Exploring the potential of computer vision analysis of pupae size dimorphism for adaptive sex sorting systems of various vector mosquito species

Several mosquito population suppression strategies based on the rearing and release of sterile males have provided promising results. However, the lack of an efficient male selection method has hampered the expansion of these approaches into large-scale operational programmes. Currently, most of the...

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Bibliographic Details
Published in:Parasites & vectors 2018-12, Vol.11 (Suppl 2), p.656-656, Article 656
Main Authors: Zacarés, Mario, Salvador-Herranz, Gustavo, Almenar, David, Tur, Carles, Argilés, Rafael, Bourtzis, Kostas, Bossin, Hervé, Pla, Ignacio
Format: Article
Language:English
Subjects:
Adaptive systems
Aedes
Aedes aegypti
Aedes albopictus
Aedes polynesiensis
Anopheles arabiensis
Aquatic insects
Automation
Biometrical analysis
biometry
Computer aided design
Computer vision
Containers
Dimorphism (Biology)
Distribution functions
Efficiency
Frequency distribution
Gaussian distribution
Heterogeneity
Human health and pathology
Identification and classification
Individual rearing
Infectious diseases
Innovations
Life Sciences
male sterility
Males
Mathematical models
Methods
Morphometrics frequency distribution models
Mosquitoes
Normal distribution
Observations
Parameters
Pupae
Purity
rearing
Recovery
selection methods
Sex
Sex sorting methods
Sexual dimorphism
Sexual size dimorphism
Species
Sterile insect technique
variance
Variance analysis
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Summary:Several mosquito population suppression strategies based on the rearing and release of sterile males have provided promising results. However, the lack of an efficient male selection method has hampered the expansion of these approaches into large-scale operational programmes. Currently, most of these programmes targeting Aedes mosquitoes rely on sorting methods based on the sexual size dimorphism (SSD) at the pupal stage. The currently available sorting methods have not been developed based on biometric analysis, and there is therefore potential for improvement. We applied an automated pupal size estimator developed by Grupo Tragsa with laboratory samples of Anopheles arabiensis, Aedes albopictus, Ae. polynesiensis, and three strains of Ae. aegypti. The frequency distribution of the pupal size was analyzed. We propose a general model for the analysis of the frequency distribution of mosquito pupae in the context of SSD-sorting methods, which is based on a Gaussian mixture distribution functions, thus making possible the analysis of performance (% males recovery) and purity (% males on the sorted sample). For the three Aedes species, the distribution of the pupae size can be modeled by a mixture of two Gaussian distribution functions and the proposed model fitted the experimental data. For a given population, each size threshold is linked to a specific outcome of male recovery. Two dimensionless parameters that measure the suitability for SSD-based sorting of a specific batch of pupae are provided. The optimal sorting results are predicted for the highest values of SSD and lowest values of intra-batch variance. Rearing conditions have a strong influence in the performance of the SSD-sorting methods and non-standard rearing can lead to increase pupae size heterogeneity. Sex sorting of pupae based on size dimorphism can be achieved with a high performance (% males recovery) and a reasonably high purity (% males on the sorted sample) for the different Aedes species and strains. The purity and performance of a sex sorting operation in the tested Aedes species are linked parameters whose relation can be modeled. The conclusions of this analysis are applicable to all the existing SSD-sorting methods. The efficiency of the SSD-sorting methods can be improved by reducing the heterogeneity of pupae size within rearing containers. The heterogeneity between batches does not strongly affect the quality of the sex sorting, as long as a specific separation threshold is
ISSN:1756-3305
1756-3305
DOI:10.1186/s13071-018-3221-x