Last Updated

12 May 2020

Malaria Vector Ecology and Transmission Dynamics (Mali ICEMR Sub Project 3)

Objectives

The goal of this project is to investigate important neglected aspects of malaria vector and transmission field ecology at four sites in Mali, representing three major eco-zones that span the sub-Saharan Sahel region. Study sites are already well characterized with respect to vector populations, seasonal Plasmodium falciparum transmission, and malaria epidemiology.

This project, which builds on extensive preliminary studies in Mali, includes three specific aims:

  1. Evaluate how malaria vectors use limited natural and often cryptic habitats as refugia during the dry season and how these habitats serve as the source for population expansion with the onset of rains;
  2. Determine how local environmental resources used for vector resting and sugar-feeding behaviour impact malaria parasite transmission dynamics; and
  3. Investigate the prevalence of Wolbachia and Plasmodium falciparum parasites in natural populations of the Anopheles gambiae complex in different ecological settings and experimentally test how Wolbachia affects vector competence.
Principal Investigator
Rationale and Abstract

This project of the ICEMR focuses on the ecology of Anopheles malaria vector populations in Mali, West Africa, where, as in most African countries, current vector control tools used inside houses are not sufficient to achieve successful malaria control and local elimination. A better understanding of malaria vector and transmission ecology is needed. Research on malaria vectors is typically done in villages because this is where mosquitoes blood-feed on humans and transmit malaria parasites. Much less is known about how the ecology of vectors beyond the periphery of villages affects transmission. Key gaps in outside-village ecology that represent a major void in the understanding of transmission dynamics include: 1) sources and survival strategies of vector populations during the long dry season; 2) how vector survival and transmission potential are influenced by local environmental resources used for resting and sugar feeding; and 3) how recently- discovered natural infections of Wolbachia in anopheline mosquitoes may impact transmission.

Date

2017 Apr - 2021 Mar

Total Project Funding

$228,003

Funding Details

Project Site