Background

Aedes albopictus (Skuse, 1894) is an invasive mosquito species that originated in Asian forests [1] and expanded to temperate and tropical regions of America, Africa and Europe, mainly during the last three decades [2]. Aedes albopictus is widely considered as a secondary vector of human arboviruses such as dengue virus (DENV), because it is thought to preferentially feed on animals rather than humans, contrary to the highly anthropophilic Aedes aegypti (L., 1762) [3]. Yet, Ae. albopictus has been incriminated as a primary vector in recent chikungunya virus (CHIKV) epidemics in the Indian Ocean, Central Africa and Europe [46], suggesting sustained man-vector contact in these settings. In Cameroon (Central Africa), Ae. albopictus was first recorded in the early 2000s [7] and rapidly spread throughout the south of the country [8]. In Cameroonian urban centers such as Yaoundé, the species now pullulates [9] and is gradually replacing autochthonous Ae. aegypti populations. Concomitant with the spread of Ae. albopictus in Central Africa, an increase in DENV and CHIKV outbreaks was reported in a number of countries, including Cameroon [10], Gabon [5, 11] and the Republic of Congo [12]. Indeed, Cameroonian Ae. albopictus populations were shown to be orally susceptible to DEN-2 virus and CHIKV infection [5], and the species was recognized as the main vector of both viruses in 2007 in Libreville, Gabon [5, 11].

Although Ae. albopictus preferentially bites mammals [3], females can also feed on most groups of vertebrates, both cold- and warm-blooded, including reptiles, birds and amphibians [13]. Such feeding plasticity, which has been found to vary according to the geographic origin of mosquito populations [14], maximizes the fitness (fecundity and survival) of Ae. albopictus and enhances the risk that it may propagate zoonotic pathogens from wildlife or domestic animals to humans [15]. In addition to host preferences, the intensity of human-vector contact and, therefore, the risk of pathogen transmission, is modulated by the biting period(s) along the nychthemere, which impacts on host availability. Although geographic variations have been recorded in the biting rhythm of Ae. Albopictus females, the species usually bites outdoors and during daytime, with two main peaks of activity in the morning and early evening [3, 4, 14]. To our knowledge, there are no published data on the feeding behavior of Ae. albopictus in Central Africa. In order to fill this gap, we conducted a study of Ae. albopictus host preferences and biting activity in Yaoundé, Cameroon.

Methods

Mosquitoes were collected from two sites in the periphery of Yaoundé, the capital city of Cameroon: "Club France" (N3°50'28", E11°30'2") in the Efoulan district and "Club hippique" (N3°54'05", E11°29'53") in the Ntougou district. "Club France", a leisure center (tennis, swimming pool, banquets, etc.;), is surrounded by dense vegetation which provides potential resting and oviposition sites for Aedes mosquitoes. "Club hippique", an equestrian center, is also surrounded by dense vegetation. The horses (N > 25) provide potential blood sources for mosquitoes. Additionally, both sites are surrounded by human dwellings with domestic animals such as dogs, pigs and chickens.

Field collections were conducted from April to early July 2009, during the rainy season when mosquito densities are highest. To determine the feeding preferences of Ae. albopictus, wild blood-fed females were caught in both study sites. The low vegetation that constitutes resting sites was stirred up to disturb mosquitoes, and flying females were caught by sweep-netting. Each capture was done by a single collector and lasted 30 min. Collected mosquitoes were individually transferred to 10-mL glass vials using a mouth aspirator; they were identified morphologically by reference to standard keys [16] and stored at -20°C until blood meal analysis. The abdomen of freshly-fed Ae. albopictus and Ae. aegypti females was dissected out and used as a template for blood-meal analysis by ELISA [17], using anti-human, -horse, -bird, -reptile, -swine, -sheep and -dog antibodies (Sigma Aldrich, St. Louis, MO). To explore the biting activity of Ae. albopictus, blood-seeking females were trapped outdoors over entire 24-hour periods using a double-net device baited with a human volunteer, as described in Delatte et al. [14]. The experiment was repeated eight times in "Club France" only, between April and July 2009.

Results and discussion

In "Club France", a total of 537 resting Aedes females were harvested during 46 capture sessions, of which 479 were Ae. albopictus (including 139 freshly fed) and 58 Ae. aegypti (including 6 freshly fed). Twenty-one capture sessions in "Club hippique" recovered 77 Ae. albopictus females (including 31 freshly fed) and no Ae. aegypti. Males of either species were observed but not collected, as well as other mosquito genera such as Culex. ELISA analyses indicated that Ae. albopictus specimens had primarily fed on human blood, as about 95% of dissected stomachs contained human blood in the two sites (Table 1). Mixed meals of human and reptile or pig blood were also observed. All 6 Ae. aegypti females collected from "Club France" had fed on human blood. These results conflict with the assumption that Ae. albopictus is mainly zoophilic [2, 3, 13], and are consistent with observations made in Thailand [18], North Carolina (United States) [19], Italy [20] and La Réunion [14]. Our results are all the more convincing as animals were available in both study sites, showing that Ae. albopictus prefers to feed on humans, at least in Yaoundé. This propensity of Ae. albopictus females to feed on humans in urban areas of Cameroon is of concern, as it suggests a risk of human-human pathogen transmission. Moreover, the observation of blood meals from pigs and reptiles, and especially mixed animal-human meals, although few in number, confirms that this species could act as a bridge vector for zoonotic pathogens. Furthermore, in about 5% of cases the host species could not be identified, suggesting either advanced digestion of the blood or the existence of unidentified animal hosts such as rodents.

Table 1 Ingested-blood analysis in Ae.albopictus females from sites in Yaoundé, Cameroon
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Mosquito collection using a double-net device demonstrated that Ae. albopictus females feed during daytime from 5:00 a.m. to 7:00 p.m. with a main peak from 3:00 p.m. to 7:00 p.m (Figure 1). These results are consistent with the known biology of Ae. albopictus outside Africa [3, 14, 21]. Although Ae. albopictus is sometimes observed indoors, it is generally considered as exophilic and exophagic [4]. In their recent work in La Réunion Island (France, Indian Ocean), using a similar double-net collection device placed indoors and outdoors, Delatte et al. [14] estimated that 89% of mosquitoes were exophagic. Our results, based solely on outdoor collections, therefore, likely reflect the major biting pattern of Ae. albopictus females in this area. However, further studies are required to fully explore the feeding behavior of invasive populations of Ae. albopictus and to assess their role in the emergence and spread of arbovirus epidemics in Africa and elsewhere, including areas where Ae. aegypti is the dominant species.

Figure 1
figure 1

Daily dynamics of host-seeking activity in Ae. albopictus females from Yaoundé, Cameroon (April-July 2009). Vertical bars represent standard deviation.

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Conclusion

This study, which provides the first data on the feeding behavior of Ae. albopictus in Central Africa, demonstrates that this species readily bites humans in urban settings and might therefore play a major role in human-human transmission of emerging arboviruses such as DENV and CHIKV. Detailed knowledge of the feeding behavior of this vector species, such as the rhythm of females' biting activity, is needed to develop and implement efficient personal protection tools against Ae. albopictus, especially in newly colonized areas.