Genevieve Comeau scite author profile

BackgroundTransmission dynamics of mosquito-borne viruses such as dengue, Zika and chikungunya are affected by the longevity of the adult female mosquito. Environmental conditions influence the survival of adult female Aedes mosquitoes, the primary vectors of these viruses. While the association of temperature with Aedes mortality has been relatively well-explored, the role of humidity is less established. The current study’s goals were to compile knowledge of the influence of humidity on adult survival in the important vector species Aedes aegypti and Ae. albopictus, and to quantify this relationship while accounting for the modifying effect of temperature.MethodsWe performed a systematic literature review to identify studies reporting experimental results informing the relationships among temperature, humidity and adult survival in Ae. aegypti and Ae. albopictus. Using a novel simulation approach to harmonize disparate survival data, we conducted pooled survival analyses via stratified and mixed effects Cox regression to estimate temperature-dependent associations between humidity and mortality risk for these species across a broad range of temperatures and vapor pressure deficits.ResultsAfter screening 1517 articles, 17 studies (one in semi-field and 16 in laboratory settings) met inclusion criteria and collectively reported results for 192 survival experiments. We review and synthesize relevant findings from these studies. Our stratified model estimated a strong temperature-dependent association of humidity with mortality in both species, though associations were not significant for Ae. albopictus in the mixed effects model. Lowest mortality risks were estimated around 27.5 °C and 21.5 °C for Ae. aegypti and Ae. albopictus, respectively, and mortality increased non-linearly with decreasing humidity. Aedes aegypti had a survival advantage relative to Ae. albopictus in the stratified model under most conditions, but species differences were not significant in the mixed effects model.ConclusionsHumidity is associated with mortality risk in adult female Ae. aegypti in controlled settings. Data are limited at low humidities, temperature extremes, and for Ae. albopictus, and further studies should be conducted to reduce model uncertainty in these contexts. Desiccation is likely an important factor in Aedes population dynamics and viral transmission in arid regions. Models of Aedes-borne virus transmission may be improved by more comprehensively representing humidity effects.Electronic supplementary materialThe online version of this article (10.1186/s13071-018-2808-6) contains supplementary material, which is available to authorized users.

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Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny

Comeau

Zinna

Scott

et al. 2020

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Vertical transmission, or pathogen transfer from female to offspring, can facilitate the persistence of emerging arboviruses, such as Zika virus (ZIKV), through periods of low horizontal transmission or adverse environmental conditions. We aimed at determining the rate of vertical transmission for ZIKV in its principal vector, Aedes aegypti, and the vector competence of vertically infected progeny. Aedes aegypti females that consumed a blood meal provisioned with ZIKV were maintained under three temperature conditions (27°C, 30°C, and 33°C) following the infectious blood meal and allowed to complete three reproductive cycles. The overall vertical transmission rate was 6.5% (95% CI = 3.9-9.9). Vertical transmission of ZIKV was observed across all temperature conditions and virus detected in adult progeny up to 2 weeks postemergence. In total, 3.4% (95% CI = 1.6-6.2) of adult progeny produced saliva with ZIKV, indicating their vector competence. These results suggest the virus may be maintained in Ae. aegypti populations without a vertebrate host for short periods.

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Vertical transmission of Zika virus in orally-infected Aedes aegypti produces infectious adult progeny

Comeau

Zinna

Scott

et al. 2018

Preprint

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22Vertical transmission, or pathogen transfer from mother to offspring, can facilitate 23 persistence of emerging arboviruses, such as Zika virus (ZIKV), in mosquito populations. 24Understanding vertical transmission and the different environmental and temporal conditions that 25 affect it is important to assess whether new outbreaks could occur without reintroduction of the 26 virus. To determine the rate of vertical transmission for ZIKV, Aedes aegypti females were fed 27 on ZIKV infected blood, maintained under three temperature conditions (27℃, 30℃, and 33℃), 28and allowed to oviposit three times. Progeny were tested for virus presence at 3, 7, and 14 days 29 after adult emergence. The overall vertical transmission rate was 6.5% (3.9 -9.9). Vertical

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