1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk

Jacob E. Crawford; Dario Balcazar; Seth Redmond; Noah H. Rose; Henry A. Youd; Eric R. Lucas; Rusdiyah Sudirman Made Ali; Ashwaq Alnazawi; Athanase Badolo; Chun Hong Chen; Luciano V. Cosme; Jennifer A. Henke; Kim Y. Hung; Susanne Kluh; Wei Liang Liu; Kevin Maringer; Ademir Martins; María Victoria Micieli; Evlyn Pless; Aboubacar Sombié; Sinnathamby N. Surendran; Isra Wahid; Peter A. Armbruster; David Weetman; Carolyn S. McBride; Andrea Gloria-Soria; Jeffrey R. Powell; Bradley J. White

doi:10.1126/science.ads3732

1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk

Jacob E. Crawford
, Dario Balcazar
, Seth Redmond
, Noah H. Rose
, Henry A. Youd
, Eric R. Lucas
, Rusdiyah Sudirman Made Ali
, Ashwaq Alnazawi
, Athanase Badolo
, Chun Hong Chen
, Luciano V. Cosme
, Jennifer A. Henke
, Kim Y. Hung
, Susanne Kluh
, Wei Liang Liu
, Kevin Maringer
, Ademir Martins
, María Victoria Micieli
, Evlyn Pless
, Aboubacar Sombié

Sinnathamby N. Surendran, Isra Wahid, Peter A. Armbruster, David Weetman, Carolyn S. McBride, Andrea Gloria-Soria, Jeffrey R. Powell, Bradley J. White

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The emergence and global expansion of Aedes aegypti puts more than half of all humans at risk of arbovirus infection, but the origin of this mosquito and the impact of contemporary gene flow on arbovirus control are unclear. We sequenced 1206 genomes from 73 globally distributed locations. After evolving a preference for humans in Sahelian West Africa, the invasive subspecies Ae. aegypti aegypti (Aaa) emerged in the Americas after the Atlantic slave trade era and expanded globally. Recent back-to-Africa Aaa migration introduced insecticide resistance and anthropophily into regions with recent dengue outbreaks, raising concern that Aaa movement could increase arbovirus risk in urban Africa. These data underscore developing complexity in the fight against dengue, Zika, and chikungunya and provide a platform to further study this important mosquito vector.

Original language	English (US)
Article number	eads3732
Journal	Science
Volume	389
Issue number	6766
DOIs	https://doi.org/10.1126/science.ads3732
State	Published - Sep 18 2025

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Crawford, J. E., Balcazar, D., Redmond, S., Rose, N. H., Youd, H. A., Lucas, E. R., Ali, R. S. M., Alnazawi, A., Badolo, A., Chen, C. H., Cosme, L. V., Henke, J. A., Hung, K. Y., Kluh, S., Liu, W. L., Maringer, K., Martins, A., Micieli, M. V., Pless, E., ... White, B. J. (2025). 1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk. Science, 389(6766), Article eads3732. https://doi.org/10.1126/science.ads3732

@article{d30061c980d64042b74a6e17378838fc,

title = "1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk",

abstract = "The emergence and global expansion of Aedes aegypti puts more than half of all humans at risk of arbovirus infection, but the origin of this mosquito and the impact of contemporary gene flow on arbovirus control are unclear. We sequenced 1206 genomes from 73 globally distributed locations. After evolving a preference for humans in Sahelian West Africa, the invasive subspecies Ae. aegypti aegypti (Aaa) emerged in the Americas after the Atlantic slave trade era and expanded globally. Recent back-to-Africa Aaa migration introduced insecticide resistance and anthropophily into regions with recent dengue outbreaks, raising concern that Aaa movement could increase arbovirus risk in urban Africa. These data underscore developing complexity in the fight against dengue, Zika, and chikungunya and provide a platform to further study this important mosquito vector.",

author = "Crawford, \{Jacob E.\} and Dario Balcazar and Seth Redmond and Rose, \{Noah H.\} and Youd, \{Henry A.\} and Lucas, \{Eric R.\} and Ali, \{Rusdiyah Sudirman Made\} and Ashwaq Alnazawi and Athanase Badolo and Chen, \{Chun Hong\} and Cosme, \{Luciano V.\} and Henke, \{Jennifer A.\} and Hung, \{Kim Y.\} and Susanne Kluh and Liu, \{Wei Liang\} and Kevin Maringer and Ademir Martins and Micieli, \{Mar{\'i}a Victoria\} and Evlyn Pless and Aboubacar Sombi{\'e} and Surendran, \{Sinnathamby N.\} and Isra Wahid and Armbruster, \{Peter A.\} and David Weetman and McBride, \{Carolyn S.\} and Andrea Gloria-Soria and Powell, \{Jeffrey R.\} and White, \{Bradley J.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 the authors, some rights reserved; exclusive licensee American Association for the Advancement of Science.",

year = "2025",

month = sep,

day = "18",

doi = "10.1126/science.ads3732",

language = "English (US)",

volume = "389",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6766",

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Crawford, JE, Balcazar, D, Redmond, S, Rose, NH, Youd, HA, Lucas, ER, Ali, RSM, Alnazawi, A, Badolo, A, Chen, CH, Cosme, LV, Henke, JA, Hung, KY, Kluh, S, Liu, WL, Maringer, K, Martins, A, Micieli, MV, Pless, E, Sombié, A, Surendran, SN, Wahid, I, Armbruster, PA, Weetman, D, McBride, CS, Gloria-Soria, A, Powell, JR & White, BJ 2025, '1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk', Science, vol. 389, no. 6766, eads3732. https://doi.org/10.1126/science.ads3732

TY - JOUR

T1 - 1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk

AU - Crawford, Jacob E.

AU - Balcazar, Dario

AU - Redmond, Seth

AU - Rose, Noah H.

AU - Youd, Henry A.

AU - Lucas, Eric R.

AU - Ali, Rusdiyah Sudirman Made

AU - Alnazawi, Ashwaq

AU - Badolo, Athanase

AU - Chen, Chun Hong

AU - Cosme, Luciano V.

AU - Henke, Jennifer A.

AU - Hung, Kim Y.

AU - Kluh, Susanne

AU - Liu, Wei Liang

AU - Maringer, Kevin

AU - Martins, Ademir

AU - Micieli, María Victoria

AU - Pless, Evlyn

AU - Sombié, Aboubacar

AU - Surendran, Sinnathamby N.

AU - Wahid, Isra

AU - Armbruster, Peter A.

AU - Weetman, David

AU - McBride, Carolyn S.

AU - Gloria-Soria, Andrea

AU - Powell, Jeffrey R.

AU - White, Bradley J.

PY - 2025/9/18

Y1 - 2025/9/18

N2 - The emergence and global expansion of Aedes aegypti puts more than half of all humans at risk of arbovirus infection, but the origin of this mosquito and the impact of contemporary gene flow on arbovirus control are unclear. We sequenced 1206 genomes from 73 globally distributed locations. After evolving a preference for humans in Sahelian West Africa, the invasive subspecies Ae. aegypti aegypti (Aaa) emerged in the Americas after the Atlantic slave trade era and expanded globally. Recent back-to-Africa Aaa migration introduced insecticide resistance and anthropophily into regions with recent dengue outbreaks, raising concern that Aaa movement could increase arbovirus risk in urban Africa. These data underscore developing complexity in the fight against dengue, Zika, and chikungunya and provide a platform to further study this important mosquito vector.

AB - The emergence and global expansion of Aedes aegypti puts more than half of all humans at risk of arbovirus infection, but the origin of this mosquito and the impact of contemporary gene flow on arbovirus control are unclear. We sequenced 1206 genomes from 73 globally distributed locations. After evolving a preference for humans in Sahelian West Africa, the invasive subspecies Ae. aegypti aegypti (Aaa) emerged in the Americas after the Atlantic slave trade era and expanded globally. Recent back-to-Africa Aaa migration introduced insecticide resistance and anthropophily into regions with recent dengue outbreaks, raising concern that Aaa movement could increase arbovirus risk in urban Africa. These data underscore developing complexity in the fight against dengue, Zika, and chikungunya and provide a platform to further study this important mosquito vector.

UR - https://www.scopus.com/pages/publications/105016637958

UR - https://www.scopus.com/pages/publications/105016637958#tab=citedBy

U2 - 10.1126/science.ads3732

DO - 10.1126/science.ads3732

M3 - Article

C2 - 40966355

AN - SCOPUS:105016637958

SN - 0036-8075

VL - 389

JO - Science

JF - Science

IS - 6766

M1 - eads3732

ER -

1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk

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