Assessment of indoor air exposure among newborns and their mothers: Levels and sources of PM10, PM2.5 and ultrafine particles at 65 home environments
2020
Madureira, Joana | Slezakova, Klara | Costa, Carla | Pereira, Maria Carmo | Teixeira, João Paulo
Significant efforts have been directed towards addressing the adverse health effects of atmospheric particles, emphasizing the relevance of indoor exposure. Homes represent an indoor environment where human spend the majority of their time. Thus, the objective of this work was to concurrently assess different matrix of indoor particles considering both mass (PM₁₀, PM₂.₅) and number (N₂₀₋₁₀₀₀) concentrations in indoor and outdoor air of homes (n = 65). Real-time measurements (PM₁₀, PM₂.₅, UFP) were conducted simultaneously during 48 h in dwellings situated in Oporto, Portugal. In 75% of homes, indoor PM₂.₅ (mean = 53 μg m⁻³) exceeded limit of 25 μg m⁻³, for PM₁₀ (mean = 57 μg m⁻³) 41% of homes demonstrated average levels higher than 50 μg m⁻³, thus indicating potential risks. Indoor PM₁₀ was mostly (82–99%) composed of PM₂.₅, both PM were highly correlated (|rs|>0.9655), thus suggesting the similar origin. Indoor PM originated from infiltrations of outdoor emissions; ∼70% of homes exhibited indoor to outdoor (I/O) ratio < 1. On the contrary, UFP indoors (mean = 13.3 × 10³ # cm⁻³) were higher than outdoors (mean = 10.0 × 10³ # cm⁻³). Indoor UFP spatially varied as follows: kitchens > living rooms > bedrooms. UFP indoors were poorly correlated (|rs| = 0.456) with outdoor concentrations, I/O ratios showed that indoor UFP predominantly originated from indoor emission sources (combustions). Therefore, in order to reduce exposure to UFP and protect public health, the primary concerns should be focused on controlling emissions from indoor sources.
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