Add to ORKGMicrophonic potentials were recorded from the ears of the goldfish during acoustic stimulation in a situation where sound pressure and particle dis-placement could be varied. Microphonic potentials from fishes with the swim bladder intact were proportional to sound pressure. After removal of the swim bladder, sound pressure sensitivity declined by 20-35 dB and the response was generated in proportion to particle displacement. The ear's sensitivity to direct vibration of the head increases at between — 3 and — 6 dB/octave between 70 and 1500 Hz and is not affected by the removal of the swim bladder. It is concluded that the peripheral auditory system of the goldfish may function as a pressure detector or as a displacement detector, depe...
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Examination of fish responses to sound stimuli has a rich and varied history but it is not always cl...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Fishes show great variability in hearing sensitivity, bandwidth, and the appropriate stimulus compon...
Otophysine fishes are characterized by Weberian ossicles connecting the swimbladder to the ear acous...
The auditory evoked potential technique has been used for the past 30years to evaluate the hearing a...
In the underwater environment, sound propagates both as a pressure wave and as particle displacement...
Sciaenid fishes are important models of fish sound production, but investigations into their auditor...
Most studies on fish hearing have dealt with responses to pure tones, and only few investigations ha...
Despite the diversity in fish auditory structures, it remains elusive how otolith morphology and swi...
The teleost swim bladder is a gas-filled chamber located in the abdominal cavity just below the vert...
Otophysine fishes have a series of bones, the Weberian ossicles, which acoustically couple the swimb...
The underwater acoustic environment is inherently loud as a result of ambient sounds and an increasi...
The ability of a fish to interpret acoustic information in its environment is crucial for its surviv...
The use of the underwater sound stimulus is highly necessary to control fish in the managed fishery....
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Examination of fish responses to sound stimuli has a rich and varied history but it is not always cl...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Fishes show great variability in hearing sensitivity, bandwidth, and the appropriate stimulus compon...
Otophysine fishes are characterized by Weberian ossicles connecting the swimbladder to the ear acous...
The auditory evoked potential technique has been used for the past 30years to evaluate the hearing a...
In the underwater environment, sound propagates both as a pressure wave and as particle displacement...
Sciaenid fishes are important models of fish sound production, but investigations into their auditor...
Most studies on fish hearing have dealt with responses to pure tones, and only few investigations ha...
Despite the diversity in fish auditory structures, it remains elusive how otolith morphology and swi...
The teleost swim bladder is a gas-filled chamber located in the abdominal cavity just below the vert...
Otophysine fishes have a series of bones, the Weberian ossicles, which acoustically couple the swimb...
The underwater acoustic environment is inherently loud as a result of ambient sounds and an increasi...
The ability of a fish to interpret acoustic information in its environment is crucial for its surviv...
The use of the underwater sound stimulus is highly necessary to control fish in the managed fishery....
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Examination of fish responses to sound stimuli has a rich and varied history but it is not always cl...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...