# Polymorphism in the aggressive mimicry lure of the parasitic freshwater mussel Lampsilis fasciola

**Authors:** Trevor L. Hewitt, Paul D. Johnson, Michael Buntin, Talia Y. Moore, Diarmaid Ó Foighil

PMC · DOI: 10.7717/peerj.17359 · PeerJ · 2024-05-24

## TL;DR

This study explores how a freshwater mussel species uses different lure shapes to mimic prey and attract fish hosts, revealing a stable genetic polymorphism.

## Contribution

The study confirms a true polymorphism in mussel lure morphology and suggests potential single-locus genetic control.

## Key findings

- Lure polymorphism in Lampsilis fasciola is a true genetic polymorphism with stable morph ratios over decades.
- Both lure morphs mimic different prey types but share similar display behaviors.
- The polymorphism may be controlled by a single genetic locus, offering insights into adaptive trait regulation.

## Abstract

Unionoid freshwater mussels (Bivalvia: Unionidae) are free-living apart from a brief, obligately parasitic, larval stage that infects fish hosts, and gravid female mussels have evolved a spectrum of strategies to infect fish hosts with their larvae. In many North American species, this involves displaying a mantle lure: a pigmented fleshy extension that acts as an aggressive mimic of a host fish prey, thereby eliciting a feeding response that results in host infection. The mantle lure of Lampsilis fasciola is of particular interest because it is apparently polymorphic, with two distinct primary lure phenotypes. One, described as “darter-like”, has “eyespots”, a mottled body coloration, prominent marginal extensions, and a distinct “tail”. The other, described as “worm-like”, lacks those features and has an orange and black coloration. We investigated this phenomenon using genomics, captive rearing, biogeographic, and behavioral analyses. Within-brood lure variation and within-population phylogenomic (ddRAD-seq) analyses of individuals bearing different lures confirmed that this phenomenon is a true polymorphism. The relative abundance of the two morphs appears stable over ecological timeframes: the ratio of the two lure phenotypes in a River Raisin (MI) population in 2017 was consistent with that of museum samples collected at the same site six decades earlier. Within the River Raisin, four main “darter-like” lure motifs visually approximated four co-occurring darter species (Etheostoma blennioides, E. exile, E. microperca, and Percina maculata), and the “worm-like” lure resembled a widespread common leech, Macrobdella decora. Darters and leeches are typical prey of Micropterus dolomieui (smallmouth bass), the primary fish host of L. fasciola. In situ field recordings of the L. fasciola “darter” and “leech” lure display behaviors, and the lure display of co-occurring congener L. cardium, were captured. Despite having putative models in distinct phyla, both L. fasciola lure morphs have largely similar display behaviors that differ significantly from that of sympatric L. cardium individuals. Some minor differences in the behavior between the two L. fasciola morphs were observed, but we found no clear evidence for a behavioral component of the polymorphism given the criteria measured. Discovery of discrete within-brood inheritance of the lure polymorphism implies potential control by a single genetic locus and identifies L. fasciola as a promising study system to identify regulatory genes controlling a key adaptive trait of freshwater mussels.

## Linked entities

- **Species:** Lampsilis fasciola (taxon 96915), Etheostoma blennioides (taxon 54350), Percina maculata (taxon 57866), Macrobdella decora (taxon 6405)

## Full-text entities

- **Diseases:** infection (MESH:D007239)
- **Species:** Lampsilis fasciola (species) [taxon 96915], Percina maculata (blackside darter, species) [taxon 57866], Lampsilis cardium (plain pocketbook, species) [taxon 96914], Etheostoma microperca (least darter, species) [taxon 417931], Micropterus dolomieu (smallmouth bass, species) [taxon 147949], Etheostoma blennioides (greenside darter, species) [taxon 54350], Bivalvia (bivalves, class) [taxon 6544], Macrobdella decora (North American leech, species) [taxon 6405], Anhingidae (anhingas, family) [taxon 9211], Hirudinea (leeches, subclass) [taxon 55824]

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11129695/full.md

## References

93 references — full list in the complete paper: https://tomesphere.com/paper/PMC11129695/full.md

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Source: https://tomesphere.com/paper/PMC11129695