Selected wetland soil properties correlate to Rift Valley fever livestock mortalities reported in 2009-10 in central South Africa

Anna M. Verster, Janice E. Liang, Melinda K. Rostal, Alan Kemp, Robert F. Brand, Assaf Anyamba, Claudia Cordel, Robert Schall, Herman Zwiegers, Janusz T. Paweska, William B. Karesh, Cornie W. Van Huyssteen

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

Outbreaks of Rift Valley fever have devastating impacts on ruminants, humans, as well as on regional and national economies. Although numerous studies on the impact and outbreak of Rift Valley fever exist, relatively little is known about the role of environmental factors, especially soil, on the aestivation of the virus. This study thus selected 22 sites for study in central South Africa, known to be the recurrent epicenter of widespread Rift Valley fever outbreaks in Southern Africa. Soils were described, sampled and analyzed in detail at each site. Of all the soil variables analyzed for, only eight (cation exchange capacity, exchangeable Ca2+, exchangeable K+, exchangeable Mg2+, soluble Ca2+, medium sand, As, and Br) were statistically identified to be potential indicators of sites with reported Rift Valley fever mortalities, as reported for the 2009-2010 Rift Valley fever outbreak. Four soil characteristics (exchangeable K+, exchangeable Mg2+, medium sand, and Br) were subsequently included in a discriminant function that could potentially be used to predict sites that had reported Rift Valley fever-associated mortalities in livestock. This study therefore constitutes an initial attempt to predict sites prone to Rift Valley fever livestock mortality from soil properties and thus serves as a basis for broader research on the interaction between soil, mosquitoes and Rift Valley fever virus. Future research should include other environmental components such as vegetation, climate, and water properties as well as correlating soil properties with floodwater Aedes spp. abundance and Rift Valley fever virus prevalence.

Original languageEnglish
Article numbere0232481
JournalPLoS ONE
Volume15
Issue number5
DOIs
StatePublished - May 2020
Externally publishedYes

Funding

WBK, MKR and JTP are thankful to the U. S. Department of Defense, Defense Threat Reduction Agency's Biological Threat Reduction Program for funding. Grant number: HDTRA1-14-1-0029

FundersFunder number
U. S. Department of Defense
Defense Threat Reduction AgencyHDTRA1-14-1-0029

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