Publication:
Analysis of the Impact of African Dust Storms on the Presence of Enteric Viruses in the Atmosphere in Tenerife, Spain

No Thumbnail Available

Date

2018-07-01

Authors

Gonzalez-Martin, Cristina
Coronado-Alvarez, Nieves M.
Teigell-Perez, Nuria
Diaz-Solano, Raquel
Exposito, Francisco J.
Diaz, Juan P.
Griffin, Dale W.
Valladares, Basilio

Advisors

Journal Title

Journal ISSN

Volume Title

Publisher

Taiwan assoc aerosol res-taar
Metrics
Google Scholar
Export

Research Projects

Organizational Units

Journal Issue

Abstract

Airborne viruses and their relation to dust storms, as a possible route for dispersion, have not been widely investigated. There are, however, studies that have described the airborne dispersal of pathogenic viruses and their potential impact on public and agronomical health. Atmospheric samples were collected in an urban area of Tenerife during 2009, 2010, 2012 and 2013 and screened for the presence of enteric viruses using PCR and sequencing. The potential relationship of viral data with African dust storms and other climatic variables (viz., the seasonality, origin of the air mass and PM levels) was analyzed. Enteroviruses and Rotaviruses were detected in 15.4% (20/130) and 36.9% (48/130) of the samples, respectively. No significant statistical relationships were observed with African dust storms or the origin of the air masses, although higher percentages of positives were obtained for dust storm days. Enterovirus detection was significantly linked to warmer seasons, and PM2.5 levels showed an inverse correlation with a rotaviral presence. This is the first multi-year report to describe the presence of Enterovirus and Rotavirus genetic sequences in air samples collected in an outdoor urban environment. The data illustrates the need for source region sampling to determine links and the influence of the weather and climatic and regional wind patterns on long-range atmospheric dispersion of viruses in future research efforts.

Description

MeSH Terms

DeCS Terms

CIE Terms

Keywords

Enteric viruses, Canary Islands, African dust storms, Airborne dispersion, Particulate matter, Polymerase-chain-reaction, Mouth-disease epidemic, Avian influenza-virus, Norwalk-like virus, Desert dust, Airborne transmission, Canary-islands, Saharan dust, Asian dust, Quantitative pcr

Citation