplaces, or residences. The study aims to shed light on the modern method in an attempt to estimate the personal exposure to PM_2.5 and to inspire similar studies to achieve the maximum efficiency.

Keywords: Air pollution; Fine particulate matter; Microenvironments; Personal exposure; Portable monitoring tool.

MeSH terms

Air Pollutants* / analysis
Air Pollution, Indoor* / analysis
Dust
Environmental Exposure / analysis
Environmental Monitoring / methods
Fertilizers
Humans
Particle Size
Particulate Matter / analysis
Pesticides*

Substances

Particulate Matter
Air Pollutants
Fertilizers
Dust
Pesticides