# Phylogenetic taxonomy of the Zambian Anopheles coustani group using a mitogenomics approach

**Authors:** Soha Usmani, Mary E. Gebhardt, Limonty Simubali, Kochelani Saili, Westone Hamwata, Hunter Chilusu, Mbanga Muleba, Conor J. McMeniman, Anne C. Martin, William J. Moss, Douglas E. Norris, Reneé L.M.N. Ali

PMC · DOI: 10.21203/rs.3.rs-5976492/v1 · Research Square · 2025-04-07

## TL;DR

This study uses complete mitochondrial genomes to better classify and understand the evolutionary history of Anopheles coustani mosquitoes in Zambia.

## Contribution

The study introduces mitogenomics as a powerful tool for resolving taxonomic confusion in the Anopheles coustani group.

## Key findings

- Seventeen new complete mitogenomes were generated, comparable in structure to reference An. coustani mitogenomes.
- Bayesian phylogenetic analysis identified six distinct clades, including a previously unknown species.
- Divergence times suggest the An. coustani group split from the An. gambiae complex around 110 million years ago.

## Abstract

Mosquito species belonging to the Anopheles coustani group have been implicated in driving residual malaria transmission in sub-Saharan Africa and are regarded as an established primary vector in Madagascar. The morphological identification of mosquitoes in this group is challenging due to cryptic features and their molecular confirmation is difficult due to a paucity of reference sequence data representing all members of the group. Conventional molecular barcoding with the cytochrome oxidase I (COI) gene and the internal transcribed spacer 2 (ITS2) region targets is limited in their discrimination and conclusive identification of members of species complexes. In contrast, complete mitochondrial genomes (mitogenomes) have demonstrated much improved power over barcodes to be useful in rectifying taxonomic discrepancies in Culicidae.

We utilized a genome skimming approach via shallow shotgun sequencing on individual mosquito specimens to generate sequence reads for mitogenome assembly. Bayesian inferred phylogenies and molecular dating estimations were perfomed on the concatenated protein coding genes using the Bayesian Evolutionary Analysis by Sampling Trees 2 (BEAST 2) platform. Divergence estimates were calibrated on published calucations for Anopheles-Aedes.

This study generated 17 new complete mitogenomes which were comprable to reference An. coustani mitogenomes in the GenBank repository by having 13 protein coding, 22 transfer RNA and 2 ribosomal RNA genes, with an average length of 15,400 bp and AT content of 78.3%. Bayesian inference using the concatenated protein coding genes from the generated and publicly available mitogenomes yielded six clades: one for each of the four taxa targeted in this study, the GenBank references, and a currently unknown species. Divergence times estimated that the An. coustani group separated from the An. gambiae complex approximately 110 million years ago (MYA), and members within the complex diverged at times points ranging from~34 MYA to as recent as ~7 MYA.

These findings demonstrate the value of mitochondrial genomes in differentiating cryptic taxa and help to confirm morphological identities of An. coustani s.s., An. paludis, An. zeimanni and An. tenebrosus. Divergence estimates with the An. coustani group are similar to those for well-studied anopheline vector groups. These analyses also highlight the likely prescence of other cryptic An. coustani group members circulating in Zambia.

## Linked entities

- **Genes:** COX1 (cytochrome c oxidase subunit I) [NCBI Gene 4512], ITS2 (isoleucine-trna synthetase) [NCBI Gene 7445294]
- **Diseases:** malaria (MONDO:0005136)
- **Species:** Anopheles coustani (taxon 139045), Anopheles gambiae (taxon 7165), Anopheles paludis (taxon 345577), Anopheles tenebrosus (taxon 345579)

## Full-text entities

- **Diseases:** malaria (MESH:D008288)
- **Species:** Anopheles coustani (species) [taxon 139045], Aedes (subgenus) [taxon 149531]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12036473/full.md

## References

68 references — full list in the complete paper: https://tomesphere.com/paper/PMC12036473/full.md

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Source: https://tomesphere.com/paper/PMC12036473