# Feral frogs, native newts, and chemical cues: identifying threats from and management opportunities for invasive African Clawed Frogs in Washington state

**Authors:** David Anderson, Olivia Cervantez, Gary M. Bucciarelli, Max R. Lambert, Megan R. Friesen

PMC · DOI: 10.7717/peerj.17307 · 2024-05-10

## TL;DR

The study explores how invasive African clawed frogs may threaten native amphibians in Washington state by analyzing chemical cue interactions.

## Contribution

The study provides some of the first evidence that native Pacific Northwest amphibians may be vulnerable to invasive African clawed frogs.

## Key findings

- Red-legged frog tadpoles responded to newt chemical cues but not to African clawed frog cues.
- African clawed frogs were attracted to newt chemical stimuli rather than repelled.
- Native species may be vulnerable to African clawed frogs due to lack of deterrent from toxic newts.

## Abstract

Invasive species threaten biodiversity globally. Amphibians are one of the most threatened vertebrate taxa and are particularly sensitive to invasive species, including other amphibians. African clawed frogs (Xenopus laevis) are native to Southern Africa but have subsequently become invasive on multiple continents—including multiple parts of North America—due to releases from the pet and biomedical trades. Despite their prevalence as a global invader, the impact of X. laevis remains understudied. This includes the Pacific Northwest of the USA, which now hosts multiple expanding X. laevis populations. For many amphibians, chemical cues communicate important information, including the presence of predators. Here, we tested the role chemical cues may play in mediating interactions between feral X. laevis and native amphibians in the Pacific Northwest. We tested whether native red-legged frog (Rana aurora) tadpoles display an antipredator response to non-native frog (X. laevis) or native newt (rough-skinned newts, Taricha granulosa) predator chemical stimuli. We found that R. aurora tadpoles exhibited pronounced anti-predator responses when exposed to chemical cues from T. granulosa but did not display anti-predator response to invasive X. laevis chemical cues. We also began experimentally testing whether T. granulosa—which produce a powerful neurotoxin tetrodotoxin (TTX)—may elicit an anti-predator response in X. laevis, that could serve to deter co-occupation. However, our short-duration experiments found that X. laevis were attracted to newt chemical stimuli rather than deterred. Our findings show that X. laevis likely poses a threat to native amphibians, and that these native species may also be particularly vulnerable to this invasive predator, compared to native predators, because toxic native newts may not limit X. laevis invasions. Our research provides some of the first indications that native Pacific Northwest species may be threatened by feral X. laevis and provides a foundation for future experiments testing potential management techniques for X. laevis.

## Linked entities

- **Chemicals:** tetrodotoxin (PubChem CID 11174599), TTX (PubChem CID 4490623)
- **Species:** Xenopus laevis (taxon 8355), Rana aurora (taxon 160496), Taricha granulosa (taxon 8321)

## Full-text entities

- **Chemicals:** TTX (MESH:D013779)
- **Species:** Taricha granulosa (rough-skinned newt, species) [taxon 8321], Rana aurora (red-legged frog, species) [taxon 160496], Xenopus laevis (African clawed frog, species) [taxon 8355]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11090105/full.md

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Source: https://tomesphere.com/paper/PMC11090105