Add to ORKGThere is much evidence supporting the idea that pelagic larvae of coral reef fishes are active participants in their dispersal and return to a reef, however, the mechanisms used to navigate are still uncertain. It has been proposed that sensory cues, such as hearing, play a role. Sound is a potentially important cue for organisms in marine environments, especially in noisy environments like coral reefs. Sensory organs, including otolithic organs, of most coral reef fish form within the first few days of life. The auditory brainstem response (ABR) technique was used to measure hearing on a wide size range of sergeant majors (Abudefduf saxatilis). Complete audiograms were measured for 32 fish ranging in size from 11-121 mm. Significant effect...
International audienceThe swimming behaviour of coral-reef fish larvae from 20 species of 10 differe...
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Fishes show great variability in hearing sensitivity, bandwidth, and the appropriate stimulus compon...
There is much evidence supporting the idea that pelagic larvae of coral reef fishes are active parti...
Recent evidence suggests that pelagic larvae of coral reef fishes are active in their dispersal and ...
The larval phase of most species of coral reef fishes is spent away from the reef in the pelagic env...
Abstract The larval phase of most species of coral reef fishes is spent away from the reef in the pe...
In most demersal marine teleost fishes, larvae develop in the pelagic environment, but must locate a...
The propagules of most species of reef fish are advected from the reef, necessitating a return to re...
Several recent studies have shown that some larval fishes will approach underwater speakers that bro...
The marine environment is filled with a wide range of sounds, some resulting from natural sources su...
Some settlement-stage larval fish appear to be attracted to reef sound and may, therefore, use acous...
Coral reef fishes live in noisy environments that may challenge their capacity for acoustic communic...
Most coral reef fish adults have limited home ranges, but their pelagic larvae have the potential to...
International audienceThe swimming behaviour of coral-reef fish larvae from 20 species of 10 differe...
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Fishes show great variability in hearing sensitivity, bandwidth, and the appropriate stimulus compon...
There is much evidence supporting the idea that pelagic larvae of coral reef fishes are active parti...
Recent evidence suggests that pelagic larvae of coral reef fishes are active in their dispersal and ...
The larval phase of most species of coral reef fishes is spent away from the reef in the pelagic env...
Abstract The larval phase of most species of coral reef fishes is spent away from the reef in the pe...
In most demersal marine teleost fishes, larvae develop in the pelagic environment, but must locate a...
The propagules of most species of reef fish are advected from the reef, necessitating a return to re...
Several recent studies have shown that some larval fishes will approach underwater speakers that bro...
The marine environment is filled with a wide range of sounds, some resulting from natural sources su...
Some settlement-stage larval fish appear to be attracted to reef sound and may, therefore, use acous...
Coral reef fishes live in noisy environments that may challenge their capacity for acoustic communic...
Most coral reef fish adults have limited home ranges, but their pelagic larvae have the potential to...
International audienceThe swimming behaviour of coral-reef fish larvae from 20 species of 10 differe...
As concerns about the effects of underwater anthropogenic noises on the auditory function of organis...
Fishes show great variability in hearing sensitivity, bandwidth, and the appropriate stimulus compon...