Automated classification of mixed populations of Aedes aegypti and Culex quinquefasciatus mosquitoes under field conditions

Fábio Castelo Branco Fontes Paes Njaime; Renato Cesar Máspero; André de Souza Leandro; Rafael Maciel-de-Freitas

doi:10.1186/s13071-024-06417-z

Parasites & Vectors (Sep 2024)

Automated classification of mixed populations of Aedes aegypti and Culex quinquefasciatus mosquitoes under field conditions

Fábio Castelo Branco Fontes Paes Njaime,
Renato Cesar Máspero,
André de Souza Leandro,
Rafael Maciel-de-Freitas

Affiliations

Fábio Castelo Branco Fontes Paes Njaime: Programa de Pós-graduação em Vigilância e Controle de Vetores, Instituto Oswaldo Cruz, Fiocruz - IOC
Renato Cesar Máspero: Programa de Pós-graduação em Vigilância e Controle de Vetores, Instituto Oswaldo Cruz, Fiocruz - IOC
André de Souza Leandro: Centro de Controle de Zoonoses da Secretaria Municipal de Saúde de Foz do Iguaçu
Rafael Maciel-de-Freitas: Centro de Controle de Zoonoses da Secretaria Municipal de Saúde de Foz do Iguaçu

DOI: https://doi.org/10.1186/s13071-024-06417-z
Journal volume & issue: Vol. 17, no. 1
pp. 1 – 9

Abstract

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Abstract Background The recent rise in the transmission of mosquito-borne diseases such as dengue virus (DENV), Zika (ZIKV), chikungunya (CHIKV), Oropouche (OROV), and West Nile (WNV) is a major concern for public health managers worldwide. Emerging technologies for automated remote mosquito classification can be supplemented to improve surveillance systems and provide valuable information regarding mosquito vector catches in real time. Methods We coupled an optical sensor to the entrance of a standard mosquito suction trap (BG-Mosquitaire) to record 9151 insect flights in two Brazilian cities: Rio de Janeiro and Brasilia. The traps and sensors remained in the field for approximately 1 year. A total of 1383 mosquito flights were recorded from the target species: Aedes aegypti and Culex quinquefasciatus. Mosquito classification was based on previous models developed and trained using European populations of Aedes albopictus and Culex pipiens. Results The VECTRACK sensor was able to discriminate the target mosquitoes (Aedes and Culex genera) from non-target insects with an accuracy of 99.8%. Considering only mosquito vectors, the classification between Aedes and Culex achieved an accuracy of 93.7%. The sex classification worked better for Cx. quinquefasciatus (accuracy: 95%; specificity: 95.3%) than for Ae. aegypti (accuracy: 92.1%; specificity: 88.4%). Conclusions The data reported herein show high accuracy, sensitivity, specificity and precision of an automated optical sensor in classifying target mosquito species, genus and sex. Similar results were obtained in two different Brazilian cities, suggesting high reliability of our findings. Surprisingly, the model developed for European populations of Ae. albopictus worked well for Brazilian Ae. aegypti populations, and the model developed and trained for Cx. pipiens was able to classify Brazilian Cx. quinquefasciatus populations. Our findings suggest this optical sensor can be integrated into mosquito surveillance methods and generate accurate automatic real-time monitoring of medically relevant mosquito species. Graphical Abstract

Published in Parasites & Vectors

ISSN: 1756-3305 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Infectious and parasitic diseases
Website: https://parasitesandvectors.biomedcentral.com/

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