Add to ORKGAnimals that thrive both on land and underwater are faced with the task of interpreting stimuli in different media. This becomes a challenge to the sensory receptors in that stimuli (e.g., sound, motion) may convey the same type of information but are transmitted with different physical characteristics. We used auditory brainstem responses to examine hearing abilities of a species that makes full use of these two environments, the American alligator (Alligator mississipiensis). In water, alligators responded to tones from 100 Hz to 2,000 Hz, with peak sensitivity at 800 Hz. In air, they responded to tones from 100 Hz to 8,000 Hz, with peak sensitivity around 1,000 Hz. We also examined the contribution to hearing of an air bubble that become...
For sound stimuli to be perceived by the brain, they have to transmitted across several structures i...
Methods for collecting behavioral audiograms are often time consuming and require trained, captive s...
Sea turtles spend much of their life in aquatic environments, but critical portions of their life cy...
This paper reports the first systematic study of acoustic signals during social interactions of the ...
Stringency in the identification of conspecific call properties is essential among sympatric species...
Turtles, like other amphibious animals, face a trade-off between terrestrial and aquatic hearing.We ...
Thin eardrums and air filled middle ears are crucial for airborne hearing in vertebrates because the...
Most frogs call to attract mates. In general, the tuning of the brain and eardrum of the frog match ...
Vocalization is rare among non-avian reptiles, with the exception of the crocodilians, the sister t...
A standing wave tube apparatus was used to determine the biophysical basis of underwater hearing sen...
Sound does not transmit well across the interface of two media. Therefore, most organisms communicat...
Florida manatees (Trichechus manatus latirostris) live in the shallow, often turbid inland and coast...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Early tetrapods faced an auditory challenge from the impedance mismatch between air and tissue in th...
The underwater acoustic environment is inherently loud as a result of ambient sounds and an increasi...
For sound stimuli to be perceived by the brain, they have to transmitted across several structures i...
Methods for collecting behavioral audiograms are often time consuming and require trained, captive s...
Sea turtles spend much of their life in aquatic environments, but critical portions of their life cy...
This paper reports the first systematic study of acoustic signals during social interactions of the ...
Stringency in the identification of conspecific call properties is essential among sympatric species...
Turtles, like other amphibious animals, face a trade-off between terrestrial and aquatic hearing.We ...
Thin eardrums and air filled middle ears are crucial for airborne hearing in vertebrates because the...
Most frogs call to attract mates. In general, the tuning of the brain and eardrum of the frog match ...
Vocalization is rare among non-avian reptiles, with the exception of the crocodilians, the sister t...
A standing wave tube apparatus was used to determine the biophysical basis of underwater hearing sen...
Sound does not transmit well across the interface of two media. Therefore, most organisms communicat...
Florida manatees (Trichechus manatus latirostris) live in the shallow, often turbid inland and coast...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Early tetrapods faced an auditory challenge from the impedance mismatch between air and tissue in th...
The underwater acoustic environment is inherently loud as a result of ambient sounds and an increasi...
For sound stimuli to be perceived by the brain, they have to transmitted across several structures i...
Methods for collecting behavioral audiograms are often time consuming and require trained, captive s...
Sea turtles spend much of their life in aquatic environments, but critical portions of their life cy...