Thomas E. Gill PhD, Forrest M. Mims BA, Shankararaman Chellam PhD
The drylands of North Africa (Sahara and Sahel) are the world’s largest sources of airborne dust. Clouds of African dust aerosols have been long known to be blown westwards across the Atlantic, and by the 1990s were recognized to be transported across and over Texas. African dust incursions in Texas typically happen several times per year in late spring and summer, manifesting as hazy skies overhead and increased ground-level concentrations of PM2.5 (particulate matter fine enough to be inhaled into the human lower respiratory tract). African dust exposure has many reported human health effects in Europe and the Caribbean, including increased all-cause mortality and increased respiratory and cardiovascular disease morbidity and mortality. In Texas, African dust’s greatest impacts occur in the Houston metropolitan area where it has been quantitatively shown to increase ambient aerosol concentrations. The potential of African dust increasing concentrations of inhalable particulate matter beyond regulatory limits is of concern. A sequence of investigations filtering particles from the air, measuring their concentrations, and subjecting them to elemental analysis documented far-transported African dust’s role in air quality in Houston and Galveston. African dust’s contributions to air pollution have been separated from those of local soils and industrial emissions, and Saharan-Sahelian dust has been indicated to sometimes constitute the majority of PM2.5 mass in Houston. While studies show the presence of inhalable metals and microorganisms including opportunistic pathogens during Saharan air incursions in Houston, the human health effects of African dust in Texas remain yet unspecified and merit further investigation.
Keywords: aerosols; Africa, Northern; air pollution; dust; particulate matter; public health; Texas
Article citation: Gill TE, Mims FM, Chellam S. African dust: Occurrence, health consequences, and impacts on Texas. The Southwest Respiratory and Critical Care Chronicles 2024;12(53):39–47
From: Department of Earth, Environmental and Resource Sciences (TEG), University of Texas at El Paso, El Paso TX; Geronimo Creek Observatory (FMM), Seguin TX; Zachry Department of Civil & Environmental Engineering and Artie McFerrin Department of Chemical Engineering (SC), Texas A&M University, College Station, TX
Submitted: 9/3/2024
Accepted: 9/17/2024
Conflicts of interest: none
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.