Recent studies have highlighted the large diversity of malaria parasites infecting African great apes (subgenus Laverania) and their strong host specificity. Although the existence of genetic incompatibilities preventing the cross-species transfer may explain host specificity, the existence of vectors with a high preference for a determined host represents another possibility. To test this hypothesis, we undertook a 15-mo-long longitudinal entomological survey in two forest regions of Gabon, where wild apes live, at different heights under the canopy. More than 2,400 anopheline mosquitoes belonging to 18 species were collected. Among them, only three species of Anopheles were found infected with ape Plasmodium: Anopheles vinckei, Anopheles moucheti, and Anopheles marshallii. Their role in transmission was confirmed by the detection of the parasites in their salivary glands. Among these species, An. vinckei showed significantly the highest prevalence of infection and was shown to be able to transmit parasites of both chimpanzees and gorillas. Transmission was also shown to be conditioned by seasonal factors and by the heights of capture under the canopy. Moreover, human landing catches of sylvan Anopheles demonstrated the propensity of these three vector species to feed on humans when available. Our results suggest therefore that the strong host specificity observed in the Laveranias is not linked to a specific association between the vertebrate host and the vector species and highlight the potential role of these vectors as bridge between apes and humans.Plasmodium | Laverania | Anopheles | ape-to-human infection | African rainforest R ecent studies on great apes in Africa have revealed the existence of a large diversity of Plasmodium parasites infecting chimpanzees and gorillas, some being related to the most deadly human parasite Plasmodium falciparum (subgenus Laverania), others to the human parasites Plasmodium malariae, Plasmodium ovale, or Plasmodium vivax (subgenus Plasmodium) (1-4).Within the subgenus Laverania, eight species are currently recognized. Among them, four species (Plasmodium reichenowi, Plasmodium gaboni, Plasmodium billcollinsi, and Plasmodium billbrayi) were observed only in chimpanzees and three (Plasmodium praefalciparum, Plasmodium adleri, and Plasmodium blacklocki) only in gorillas (2,3,5). In this subgenus, only P. falciparum infects humans. In natura, although these different host species cooccur in the same habitat where their ranges overlap, no transfer of Laverania parasites was ever documented between humans and apes or between gorillas and chimpanzees despite large sampling efforts (2, 3, 6). Similarly, ancient reciprocal transplant experiments of Laverania parasites between humans and apes (mostly chimpanzees) failed to produce infections (5). On the contrary, for parasites of the subgenus Plasmodium, like P. vivax or P. malariae, transfers were documented in natural populations (2, 4, 7) or during experimental infections (5). All this suggests therefore a strong host specifici...
