# Avian haemosporidian diversity and transmission across birds and mosquitoes in Botswana

**Authors:** Antoine Perrin, Casper Nyamukondiwa, Romain Pigeault, Mmabaledi Buxton, Alexander N. Kirschel, Molly Baur, Olivier Glaizot, Philippe Christe

PMC · DOI: 10.1016/j.ijppaw.2026.101212 · International Journal for Parasitology: Parasites and Wildlife · 2026-02-14

## TL;DR

This study explores bird and mosquito interactions in Botswana to reveal new insights into avian malaria parasite diversity and transmission.

## Contribution

The study identifies 36 new haemosporidian lineages and provides first evidence of Plasmodium MALNI02 transmission in Africa.

## Key findings

- High diversity of haemosporidian parasites detected in both birds and mosquitoes in Botswana.
- Migratory birds may introduce cosmopolitan lineages, which can infect local mosquitoes and be carried by resident bird species.

## Abstract

Avian malaria parasites circulate globally among birds and their dipteran vectors, yet their diversity and transmission dynamics remain poorly characterised in sub-Saharan Africa. Here, we investigated haemosporidian infections in birds and mosquitoes across Botswana, where resident and migratory bird species interact with diverse vector communities. We screened 395 birds from 23 genera and 65 species and 1425 mosquitoes from eight genera and 28 species for Plasmodium, Haemoproteus and Leucocytozoon. We detected a high level of parasite diversity, identifying 40 lineages in birds, 31 in mosquitoes, including one lineage shared between the avian hosts and vectors. A total of 36 lineages were newly described. The detection of the African Plasmodium lineage MALNI02 in both birds and multiple mosquito taxa, provides the first evidence of its potential transmission pathway between avian hosts and vectors in Africa. Several cosmopolitan lineages previously known from Europe were detected in both resident and migratory birds and in mosquitoes. This suggests that migratory birds may help to spread these haemosporidian parasites across continents, and that African mosquito taxa can transmit them. It also indicates that infections previously detected in Europe can circulate among resident bird species in Africa. These findings support the idea of cross-transmission between resident and migratory bird species and highlight the importance of southern Africa in understanding avian malaria transmission across the African-Eurasian flyway.

Image 1

•High diversity of haemosporidian parasites detected in both birds and mosquitoes in Botswana.•Migratory birds may introduce cosmopolitan lineages, which can infect local mosquitoes and be carried by resident bird species.•First evidence of potential vectors for Plasmodium MALNI02 in multiple African mosquito taxa.•Local Culex species play a key role in facilitating parasite transmission within and among migratory and resident bird species.

High diversity of haemosporidian parasites detected in both birds and mosquitoes in Botswana.

Migratory birds may introduce cosmopolitan lineages, which can infect local mosquitoes and be carried by resident bird species.

First evidence of potential vectors for Plasmodium MALNI02 in multiple African mosquito taxa.

Local Culex species play a key role in facilitating parasite transmission within and among migratory and resident bird species.

## Linked entities

- **Diseases:** avian malaria (MONDO:0025095)
- **Species:** Plasmodium (taxon 5820), Haemoproteus (taxon 77521), Leucocytozoon (taxon 195944), Culex (taxon 7174)

## Full-text entities

- **Diseases:** avian malaria (MESH:D008289), malaria (MESH:D008288), infectious diseases (MESH:D003141), Haemosporidian infection (MESH:D007239)
- **Chemicals:** ethanol (MESH:D000431), CO2 (MESH:D002245), agarose (MESH:D012685)
- **Species:** Chironomus thummi (midge, species) [taxon 7154], Haemoproteus sp. HIICT4 (species) [taxon 323124], Emberiza melanocephala (species) [taxon 357696], M. africana [taxon 112490], Quelea quelea (red-billed quelea, species) [taxon 187445], Muscicapa striata (spotted flycatcher, species) [taxon 1293958], Aedes aegypti (yellow fever mosquito, species) [taxon 7159], Sylvia borin (garden warbler, species) [taxon 73324], Crithagra flaviventris (Yellow canary, species) [taxon 163847], Chrysococcyx caprius (species) [taxon 2506944], Coquillettidia (genus) [taxon 329110], Anopheles (series) [taxon 44484], Lanius collurio (red-backed shrike, species) [taxon 56324], Phylloscopus trochilus (Willow warbler, species) [taxon 9182], Culex sp. (species) [taxon 2912049], Aedeomyia (genus) [taxon 139057], Plasmodium (subgenus) [taxon 418103], Sylvia atricapilla (blackcap, species) [taxon 48155], Culex perexiguus (species) [taxon 943103], Mansonia uniformis (species) [taxon 308735], Leucocytozoon (genus) [taxon 195944], Haemoproteus (genus) [taxon 77521], Culex pipiens (common house mosquito, species) [taxon 7175], Hippolais icterina (icterine warbler, species) [taxon 68497], Ara tricolor (Cuban red macaw, species) [taxon 2049294], Culiseta longiareolata (species) [taxon 1206072], Plasmodium sp. SGS1 (species) [taxon 282521], Aedes (subgenus) [taxon 149531], Plasmodium sp. MALNI02 (species) [taxon 2769173], Pycnonotus tricolor (species) [taxon 2022814], Ploceus velatus (Southern masked weaver, species) [taxon 181103], Culex (subgenus) [taxon 53527], Homo sapiens (human, species) [taxon 9606], Halcyon senegalensis (species) [taxon 342381]

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12930081/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/PMC12930081/full.md

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Source: https://tomesphere.com/paper/PMC12930081