The sterile insect technique for controlling populations of Aedes albopictus (Diptera: Culicidae) on Reunion Island: mating vigour of sterilized males

Reunion Island suffers from high densities of the chikungunya and dengue vector Aedes albopictus. The sterile insect technique (SIT) offers a promising strategy for mosquito-borne diseases prevention and control. For such a strategy to be effective, sterile males need to be competitive enough to ful...

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Bibliographic Details
Published in:PloS one 2012-11, Vol.7 (11), p.e49414-e49414
Main Authors: Oliva, Clelia F, Jacquet, Maxime, Gilles, Jeremie, Lemperiere, Guy, Maquart, Pierre-Olivier, Quilici, Serge, Schooneman, François, Vreysen, Marc J B, Boyer, Sebastien
Format: Article
Language:English
Subjects:
Aedes - metabolism
Aedes aegypti
Aedes albopictus
Agriculture
Animal reproduction
Animals
Anopheles gambiae
Aquatic insects
Asian tiger mosquito
Biology
Business competition
Cages
Competitiveness
Control
Controlled conditions
Culicidae
Dengue
Dengue fever
Evolution
Female
Females
Fertility
Fertility - radiation effects
Insects
Insemination
Irradiation
Laboratories
Life Sciences
Male
Male sterility
Males
Mass rearing
Mating
Maturation
Medicine
Methods
Mosquitoes
Pest control
Pest Control, Biological - methods
Physiology
Population
Population studies
Populations
Pupa - physiology
Radiation
Reproduction
Sex Factors
Sex ratio
Sexual Behavior, Animal
Simulation
Sterilized organisms
Studies
Time Factors
Urban areas
Vector-borne diseases
Viral diseases
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Summary:Reunion Island suffers from high densities of the chikungunya and dengue vector Aedes albopictus. The sterile insect technique (SIT) offers a promising strategy for mosquito-borne diseases prevention and control. For such a strategy to be effective, sterile males need to be competitive enough to fulfil their intended function by reducing wild mosquito populations in natura. We studied the effect of irradiation on sexual maturation and mating success of males, and compared the sexual competitiveness of sterile versus wild males in the presence of wild females in semi-field conditions. For all untreated or sterile males, sexual maturation was completed within 13 to 20 h post-emergence and some males were able to inseminate females when 15 h old. In the absence of competition, untreated and sterile males were able to inseminate the same number of virgin females during 48 h, in small laboratory cages: an average of 93% of females was inseminated no matter the treatment, the age of males, and the sex ratio. Daily mating success of single sterile males followed the same pattern as for untreated ones, although they inseminated significantly fewer females after the ninth day. The competitiveness index of sterile males in semi-field conditions was only 0.14 when they were released at 1-day old, but improved to 0.53 when the release occurred after a 5-day period in laboratory conditions. In SIT simulation experiments, a 5:1 sterile to wild male ratio allowed a two-fold reduction of the wild population's fertility. This suggests that sterile males could be sufficiently competitive to mate with wild females within the framework of an SIT component as part of an AW-IPM programme for suppressing a wild population of Ae. albopictus in Reunion Island. It will be of interest to minimise the pre-release period in controlled conditions to ensure a good competitiveness without increasing mass rearing costs.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0049414