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Published (Version of Record)CC BY V4.0, Open Access
Journal article
Valve Gape Movement of an Endangered Freshwater Mussel During Burrowing
Hydrobiology, Vol.5(1), 2
2026
Abstract
Understanding the behavioral strategies that allow freshwater mussels to persist under environmental stress is essential for their conservation, yet burrowing behavior remains poorly quantified. We tested whether valve movement data could be used to detect and characterize burrowing in the endangered Westralunio carteri; a species endemic to a region undergoing severe climatic drying. Mussels from multiple populations were monitored individually under laboratory conditions using Hall effect sensors, and valve movement patterns were analyzed to distinguish between burrowing and non-burrowing behaviors. Burrowing was associated with rapid, high-amplitude valve movements that lengthened as burial progressed, while non-burrowing behaviors showed distinct, slower patterns. These differences indicate that valvometry can reliably identify burrowing behavior, providing a non-invasive method for monitoring mussel activity. This approach has broad applications for ecological research, conservation assessment, and early-warning biomonitoring of imperiled freshwater mussel populations.
Details
- Title
- Valve Gape Movement of an Endangered Freshwater Mussel During Burrowing
- Authors/Creators
- Alan Cottingham - Murdoch UniversityJake Daviot - Murdoch UniversityJames R. Tweedley - Murdoch UniversityStephen Beatty - Murdoch University
- Publication Details
- Hydrobiology, Vol.5(1), 2
- Identifiers
- 991005849789007891
- Copyright
- © 2026 by the authors.
- Murdoch Affiliation
- School of Environmental and Conservation Sciences
- Language
- English
- Resource Type
- Journal article
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