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Vol. 63, 2024
(update: 2024.12.27)
Assessing Phylogeographic
Patterns and Genetic Diversity in Culex
quinquefasciatus (Diptera: Culicidae) via mtDNA Sequences from
Public Databases
Gian
Carlo García-Escobar1,2 , Juan José Trujillo González1,3, and Oscar Alexander
Aguirre-Obando1,3,*
doi:10.6620/ZS.2024.63-58
1Escuela
de investigación en Biomatemática, Universidad del Quindío. Carrera 15,
Calle 12 Norte, Armenia, Quindío, Colombia. E-mail:
gcgarciae@uqvirtual.edu.co (García-Escobar)
2Programa de Licenciatura en Biología y Educación
Ambiental, Facultad de Educación, Universidad del Quindío. Carrera 15,
Calle 12 Norte, Armenia, Quindío, Colombia
3Programa de Biología, Facultad de Ciencias Básicas y
Tecnologías, Universidad del Quindío. Carrera 15, Calle 12 Norte,
Armenia, Quindío, Colombia. *Correspondence: E-mail:
oscaraguirre@uniquindio.edu.co (Aguirre-Obando)
E-mail: juanj.trujillog@uqvirtual.edu.co (González)
(Received 28 May 2024 /
Accepted 27 November 2024 / Published -- 2024)
Communicated by John Wang
To
identify the worldwide genetic structure, gene flow, and diversity of
Culex quinquefasciatus, we conducted phylogeographic and population
genetics analyses utilizing publicly available mtDNA sequences.
Therefore, the aim of this study was to investigate the genetic
structure and diversity of natural populations of C. quinquefasciatus
worldwide, using available genetic data reflecting its natural
distribution. Our study focused on the cytochrome c oxidase subunit I
(COI) gene, mirroring the species' distribution pattern. We examined
COI gene sequences from C. quinquefasciatus populations across Asia (n
= 1,698), America (n = 334), Africa (n = 30), Oceania (n = 21), and
Europe (n = 1), identifying 69 haplotypes. Genetic links were observed
between Asian populations and those from other continents. Global
genetic diversity was 0.531, varying from 0.095 in Oceania to 0.648 in
South America. Neutrality tests indicated demographic expansions at the
continental level in the Americas, North America, and Asia, as well as
in some countries within these regions. In contrast, at both global and
continental levels (South America, Oceania, and Africa), and in most
countries within these continents, neutral populations were observed.
AMOVA revealed genetic structuring among and within countries, with no
genetic isolation observed (R2 = 0.03144; p > 0.05). Despite lower
genetic diversity, Asian populations facilitated gene flow with other
continents, suggesting a possible native origin of the species in Asia.
The dispersal of this mosquito to new regions, coupled with its ability
to transmit various arboviruses, underscores its significance as a
potential public health threat.
Key words: Epidemiology,
Genetic diversity, Public health, Southern house mosquito, Vector
capacity
Citation: García-Escobar GC, González JJT,
Aguirre-Obando OA. 2024. Assessing phylogeographic patterns and genetic
diversity in Culex quinquefasciatus
(Diptera: Culicidae) via mtDNA sequences from public databases. Zool
Stud 63:58. doi:10.6620/ZS.2024.63-58.
Supplementary
materials: Table S1丨Table S2丨Table S3
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