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      Development of inexpensive and globally available larval diet for rearing Anopheles stephensi (Diptera: Culicidae) mosquitoes

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          Abstract

          Background

          Success of sterile insect technique (SIT) is dependent upon the mass rearing and release of quality insects, the production of which is directly related to the suitability of the diet ingredients used. Commercial diets used for small-scale culture of mosquitoes are expensive and thus not feasible for mass production.

          Methods

          A series of low cost globally available diet ingredients including, wheat, rice, corn, chickpeas, and beans along with liver, were provided to 4 h larvae (L1) of Anopheles stephensi (Liston) to see their effect on fitness parameters including larval duration, percent emergence, survival, adult wing size and female fecundity. Different quantities of the candidate diet ingredients were then mixed together to work out a combination diet with a balanced nutritive value that can be used for efficient rearing of the mosquito larvae at relatively lower costs.

          Results

          Fastest larval and pupal development and highest survival rates were recorded using a combination diet of bean, corn, wheat, chickpea, rice, and bovine liver at 5 mg/day. The diet is easy to prepare, and much cheaper than the diets reported earlier. The estimated cost of the reported diet is 14.7 US$/ 1.3 kg for rearing one million larvae.

          Conclusions

          A combination diet with ingredients from cereals and legumes mixed with liver is a low cost balanced larval diet with the potential for use in both small scale laboratory rearing and mass production of Anopheles in SIT control programs.

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          Most cited references18

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          Spatial distribution and habitat characterization of anopheline mosquito larvae in Western Kenya.

          Studies were conducted to characterize larval habitats of anopheline mosquitoes and to analyze spatial heterogeneity of mosquito species in the Suba District of western Kenya. A total of 128 aquatic habitats containing mosquito larvae were sampled, and 2,209 anopheline and 10,538 culicine larvae were collected. The habitats were characterized based on size, pH, distance to the nearest house and to the shore of Lake Victoria, coverage of canopy, surface debris, algae and emergent plants, turbidity, substrate, and habitat types. Microscopic identification of third- and fourth-instar anopheline larvae did not yield any Anopheles funestus or other anophelines. A total of 829 An. gambiae s.l. larvae from all habitats were analyzed further by rDNA-polymerase chain reaction to identify individual species within the An. gambiae species complex. Overall, An. arabiensis was the predominant species (63.4%), and An. gambiae was less common (31.4%). The species composition of An. gambiae s.l. varied significantly among the sampling sites throughout Suba District. The larval habitats in the southern area of the district had a higher proportion of An. gambiae than in the northern area. Multiple logistic analysis did not detect any significant association between the occurrence of anopheline larvae and habitat variables, and principal component analysis did not identify key environmental factors associated with the abundance of An. gambiae. However, significant spatial heterogeneity in the relative abundance of An. gambiae within the Suba district was detected. When the effect of larval habitat locality was considered in the analysis, we found that the distance to the nearest house and substrate type were significantly associated with the relative abundance of An. gambiae. Future studies integrating detailed water chemistry analysis, remote sensing technology, and the ecology of predators may be required to further elucidate the mechanisms underlying the observed spatial variation of anopheline larval distribution.
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            An inexpensive and effective larval diet for Anopheles arabiensis (Diptera: Culicidae): eat like a horse, a bird, or a fish?

            A successful sterile insect technique program depends upon mass production of good-quality sterile insects for release into a target area. Specifically, to control Anopheles arabiensis Patton (Diptera: Culicidae) in a pilot area in northern Sudan, 1 million An. arabiensis sterile males per day are needed. To reach this production objective, mosquito mass rearing is indispensable and larval diet, a key parameter for the production of healthy male mosquitoes, needs to be cost-effective. The Koi Floating Blend fish food, previously used at the Food and Agriculture Organization/International Atomic Energy Agency Insect Pest Control Laboratory for the routine rearing of the An. arabiensis colony, is no longer available. The aim of this study was to find a cheap and effective substitute for the discontinued diet. Several candidate powdered diets that are commercially available were tested to determine the best diet. By using mixture experiment principles and response surface methodology, the combination of two components, bovine liver powder and tuna meal, showed the best results in terms of larval survival, developmental, rate and adult size. The addition of a vitamin mixture further improved the diet. These positive production results coupled with the relatively low cost of our blend demonstrated the possibility of its use for mass rearing purpose.
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              The impact of larval and adult dietary restriction on lifespan, reproduction and growth in the mosquito Aedes aegypti.

              Dietary restriction extends lifespan in many organisms, but little is known about how it affects hematophagous arthropods. We demonstrated that diet restriction during either larval or adult stages extends Aedes aegypti lifespan. A. aegypti females fed either single or no blood meals survived 30-40% longer than those given weekly blood meals. However, mosquitoes given weekly blood meals produced far more eggs. To minimize reproduction's impact on lifespan, adult mosquitoes were fed artificial blood meals containing <10% of the protein in normal human blood, minimizing egg production. A. aegypti fed artificial blood meals containing 25mg/ml of BSA had significantly shorter lifespans than those fed either 10 or 5mg/ml. To assess the impact of larval dietary restriction on adult lifespan, we maintained larval A. aegypti on 2X, 1X (normal diet), 0.5X or 0.25X diets. Adult mosquitoes fed 0.5X and 0.25X larval diets survived significantly longer than those fed the 2X larval diet regardless of adult diet. In summary, dietary restriction during both larval and adult stages extends lifespan. This diet-mediated lifespan extension has important consequences for understanding how dietary restriction regulates lifespan and disease transmission. Copyright 2010 Elsevier Inc. All rights reserved.
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                Author and article information

                Contributors
                Journal
                Parasit Vectors
                Parasit Vectors
                Parasites & Vectors
                BioMed Central
                1756-3305
                2013
                9 April 2013
                : 6
                : 90
                Affiliations
                [1 ]Nuclear Institute for Food and Agriculture NIFA, G.T Road Tarnab, Peshawar, Pakistan
                Article
                1756-3305-6-90
                10.1186/1756-3305-6-90
                3626612
                23570246
                75e8d7c4-4419-4adc-8df2-e4474800aeb7
                Copyright ©2013 Khan et al.; licensee BioMed Central Ltd.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 16 January 2013
                : 28 March 2013
                Categories
                Research

                Parasitology
                anopheles,mass rearing,sit,wolbachia,larval diet,combination diet,cereals,legumes
                Parasitology
                anopheles, mass rearing, sit, wolbachia, larval diet, combination diet, cereals, legumes

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