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Cichlid fish: How does the swim bladder affect hearing?

8. Aug 12
In bony fish the swim bladder primarily serves for buoyancy Moreover, in many species it also possesses acoustic functions: it plays a role in sound production and improves hearing in numerous ways. Biologists around Friedrich Ladich from the University of Vienna investigated for the first time differences in the the morphology of the swim bladder in cichlid fishes and how it affects their hearing. Results were published in the renowned journal PLOS ONE.

"Sound vibrations are transmitted to the inner ear via anterior extensions of the swim bladder or via bony ossicles", the biologist Tanja Schulz-Mirbach explains how swim bladders may serve for hearing. The hearing sensitivity improves considerably in this way. The anterior part of the swim bladder functions in specialized fish species similar to an ear drum. Up to now the effects of the different swim bladder morphologies have not been investigated in detail in cichlid fishes. The behavioural biologists of the University of Vienna Tanja Schulz-Mirbach and Friedrich Ladich  as well as Brian Metscher from the Department of Theoretical Biology of the University of Vienna studied the relationship between the shape of the swim bladder and its function. "These fish are perfect for such an investigation because this fish family possesses a large variety of swim bladders ranging from tiny reduced ones to large highly specialized swim bladders with extensions up to the inner ear",  the bioacoustician Tanja Schulz-Mirbach explains.

Different swim bladders
Currently we know approximately 1,300 species of cichlid fishes, which live in various habitats. "Using  microtomographic methods in cooperation with Brian Metscher we could reconstruct swim bladder specializations in detail",  Tanja Schulz-Mirbach says. Some cichlid species such as the bottom-living Steatocranus tinanti inhabit fast flowing waters in the Congo river basin and their swim bladders are widely reduced. Cichlids which live in rather calm waters possess large bladders which either lack a connection to the inner ear such as the jewel cichlid Hemichromis guttatus or which possess anterior extensions bringing the swim bladder close to the inner ears. The Malagasy species Paratilapia polleni has simple tube-like swim bladder extensions whereas the Indian cichlid Etroplus maculatus has more complex extensions consisting of a gas-filled tube and a tissue pad which touches the inner ear.

Size matters
Biologists in the bioacoustic lab of Friedrich Ladich measured hearing by recording acoustically evoked potentials (similar to EEGs) from the head of animals non-invasively. "We could show that species having specialized swim bladders detect higher sound frequencies and lower sound levels than species having reduced swim bladders", Schulz-Mirbach explains. However, the jewel cichlid which has a large swim bladder but no connection to the inner ear is also able to detect frequencies up to 3 kHz but only at higher sound levels. "This means that the presence of anterior swim bladder extensions results in better hearing but the size of the swim bladder is also important", explains Schulz-Mirbach. She will continue to investigate the importance of the habitat noise on the development of hearing and if swim bladder specializations affect inner ear anatomy.

Publication:
"Relationship between swim bladder morphology and hearing abilities. A case study on Asian and African cichlids": Tanja Schulz-Mirbach, Brian Metscher, Friedrich Ladich (PLoS ONE 2012)
DOI: http://dx.plos.org/10.1371/journal.pone.0042292

Contacts:
Dr. Friedrich Ladich
Department of Behavioural Biology
1090 Vienna, Althanstraße 14 (UZA I)
T +43-1-4277-542 27
friedrich.ladich@univie.ac.at

Dr. Tanja Schulz-Mirbach
Department of Behavioural Biology
1090 Vienna, Althanstraße 14 (UZA I)
T +43-1-4277-544 30
tanja.schulz-mirbach@univie.ac.at


Wissenschaftlicher kontakt

Ao. Univ.-Prof. Dr. Friedrich Ladich
Department für Verhaltensbiologie
Universität Wien
1090 Wien, Althanstraße 14 (UZA I)
T +43-1-4277-542 27

Rückfragehinweis

Mag. Petra Schiefer
Pressebüro der Universität Wien
Forschung und Lehre
Universität Wien
1010 Wien, Universitätsring 1
T +43-1-4277-175 33