Abstract:
The human infectious reservoir of malaria Plasmodium falciparum parasites is governed by the
efficiency of parasite transmission during vector human contact as well as mosquito biting
preferences. Understanding mosquito biting bias in a natural setting can help inform precise
targeting of interventions to efficiently interrupt transmission. In a 15-month longitudinal cohort
study in a high transmission setting in western Kenya, we investigated human and mosquito
factors associated with differential mosquito biting by matching human DNA in single- and multi-
source Anopheles bloodmeals to the individuals they bit. We employed risk factor analyses and
econometric models of probabilistic choice to assess mosquito biting behavior with respect to
both human-to-mosquito transmission and mosquito-to-human transmission. We observed that
P. falciparum-infected school-age boys accounted for 50% of bites potentially leading to onward
transmission to mosquitoes and had an entomological inoculation rate 6.4x higher than any
other group, that infectious mosquitoes were 2.8x more likely to bite cohort members harboring
P. falciparum parasites compared to noninfectious mosquitoes, and that this preference to feed
on infected people was enhanced by the presence of higher sporozoite loads in the mosquito
head-thorax. Taken together, these results suggest that school-age boys disproportionately
contribute to the P. falciparum transmission cycle and that P. falciparum sporozoites modify
mosquito biting preferences to favor feeding on infected people.