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Multiple introductions, trade-associated connectivity, and mito-nuclear discordance reveal complex invasion dynamics of Aedes albopictus in Colombi

Mantilla, J. S.; Calvo-Tapiero, E. S.; Montilla-Lopez, K. S.; Velandia-Romero, M. L.; Morales, C.; De Las Salas-Ali, J.; Salcedo-Amortegui, C. J.; Buitrago, L. S.; Quintero, L.; Rua, G.; Castellanos, J. E.

2026-06-19 genetics
10.64898/2026.06.15.732288 bioRxiv
Show abstract

BackgroundAedes albopictus is among the worlds most invasive mosquito species and an important vector of dengue, Zika, and chikungunya viruses. Its global spread has been strongly associated with human-mediated transport and international trade, particularly through commodities such as used tires and ornamental plants. However, integrative studies combining population genetics, microbial symbiosis, and trade connectivity remain limited in Latin America, constraining understanding of invasion dynamics and dispersal processes. MethodsAedes albopictus populations from five Colombian departments sampled between 2019 and 2023 were analyzed using eight microsatellite loci and a [~]1.3-kb mitochondrial COI fragment. Wolbachia infection and lineage composition (wAlbA/wAlbB) were evaluated by PCR, and arbovirus detection (DENV, CHIKV, ZIKV) was performed using multiplex RT-PCR. Nuclear and mitochondrial differentiation (FST, {Phi}ST), mito-nuclear discordance, and trade-related connectivity were evaluated in relation to geographic, national transport, and international trade variables derived from customs databases. ResultsMicrosatellite analyses revealed admixed but structured populations consistent with multiple introductions and contemporary gene flow. Colombian populations showed nuclear genetic affinities with Asian, European, and North American populations, supporting a complex invasion history involving multiple geographically distributed lineages. In contrast, mitochondrial COI data showed evidence of regional genetic structure and heterogeneous mito-nuclear discordance among several population pairs. Notably, nuclear and mitochondrial markers captured contrasting dimensions of the invasion process: nuclear differentiation was positively associated with international trade intensity, particularly shipment frequency and used tire importation, whereas mitochondrial differentiation retained stronger regional structure and showed no detectable association with trade-related variables. Wolbachia prevalence ranged from 34% to 100% across departments and showed exploratory patterns consistent with localized mitochondrial differentiation. Natural detection of DENV and CHIKV RNA in larvae provided evidence of local arbovirus circulation. ConclusionsIntegrating population genetics, trade connectivity, and Wolbachia screening supports a scenario in which the Colombian invasion of Ae. albopictus has been shaped by multiple introductions, contemporary human-mediated connectivity, and partially discordant mito-nuclear histories. These findings highlight how different genomic compartments retain complementary signatures of invasion dynamics, with contemporary trade-associated connectivity primarily reflected in nuclear structure and regional lineage persistence retained in mitochondrial variation. Author SummaryThe Asian tiger mosquito, Aedes albopictus, is one of the worlds most invasive mosquito vectors and continues to expand across Latin America through human transportation and trade networks. However, the processes shaping its spread in the region remain poorly understood. We combined population genetics, international trade data, Wolbachia screening, and arbovirus surveillance to investigate the invasion dynamics of Ae. albopictus in Colombia. Our results revealed evidence of multiple introductions and ongoing genetic admixture, with international trade connectivity emerging as an important predictor of contemporary nuclear genetic structure. In contrast, mitochondrial DNA retained stronger regional patterns, generating heterogeneous mito-nuclear discordance among populations. These findings suggest that different genomic compartments retain distinct signatures of the invasion process, with trade-associated connectivity reflected primarily in nuclear variation and stronger regional structure preserved in mitochondrial lineages. More broadly, our study highlights the complex invasion dynamics of Ae. albopictus in Latin America illustrates how integrating genetics and human connectivity data can improve understanding of invasive vector spread.

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