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Cumulative effect of PM2.5 components is larger than the effect of PM2.5 mass on child health in India

Ekta Chaudhary, Franciosalgeo George, Aswathi Saji, Sagnik Dey, Santu Ghosh, Tinku Thomas, Anura V. Kurpad, Sumit Sharma, N. K. Singh, Shivang Agarwal, Unnati Mehta

2023Nature Communications74 citationsDOIOpen Access PDF

Abstract

Abstract While studies on ambient fine particulate matter (PM 2.5 ) exposure effect on child health are available, the differential effects, if any, of exposure to PM 2.5 species are unexplored in lower and middle-income countries. Using multiple logistic regression, we showed that for every 10 μg m −3 increase in PM 2.5 exposure, anaemia, acute respiratory infection, and low birth weight prevalence increase by 10% (95% uncertainty interval, UI: 9–11), 11% (8–13), and 5% (4–6), respectively, among children in India. NO 3 - , elemental carbon, and NH 4 + were more associated with the three health outcomes than other PM 2.5 species. We found that the total PM 2.5 mass as a surrogate marker for air pollution exposure could substantially underestimate the true composite impact of different components of PM 2.5 . Our findings provide key indigenous evidence to prioritize control strategies for reducing exposure to more toxic species for greater child health benefits in India.

Topics & Concepts

Environmental healthMedicineParticulatesLogistic regressionAir pollutionToxicologyBiologyInternal medicineEcologyAir Quality and Health ImpactsEnergy and Environment ImpactsClimate Change and Health Impacts
Cumulative effect of PM2.5 components is larger than the effect of PM2.5 mass on child health in India | Litcius