# Earthworm (Oligochaeta, Lumbricidae) intraspecific genetic variation and polyploidy

**Authors:** S.V. Shekhovtsov, Ye.A. Derzhinsky, E.V. Golovanova

PMC · DOI: 10.18699/vjgb-24-62 · 2024-09-01

## TL;DR

This paper explores how earthworms show diverse genetic variation and ploidy levels, revealing complex relationships between genetic lineages and reproductive modes.

## Contribution

The study provides new insights into the coexistence of different ploidy races and genetic lineages in earthworms.

## Key findings

- Single genetic lineages can include populations with different ploidy levels, indicating recent polyploidization.
- Some species show clear genetic boundaries between ploidy races, suggesting ancient divergence.
- Reproductive mode plasticity in earthworms contributes to their complex genetic and ploidy patterns.

## Abstract

Earthworms are known for their intricate systematics and a diverse range of reproduction modes, including outcrossing, self-fertilization, parthenogenesis, and some other modes, which can occasionally coexist in a single species. Moreover, they exhibit considerable intraspecific karyotype diversity, with ploidy levels varying from di- to decaploid, as well as high genetic variation. In some cases, a single species may exhibit significant morphological variation, contain several races of different ploidy, and harbor multiple genetic lineages that display significant divergence in both nuclear and mitochondrial DNA. However, the relationship between ploidy races and genetic lineages in earthworms remains largely unexplored. To address this question, we conducted a comprehensive review of available data on earthworm genetic diversity and karyotypes. Our analysis revealed that in many cases, a single genetic lineage appears to encompass populations with different ploidy levels, indicating recent polyploidization. On the other hand, some other cases like Octolasion tyrtaeum and Dendrobaena schmidti/D. tellermanica demonstrate pronounced genetic boundaries between ploidy races, implying that they diverged long ago. Certain cases like the Eisenia nordenskioldi complex represent a complex picture with ancient divergence between lineages and both ancient and recent polyploidization. The comparison of phylogenetic and cytological data suggests that some ploidy races have arisen independently multiple times, which supports the early findings by T.S. Vsevolodova-Perel and T.V. Malinina. The key to such a complex picture is probably the plasticity of reproductive modes in earthworms, which encompass diverse modes of sexual and asexual reproduction; also, it has been demonstrated that even high-ploidy forms can retain amphimixis.

## Linked entities

- **Species:** Oligochaeta (taxon 6381), Lumbricidae (taxon 6392), Octolasion tyrtaeum (taxon 161232), Dendrobaena schmidti (taxon 2728233), Eisenia nordenskioldi (taxon 538895)

## Full-text entities

- **Species:** Dendrobaena schmidti (species) [taxon 2728233], earthworms (species) [taxon 71170], Oligochaeta (genus) [taxon 75641], Metaphire sieboldi (earthworm, species) [taxon 506672], Octolasion tyrtaeum (species) [taxon 161232]

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11393649/full.md

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Source: https://tomesphere.com/paper/PMC11393649