Abstract
BackgroundThe malaria vector Anopheles funestus is increasingly recognized as a dominant vector of residual transmission in many African settings. Efforts to better understand its biology and control are significantly impeded by the difficulties of colonizing it under laboratory conditions. To identify key bottlenecks in colonization, this study compared the development and fitness characteristics of wild An. funestus from Tanzania (FUTAZ) and their F1 offspring during colonization attempts. The demography and reproductive success of wild FUTAZ offspring were compared to that of individuals from one of the only An. funestus strains that has been successfully colonized (FUMOZ, from Mozambique) under similar laboratory conditions.MethodsWild An. funestus (FUTAZ) were collected from three Tanzanian villages and maintained inside an insectary at 70–85% RH, 25–27 °C and 12 h:12 h photoperiod. Eggs from these females were used to establish three replicate F1 laboratory generations. Larval development, survival, fecundity, mating success, percentage pupation and wing length were measured in the F1 -FUTAZ offspring and compared with wild FUTAZ and FUMOZ mosquitoes.ResultsWild FUTAZ laid fewer eggs (64.1; 95% CI [63.2, 65.0]) than FUMOZ females (76.1; 95% CI [73.3, 79.1]). Survival of F1-FUTAZ larvae under laboratory conditions was low, with an egg-to-pupae conversion rate of only 5.9% compared to 27.4% in FUMOZ. The median lifespan of F1-FUTAZ females (32 days) and males (33 days) was lower than FUMOZ (52 and 49 for females and males respectively). The proportion of female F1-FUTAZ inseminated under laboratory conditions (9%) was considerably lower than either FUMOZ (72%) or wild-caught FUTAZ females (92%). This resulted in nearly zero viable F2-FUTAZ eggs produced. Wild FUTAZ wings appear to be larger compared to the lab reared F1-FUTAZ and FUMOZ.ConclusionsThis study indicates that poor larval survival, mating success, low fecundity and shorter survival under laboratory conditions all contribute to difficulties in colonizing of An. funestus. Future studies should focus on enhancing these aspects of An. funestus fitness in the laboratory, with the biggest barrier likely to be poor mating.
Highlights
The malaria vector Anopheles funestus is increasingly recognized as a dominant vector of residual transmission in many African settings
Malaria transmission in Africa is dominated by species in the Anopheles gambiae and Anopheles funestus species complexes
There was no difference in wing lengths between the two laboratory-reared strains, FUMOZ and F 1-FUTAZ (z = 1.43, p = 0.303, Fig. 3a)
Summary
The malaria vector Anopheles funestus is increasingly recognized as a dominant vector of residual transmission in many African settings. Ngowo et al Malar J (2021) 20:148 for research by enabling experimental studies under controlled conditions Such colonies have facilitated the characterization of insecticide resistance [10,11,12], genetics [13, 14]), immunity [15, 16] and key vector demographic profiles [17,18,19]. The An. funestus species complex group consists of at least 13 known species: Anopheles aruni, Anopheles brucei, Anopheles confusus, Anopheles funestus sensu stricto (s.s.), Anopheles funestus-like, Anopheles fuscivenosus, Anopheles leesoni, Anopheles longipalpis type A, Anopheles longipalpis type C, Anopheles parensis, Anopheles rivulorum, Anopheles rivulorum-like and Anopheles vaneedeni [22,23,24,25] These species vary in vectorial capacity [26], with only An. funestus s.s. thought to play a significant role in malaria transmission [27, 28]. Others, such as An. rivulorum, have been reported as minor vectors in Kenya [29], Tanzania [30] and An. vaneedeni in South Africa [31]
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