Back

Invasion history of Aedes (Stegomyia) albopictus into Mesoamerica based on mitogenomes and Wolbachia symbionts: Multiple introductions with temperate origins.

Bennett, K. L.; Schmidt, T. L.; Day, J. P.; Gutierrez Alvarado, J. M.; Delgado, G.; Marin Rodriguez, R.; Fernando Chaves, L.; Labau, J. I. R.; McMillan, O. W.; Jiggins, F.; Loaiza, J. R.

2026-07-09 evolutionary biology
10.64898/2026.07.08.737237 bioRxiv
Show abstract

The global invasion of the Asian tiger mosquito Aedes albopictus has led to an increase in arboviral disease, including within Mesoamerica. Understanding vector invasion routes is important for public health because it directs biosecurity and identifies sources of adaptive allele spread. Panama is an important hub of global trade with opportunities for Aedes introduction through both maritime and overland routes but dispersal into the Isthmus has not yet been investigated. We therefore sought to investigate the population structure and invasion history of Ae. albopictus into Panama, targeting both its mitogenome and associated Wolbachia. Historical demographic analysis with Bayesian phylogeographic diffusion models and estimates of divergence revealed that Panamanian Ae. albopictus and its associated Wolbachia have a convergent evolutionary history resulting from multiple introductions. Both could be traced to Asian-derived lineages introduced via the Americas, with invasion primarily through the maritime trade of the Panama Canal rather than overland dispersal from neighboring Costa Rica. An investigation of the relative density of Wolbachia in Panama revealed that both the strains wAlbB and wAlbA were at a notably lower density compared to other worldwide locations. This finding has implications for arbovirus transmission and raises important questions about how Wolbachia density is impacted by the environment and impacts on population control. Overall, the Panama Canal is a key route for vector introductions into Mesoamerica.

Matching journals

The top 5 journals account for 50% of the predicted probability mass.

1
PLOS Neglected Tropical Diseases
466 papers in training set
Top 0.4%
30.9%
2
Nature Communications
5641 papers in training set
Top 29%
4.8%
3
Evolutionary Applications
108 papers in training set
Top 0.3%
4.8%
4
Journal of Medical Entomology
18 papers in training set
Top 0.1%
4.8%
5
PLOS Pathogens
820 papers in training set
Top 3%
4.8%
50% of probability mass above
6
PLOS ONE
5266 papers in training set
Top 33%
4.3%
7
Proceedings of the Royal Society B: Biological Sciences
393 papers in training set
Top 2%
3.2%
8
Scientific Reports
3612 papers in training set
Top 34%
3.2%
9
Parasites & Vectors
60 papers in training set
Top 0.5%
3.2%
10
Communications Biology
993 papers in training set
Top 12%
1.9%
11
Peer Community Journal
281 papers in training set
Top 3%
1.9%
12
Molecular Ecology
336 papers in training set
Top 2%
1.7%
13
Viruses
332 papers in training set
Top 3%
1.7%
14
Applied and Environmental Microbiology
339 papers in training set
Top 3%
1.7%
15
Virus Evolution
155 papers in training set
Top 1.0%
1.5%
16
mBio
833 papers in training set
Top 8%
1.5%
17
Proceedings of the National Academy of Sciences
2444 papers in training set
Top 32%
1.3%
18
eLife
5828 papers in training set
Top 60%
1.1%
19
PeerJ
308 papers in training set
Top 9%
1.0%
20
mSphere
302 papers in training set
Top 6%
1.0%
21
International Journal for Parasitology
26 papers in training set
Top 0.5%
1.0%
22
Molecular Phylogenetics and Evolution
69 papers in training set
Top 0.8%
0.8%
23
Ecology and Evolution
267 papers in training set
Top 5%
0.8%
24
Science Advances
1243 papers in training set
Top 33%
0.6%
25
G3: Genes|Genomes|Genetics
35 papers in training set
Top 0.5%
0.6%
26
Infection, Genetics and Evolution
42 papers in training set
Top 1%
0.6%
27
Molecular Biology and Evolution
542 papers in training set
Top 5%
0.6%