Deep learning and wing interferential patterns identify Anopheles species and discriminate amongst Gambiae complex species

Arnaud Cannet; Camille Simon-Chane; Mohammad Akhoundi; Aymeric Histace; Olivier Romain; Marc Souchaud; Pierre Jacob; Darian Sereno; Karine Mouline; Christian Barnabe; Frédéric Lardeux; Philippe Boussès; Denis Sereno

doi:10.1038/s41598-023-41114-4

Scientific Reports (Aug 2023)

Deep learning and wing interferential patterns identify Anopheles species and discriminate amongst Gambiae complex species

Arnaud Cannet,
Camille Simon-Chane,
Mohammad Akhoundi,
Aymeric Histace,
Olivier Romain,
Marc Souchaud,
Pierre Jacob,
Darian Sereno,
Karine Mouline,
Christian Barnabe,
Frédéric Lardeux,
Philippe Boussès,
Denis Sereno

Affiliations

Arnaud Cannet: Direction des Affaires Sanitaires et Sociales de la Nouvelle-Calédonie
Camille Simon-Chane: ETIS UMR 8051, ENSEA, CNRS, Cergy Paris University
Mohammad Akhoundi: Parasitology-Mycology, Hopital Avicenne, AP-HP
Aymeric Histace: ETIS UMR 8051, ENSEA, CNRS, Cergy Paris University
Olivier Romain: ETIS UMR 8051, ENSEA, CNRS, Cergy Paris University
Marc Souchaud: ETIS UMR 8051, ENSEA, CNRS, Cergy Paris University
Pierre Jacob: CNRS, Bordeaux INP, LaBRI, UMR 5800, Univ. Bordeaux
Darian Sereno: InterTryp, IRD-CIRAD, Infectiology, Medical entomology & One Health research group, Univ Montpellier
Karine Mouline: MIVEGEC, CNRS, IRD, Univ Montpellier
Christian Barnabe: InterTryp, IRD-CIRAD, Infectiology, Medical entomology & One Health research group, Univ Montpellier
Frédéric Lardeux: MIVEGEC, CNRS, IRD, Univ Montpellier
Philippe Boussès: MIVEGEC, CNRS, IRD, Univ Montpellier
Denis Sereno: InterTryp, IRD-CIRAD, Infectiology, Medical entomology & One Health research group, Univ Montpellier

DOI: https://doi.org/10.1038/s41598-023-41114-4
Journal volume & issue: Vol. 13, no. 1
pp. 1 – 13

Abstract

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Abstract We present a new and innovative identification method based on deep learning of the wing interferential patterns carried by mosquitoes of the Anopheles genus to classify and assign 20 Anopheles species, including 13 malaria vectors. We provide additional evidence that this approach can identify Anopheles spp. with an accuracy of up to 100% for ten out of 20 species. Although, this accuracy was moderate (> 65%) or weak (50%) for three and seven species. The accuracy of the process to discriminate cryptic or sibling species is also assessed on three species belonging to the Gambiae complex. Strikingly, An. gambiae, An. arabiensis and An. coluzzii, morphologically indistinguishable species belonging to the Gambiae complex, were distinguished with 100%, 100%, and 88% accuracy respectively. Therefore, this tool would help entomological surveys of malaria vectors and vector control implementation. In the future, we anticipate our method can be applied to other arthropod vector-borne diseases.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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