Add to ORKGThe teleostean swimbladder has a variety of functions. Though it is best known as a hydrostatic organ, maintaining the fish at neutral buoyancy, it may also serve in respiration, in the detection of static pressure changes, in sound-production and in hearing
Previous determinations of the swimbladder contribution to the fish backscattering cross section hav...
The New Zealand bigeye, Pempheris adspersa, is a nocturnal planktivore and has recently been found t...
Physiological work on fish sound production may require exposure of the swimbladder to air, which wi...
Fish flesh has nearly the same acoustic properties as sea water. In a sound field a fish will thus b...
The teleost swim bladder is a gas-filled chamber located in the abdominal cavity just below the vert...
The hydrostatic function of the swimbladder in herring is experimentally investigated through in sit...
The function of the swimbladder in fish hearing is well established for the ostario-physine species,...
Many teleosts are able to emit sounds with their swimbladder. This chapter reviews the various soni...
The swimbladder of Atlantic and Pacific herring has a pneumatic duct arising from the stomach caecum...
The resonance frequency of the swimbladder was measured for intact living charr at different depths....
Data are presented on the swimbladder form and acoustic target strengths of each of 15 surface-adapt...
1. Observations of behaviour and changes in buoyancy of Umbra limi, a facultative air-breathing fish...
The swimbladder volume and air volume within the breathing chambers of the anabantoid fish Colisa la...
Cushing & Richardson (1955) found that the echo returned by artificial swim-bladders hung alongs...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Previous determinations of the swimbladder contribution to the fish backscattering cross section hav...
The New Zealand bigeye, Pempheris adspersa, is a nocturnal planktivore and has recently been found t...
Physiological work on fish sound production may require exposure of the swimbladder to air, which wi...
Fish flesh has nearly the same acoustic properties as sea water. In a sound field a fish will thus b...
The teleost swim bladder is a gas-filled chamber located in the abdominal cavity just below the vert...
The hydrostatic function of the swimbladder in herring is experimentally investigated through in sit...
The function of the swimbladder in fish hearing is well established for the ostario-physine species,...
Many teleosts are able to emit sounds with their swimbladder. This chapter reviews the various soni...
The swimbladder of Atlantic and Pacific herring has a pneumatic duct arising from the stomach caecum...
The resonance frequency of the swimbladder was measured for intact living charr at different depths....
Data are presented on the swimbladder form and acoustic target strengths of each of 15 surface-adapt...
1. Observations of behaviour and changes in buoyancy of Umbra limi, a facultative air-breathing fish...
The swimbladder volume and air volume within the breathing chambers of the anabantoid fish Colisa la...
Cushing & Richardson (1955) found that the echo returned by artificial swim-bladders hung alongs...
Fish varies greatly in their sensitivity to underwater acoustic signals. Over the past century, scie...
Previous determinations of the swimbladder contribution to the fish backscattering cross section hav...
The New Zealand bigeye, Pempheris adspersa, is a nocturnal planktivore and has recently been found t...
Physiological work on fish sound production may require exposure of the swimbladder to air, which wi...