Assessment of Environmental Hazards to Public Health in Temperate Urban Argentina

• Published in: EcoHealth Vol. 18; no. 2; pp. 250 - 266
• Main Authors: Vadell, María Victoria, Salomone, Vanesa Natalia, Castesana, Paula Soledad, Morandeira, Natalia Soledad, Rubio, Alejandra, Cardo, María Victoria
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.06.2021; Springer Nature B.V
• Subjects: Accuracy; Air Pollution; Aluminum; Animal Ecology; Animals; Aquatic insects; Argentina; Arsenic; Benzene; Chromium; Drinking water; Dwellings; Ecosystems; Environment models; Environmental assessment; Environmental hazards; Environmental Health; Environmental monitoring; Environmental Monitoring - methods; Hazard assessment; Hazardous areas; Health hazards; Health risks; Infestation; Landfill gas; Landfills; Manganese; Medicine; Medicine & Public Health; Microbiology; Mosquitoes; Original Contribution; Polls & surveys; Public Health; Rodents; Seasons; Service stations; Urban areas; Waste disposal sites; Water and Health; Water pollution; Water wells; Argentina; Air pollution; Water pollution; Human health risk; Rodent infestation; Mosquito infestation; Urban district
• ISSN: 1612-9202; 1612-9210
• DOI: 10.1007/s10393-021-01535-x

Human health risk in urban areas depends on multiple environmental features. We performed a year-round survey in a highly urbanized district located in temperate Argentina (General San Martín, Buenos Aires) to establish baseline information about environmental hazards associated with health risks. Sampling was stratified into low and high hazardous zones according to estimated indexes previously developed for the area for four hazards: drinking water and air pollution, and mosquito and rodent infestation. Water from wells showed lower concentrations of aluminum, manganese and iron, and higher values of arsenic than tap samples, with the latter showing records above the maximum permitted for arsenic, aluminum and chromium. Benzene concentration in air was higher in summer than in winter, and in areas close to dumps and landfills, gas stations, high traffic pathways and industries with respect to low hazard areas. Adult mosquito collections were more abundant in high hazardous areas, three species from the genus Culex dominated the captures and the proportion of individuals from each species was variable seasonally and spatially. Rodent activity was recorded inside and outside dwellings, and its observed values did not differ between low and high hazardous areas. In the comparison between field data and estimated hazard maps, high accuracy was obtained for air pollution maps, intermediate accuracy for water pollution and mosquito infestation, and poor accuracy for rodent infestation. How to improve field surveys and estimated maps are both discussed, highlighting the need for dynamic feedback between GIS-based models and environmental monitoring.