# Can Ectoparasite Phylogenetics Shed Light on Host Evolution? The Batracobdella Leeches and Speleomantes Salamanders' System

**Authors:** María Torres‐Sánchez, Michael Veith, Enrico Lunghi

PMC · DOI: 10.1002/ece3.73019 · 2026-02-15

## TL;DR

This study explores how the evolutionary history of leeches can help clarify the evolution of their host salamanders in Sardinia.

## Contribution

The study proposes novel evolutionary hypotheses based on host–parasite phylogenetic relationships.

## Key findings

- Leech phylogeny complements and clarifies the evolutionary history of Sardinian Speleomantes salamanders.
- Three divergent genetic lineages were identified in the amphibian leech Batracobdella algira.
- A host-switching event and co-evolution processes are suggested in the salamander-leech system.

## Abstract

Understanding species' evolutionary history is essential for comprehending trait diversity. Evolutionary relationships among many species, however, have conflicted phylogenetic inferences due to evolutionary discordances and need additional sources of information. Phylogenetic relationships of symbionts can inform about the evolution of their hosts. In this study, we reconstructed the evolutionary relationships among Sardinian salamander ectoparasitic leeches to resolve evolutionary discordances among their hosts, the Sardinian Speleomantes salamander species, and proposed novel evolutionary hypotheses that account for host–parasite evolutionary processes. We inferred the most up‐to‐date phylogeny for Batracobdella leeches and uncovered high levels of genetic diversity in B. algira, a species commonly known as the amphibian leech, revealing three divergent lineages. Leech phylogeny complemented previous information about Sardinian Speleomantes evolutionary history. Our comparison of this parasite phylogeny with the most recent inferred salamander tree revealed potential processes of host–parasite co‐evolution and a host‐switching event in the studied system. In both trees, a clade comprising species with the most northeastern distributions in Sardinia (
S. flavus
, 
S. imperialis
, and 
S. supramontis
 and their respective leeches) was recovered. The phylogenetic position of the 
S. genei
 ectoparasitic leech was incongruent with that of its host in previous studies, which recovered 
S. genei
 as sister to the other Sardinian Speleomantes. Disentangling the evolutionary processes underlying these host–parasite interactions is important for understanding not only the evolution of these parasitic leeches but also that of their amphibian hosts.

Phylogenetic relationships of symbionts can inform about the evolution of their hosts. In this study, we reconstructed the evolutionary relationships among Sardinian salamander ectoparasitic leeches to resolve evolutionary discordances among their hosts, the Sardinian Speleomantes salamander species, and proposed novel evolutionary hypotheses that account for host–parasite evolutionary processes.

## Linked entities

- **Species:** Batracobdella algira (taxon 888296), Speleomantes (taxon 486473)

## Full-text entities

- **Species:** Speleomantes genei (brown cave salamander, species) [taxon 36318], Speleomantes supramontis (Nuoro salamander, species) [taxon 37088]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12906977/full.md

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Source: https://tomesphere.com/paper/PMC12906977