Viruses (Sep 2023)

Ecological Niche Modeling of <i>Aedes</i> and <i>Culex</i> Mosquitoes: A Risk Map for Chikungunya and West Nile Viruses in Zambia

  • Rachel Milomba Velu,
  • Geoffrey Kwenda,
  • Samuel Bosomprah,
  • Moses Ngongo Chisola,
  • Michelo Simunyandi,
  • Caroline Cleopatra Chisenga,
  • Flavien Nsoni Bumbangi,
  • Nicholus Chintu Sande,
  • Limonty Simubali,
  • Monicah Mirai Mburu,
  • John Tembo,
  • Matthew Bates,
  • Martin Chitolongo Simuunza,
  • Roma Chilengi,
  • Yasuko Orba,
  • Hirofumi Sawa,
  • Edgar Simulundu

DOI
https://doi.org/10.3390/v15091900
Journal volume & issue
Vol. 15, no. 9
p. 1900

Abstract

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The circulation of both West Nile Virus (WNV) and Chikungunya Virus (CHIKV) in humans and animals, coupled with a favorable tropical climate for mosquito proliferation in Zambia, call for the need for a better understanding of the ecological and epidemiological factors that govern their transmission dynamics in this region. This study aimed to examine the contribution of climatic variables to the distribution of Culex and Aedes mosquito species, which are potential vectors of CHIKV, WNV, and other arboviruses of public-health concern. Mosquitoes collected from Lusaka as well as from the Central and Southern provinces of Zambia were sorted by species within the Culex and Aedes genera, both of which have the potential to transmit viruses. The MaxEnt software was utilized to predict areas at risk of WNV and CHIKV based on the occurrence data on mosquitoes and environmental covariates. The model predictions show three distinct spatial hotspots, ranging from the high-probability regions to the medium- and low-probability regions. Regions along Lake Kariba, the Kafue River, and the Luangwa Rivers, as well as along the Mumbwa, Chibombo, Kapiri Mposhi, and Mpika districts were predicted to be suitable habitats for both species. The rainfall and temperature extremes were the most contributing variables in the predictive models.

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