# New insights into molecular characterization and genetic diversity of Eimeria coccidian parasites in bats from diverse geographical regions of Thailand using nanopore-based DNA metabarcoding

**Authors:** Chatchapon Sricharoensuk, Pathamet Khositharattanakool, Puckavadee Somwang, Supaporn Wacharapluesadee, Padet Siriyasatien, Kanok Preativatanyou

PMC · DOI: 10.1016/j.crpvbd.2025.100327 · 2025-10-13

## TL;DR

This study uses DNA sequencing to explore the genetic diversity of Eimeria parasites in Thai bats, revealing complex evolutionary relationships with parasites in rodents.

## Contribution

The first molecular assessment of Eimeria parasites in Thai bats, uncovering novel genetic clusters and evolutionary patterns.

## Key findings

- Twenty Eimeria haplotypes were identified, grouped into five genetic clusters.
- Phylogenetic analysis suggests shared ancestry and host-switching between bat and rodent Eimeria parasites.
- Haplogroup 1 shows widespread distribution and broad host range, indicating recent population expansion.

## Abstract

Bats represent over 1400 species globally, accounting for approximately one-fifth of all mammalian diversity, yet their gastrointestinal parasite communities remain understudied. Among these parasites, the genus Eimeria is one of the most commonly documented coccidian groups infecting bats. To date, more than 40 Eimeria spp. have been described from bats worldwide; however, molecular data are limited, and their evolutionary relationships with congeners infecting other vertebrate hosts remain largely unresolved. This study aims to elucidate the evolutionary connections between Eimeria parasites infecting bats and rodents, addressing a key question about shared ancestry and host-switching events across deeply divergent hosts. We investigated the genetic diversity and phylogenetic relationships of Eimeria spp. infecting Thai bats. Ninety-six genomic DNA samples extracted from bat guano, collected across six geographically distinct sites in prior research, were screened using SSU rRNA-PCR and nanopore amplicon sequencing. Host identification based on vertebrate cox1 gene sequencing revealed seven bat species (Pteropus lylei, Taphozous melanopogon, Cynopterus brachyotis, Eonycteris spelaea, Mops plicatus, Hipposideros armiger, and Pteropus vampyrus) along with the Hipposideros larvatus species complex. Haplotype network construction and phylogenetic analyses using Bayesian inference and maximum likelihood identified five putative genetic clusters of Eimeria sequences, including novel Haplogroups 1 and 2 that formed clearly distinct groups. The remaining three clusters showed close genetic affinities to known Eimeria species from bats (Eimeria sp. Bat10 and Eimeria sp. Bat31) and rodents (E. ferrisi). Notably, despite the deep evolutionary divergence between bats and rodents, Eimeria parasites infecting these hosts did not form entirely separate clades. Both phylogenies consistently revealed the polyphyletic nature of bat-derived Eimeria species, with multiple independent lineages interspersed among rodent taxa. This pattern supports hypotheses of shared ancestry or host-switching events, highlighting the complex evolutionary dynamics shaping Eimeria diversity across vertebrate hosts. The widespread distribution and genetic patterns observed in Haplogroup 1 suggest a recent population expansion potentially driven by ecological adaptability and host range dynamics. By focusing on the evolutionary relationships between bat and rodent Eimeria, this study advances our understanding of Eimeria diversity and host-parasite coevolution, emphasizing the importance of integrative molecular approaches in unravelling parasite evolutionary history across vertebrate taxa.

Image 1

•The first molecular identification and assessment of the genetic diversity of bat-associated Eimeria parasites in Thailand.•The overall prevalence of Eimeria spp. infection in bats was 70.8%.•Twenty Eimeria haplotypes detected were categorized into five haplogroups, representing five putative genetic clusters.•Haplogroup 1 was the most dominant, with a broad host range and widespread distribution.•Phylogenetic analyses revealed bat-derived Eimeria as polyphyletic, suggesting shared ancestry and host-switching.

The first molecular identification and assessment of the genetic diversity of bat-associated Eimeria parasites in Thailand.

The overall prevalence of Eimeria spp. infection in bats was 70.8%.

Twenty Eimeria haplotypes detected were categorized into five haplogroups, representing five putative genetic clusters.

Haplogroup 1 was the most dominant, with a broad host range and widespread distribution.

Phylogenetic analyses revealed bat-derived Eimeria as polyphyletic, suggesting shared ancestry and host-switching.

## Linked entities

- **Species:** Pteropus lylei (taxon 166054), Taphozous melanopogon (taxon 187003), Cynopterus brachyotis (taxon 58060), Eonycteris spelaea (taxon 58065), Mops plicatus (taxon 3370289), Hipposideros armiger (taxon 186990), Pteropus vampyrus (taxon 132908), Hipposideros larvatus (taxon 175524)

## Full-text entities

- **Species:** Chiroptera (bats, order) [taxon 9397], Homo sapiens (human, species) [taxon 9606], Taphozous melanopogon (black-bearded tomb bat, species) [taxon 187003], Hipposideros armiger (great Himalayan leaf-nosed bat, species) [taxon 186990], Hipposideros larvatus (species) [taxon 175524], Eimeria sp. (species) [taxon 1729940], Pteropus lylei (species) [taxon 166054], Eonycteris spelaea (lesser dawn bat, species) [taxon 58065], Cynopterus brachyotis (lesser short-nosed fruit bat, species) [taxon 58060], Bacillus sp. AT (species) [taxon 1196779], Eimeria ferrisi (species) [taxon 1770264], Pteropus vampyrus (large flying fox, species) [taxon 132908]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12557494/full.md

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Source: https://tomesphere.com/paper/PMC12557494