.... Published by The Company of Biologists Ltd 2014 Bioacoustics Cephalopod Hearing Noise Loudness Invertebrate Ear Statocyst Lateral line Sound in aquatic environments is a widely available cue that many marine vertebrates use during vital biological activities such as foraging, predator...

... for correspondence ([email protected]) 14 1 2010 © 2010. 2010 audition best sensitivity characteristic frequency ear frequency selectivity hearing otolithic organ saccule tuning Mammals have separate organs such as the cochlea and otolithic organs to serve auditory and vestibular...

...Michael E. Smith; Allison B. Coffin; Diane L. Miller; Arthur N. Popper SUMMARY Fishes can regenerate lateral line and inner ear sensory hair cells that have been lost following exposure to ototoxic antibiotics. However,regenerative capabilities following noise exposure have not been explored...

... courtship dynamic range compression ear insect antenna hearing song Johnston's organ mechanosensation non-linearity Drosophila melanogaster The antennae of Drosophila melanogaster are known to serve at least two functions. Apart from forming olfactory organs (for a review, see Carlson...

...Blinda E. Mcclelland; Walter Wilczynski; Michael J. Ryan ABSTRACT We investigated the relationships among spectral and temporal advertisement-call characteristics and the sizes of the laryngeal and ear components thought to underlie the generation and reception of species-specific vocalizations...

... on source level–distance functions. These results indicate that sound pressure detection by the ear is important for dipole detection by the goldfish, but that incompressible flow detection by the lateral line is more important for the mottled sculpin. They also indicate that fish such as the goldfish...