Efficiency of two larval diets for mass-rearing of the mosquito Aedes aegypti.

J G Bond,A Dor,A Ramírez-Osorio,T Williams,C F Marina,P Liedo,I Fernández-Salas,Luciano Andrade Moreira

doi:10.1371/journal.pone.0187420

J G Bond, A Dor + Show 6 more

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https://doi.org/10.1371/journal.pone.0187420

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Abstract

Aedes aegypti is a major vector of arboviruses that may be controlled on an area-wide basis using the sterile insect technique (SIT). Larval diet is a major factor in mass-rearing for SIT programs. We compared dietary effects on immature development and adult fitness-related characteristics for an International Atomic Energy Agency (IAEA) diet, developed for rearing Ae. albopictus, and a standardized laboratory rodent diet (LRD), under a 14:10 h (light:dark) photoperiod ("light" treatment) or continuous darkness during larval rearing. Larval development was generally fastest in the IAEA diet, likely reflecting the high protein and lipid content of this diet. The proportion of larvae that survived to pupation or to adult emergence did not differ significantly between diets or light treatments. Insects from the LRD-dark treatment produced the highest proportion of male pupae (93% at 24 h after the beginning of pupation) whereas adult sex ratio from the IAEA diet tended to be more male-biased than that of the LRD diet. Adult longevity did not differ significantly with larval diet or light conditions, irrespective of sex. In other aspects the LRD diet generally performed best. Adult males from the LRD diet were significantly larger than those from the IAEA diet, irrespective of light treatment. Females from the LRD diet had ~25% higher fecundity and ~8% higher egg fertility compared to those from the IAEA diet. Adult flight ability did not differ between larval diets, and males had a similar number of copulations with wild females, irrespective of larval diet. The LRD diet had lower protein and fat content but a higher carbohydrate and energetic content than the IAEA diet. We conclude that the LRD diet is a low-cost standardized diet that is likely to be suitable for mass-rearing of Ae. aegypti for area-wide SIT-based vector control.

Highlights

Aedes (Stegomyia) aegypti (Linnaeus, 1762) was introduced into the New World from Africa, from where it subsequently spread globally to tropical and sub-tropical regions of the world [1, 2]
A series of laboratory studies revealed that Ae. aegypti reared on a standardized laboratory rodent diet (LRD) during the larval stage, under one of two light regimes, produced similar or slightly fewer male pupae and adults as mosquitoes reared on a diet developed by International Atomic Energy Agency (IAEA) researchers
The LRD-reared mosquitoes were generally larger and had a greater reproductive capacity than those reared on the IAEA diet

Summary

Introduction

Aedes (Stegomyia) aegypti (Linnaeus, 1762) was introduced into the New World from Africa, from where it subsequently spread globally to tropical and sub-tropical regions of the world [1, 2]. Ae. aegypti is the primary vector of arboviruses such as dengue (DENV), Chikungunya (CHIKV) and Zika (ZIKV) in the Americas [3, 4]. The prevention or reduction of the transmission cycles of these viruses is almost completely dependent on the control of mosquito. Larval diets for rearing Aedes aegypti vectors to restrict the frequency of contact between mosquitoes and humans [5]. Habitat elimination is the main approach to reduce mosquito populations, and chemical insecticides represent a second line of control against such vectors. Frequent exposure to insecticides is related to adverse effects on populations of non-target organisms, as well as the development of resistance to insecticides in the vector populations [6]. Effective control of vector-borne diseases continues to represent a major challenge, requiring novel and innovative approaches

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