Publications + Congress Contributions
Original Papers
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Maiditsch IP; Ladich F; Schulz-Mirbach T; Heß M; Schlepütz C
(2022)
Fish hearing structures in 4D: A standing wave tube-like setup designed for high resolution tomography of sound-induced motion patterns.
Journal of Experimental Biology 225, jeb243614. (doi:10.1242/jeb.243614) -
Schulz-Mirbach T; Ladich F; Mittone A; Olbinado M; Bravin A; Maiditsch IP; Melzer RR; Krysl P; Heß M
(2020)
Auditory chain reaction: Effects of sound pressure and particle motion on auditory structures in fishes.
PLOS ONE 15(3): e0230578 -
Schulz-Mierbach T; Ladich F; Lychakow DV; Plath M; Heß M
(2019)
Enigmatic ear stones: What do we know about the functional role and evolution of fish otoliths?
Biological Reviews 94: 457-482 (doi: 10.1111/brv.12463) -
Schulz-Mirbach T; Plath M; Ladich F; Heß M
(2019)
Why did solid otoliths evolve in the ears of modern bony fishes?
Proceedings of the 23rd International Congress on Acoustics: 3387-3394 -
Schulz-Mirbach T; Ladich F; Lychakov DV; Plath M; Heß M
(2019)
Enigmatic ear stones: What do we know about the functional role and evolution of fish otoliths?
Biological Reviews 94: 457-482 (doi: 10.1111/brv.12463) -
Schulz-Mierbach T; Olbinado M; Rack A; Mittone A; Bravin A; Melzer R; Ladich F; Heß M
(2018)
In-situ visualization of sound-induced otolith motion using hard X-ray phase contrast imaging.
Scientific Reports 8: 3121 (12 pp) doi: 10.1038/s41598-018-21367-0
Congress Contributions and Posters
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Schulz-Mierbach T; Schlepütz C; Heß M; Gstöhl SJ; Maiditsch IP; Ladich F
(2021)
The Weberian apparatus in action - How do the auditory structures of otophysan fishes interact during sound exposure?
92nd Annual meeting of the Paleontological Society. Berichte der Geologischen Bundesanstalt 142: 83 (Viena, 2021) -
Schulz-Mierbach T; Mittone A; Olbinado M; Schlepütz C; Ladich F; Maiditsch IP; Krysl P; Melzer R; Heß M
(2019)
How do fish otliths and ancillary hearing structures move in a sound field? – Insights from synchrotron radiation-based imaging.
Palaeo & Life 2019: 137 -
Schulz-Mierbach T; Olbinado M; Mittone A; Schillinger B; Ladich F; Melzer R; Heß M
(2018)
The rolling stones live: Hard X-ray phase contrast and neutron imaging allow for the in-situ visualization of otolith motion and associated structures in the fish ear.
German conference for research with synchrotron radiation, neutrons and ion beams at large facilities, SNI report of abstracts: 227 -
Schulz-Mierbach T; Heß M
(2018)
Grundlagen der Schallübertragung im Fischohr.
97. Jahresbericht der Münchener Universitätsgesellschaft: 10-13 -
Schulz-Mirbach T; Mittone A; Bravin A; Rack A; Ladich F; Heß M
(2017)
First attempt to visualize otolith motion in situ using synchrotron radiation imaging techniques.
J Acoust Soc Am 141: 3861 -
Schulz-Mirbach T; Ladich F; Plath M; Heß M
(2015)
Does improved hearing result in altered inner ear morphology?
15. European Congress of Ichthyology, Porto. Frontiers in Marine Sciences, Conference Abstracts (doi: 10.3389/conf.fmars.2015.03.00020) -
Schulz-Mirbach T; Ladich F; Plath M; Heß M
(2015)
The role of otolith size in hearing – insights from cichlid fishes
15. European Congress of Ichthyology, Porto. Frontiers in Marine Sciences, Conference Abstracts (doi: 10.3389/conf.fmars.2015.03.00034) -
Schulz-Mirbach T; Ladich F; Plath M; Metscher BD; Hess M
(2014)
What do we know about otolith function in hearing? – insights from cichlids and lifebearing fish.
5th International otolith symposium, abstract book: 93-94 (Poster) -
Schulz-Mirbach T; Heß M; Metscher B D; Ladich F
(2013)
Do swim bladder specializations in chichlids correlate with modified inner ear morphology?
Abstracts of “50 Years of Underwater Bioacoustics” – A symposium honoring the outstanding careers of Arthur N Popper and Richard R Fay @ Mote Marine Laboratory