The role of increased gonotrophic cycles in the establishment of Wolbachia in Anopheles populations

Wolbachia , a bacterium that infects insect populations, has been examined extensively in Drosophila populations and, in recent years, has garnered significant attention for its potential to reduce the spread of dengue in the Aedes mosquito population. Similar applications to Anopheles mosquitoes for the reduction of malaria have not been as thoroughly studied, as Anopheles were previously thought to be devoid of Wolbachia infection. The recent discovery, however, of Wolbachia in two separate wild Anopheles populations suggests further study is needed. We develop and analyze an ordinary differential equation model of Wolbachia infection in Anopheles mosquitoes, which demonstrate different reproductive phenotypes than Aedes mosquitoes when infected with Wolbachia . In particular, they do not show the hallmark cytoplasmic incompatibility phenotype—absence of viable offspring when infected males mate with uninfected females—or other standard sex-biasing phenotypes. Instead, evidence of increased speed of gonotrophic cycles by Wolbachia -infected females has been reported. We show that the ability for Wolbachia to invade for a basic reproductive number less than 1 ( R pop