Add to ORKGThis study examines the way that big brown bats change their echolocation calls when flying with other bats compared to calls when flying alone. We found that in the laboratory setting, they appeared to consistently change only the amplitude of their calls, getting louder when flying with another bat.Ohio State University Honors Progra
Active-sensing systems such as echolocation provide animals with distinct advantages in dark environ...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...
This study examines the way that big brown bats change their echolocation calls when flying with oth...
Echolocating bats are exposed not only to the echoes of their own calls, but often the signals of co...
Echolocating bats emit ultrasonic sonar pulses and listen to returning echoes, which are reflected f...
Bat echolocation studies date back to 1793 when Lazaro Spallanzani investigated the effects of blind...
We used playback presentations to free-flying bats of 3 species to assess the influence of echolocat...
<div><p></p><p>Auditory feedback from the animal's own voice is essential during bat echolocation: t...
Auditory feedback from the animal's own voice is essential during bat echolocation: to optimize sign...
We used playback presentations to free-flying bats of 3 species to assess the influence of echolocat...
Each animal population has its own acoustic signature which facilitates identification, communicatio...
Auditory feedback from the animal's own voice is essential during bat echolocation: to optimize sign...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Active-sensing systems such as echolocation provide animals with distinct advantages in dark environ...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...
This study examines the way that big brown bats change their echolocation calls when flying with oth...
Echolocating bats are exposed not only to the echoes of their own calls, but often the signals of co...
Echolocating bats emit ultrasonic sonar pulses and listen to returning echoes, which are reflected f...
Bat echolocation studies date back to 1793 when Lazaro Spallanzani investigated the effects of blind...
We used playback presentations to free-flying bats of 3 species to assess the influence of echolocat...
<div><p></p><p>Auditory feedback from the animal's own voice is essential during bat echolocation: t...
Auditory feedback from the animal's own voice is essential during bat echolocation: to optimize sign...
We used playback presentations to free-flying bats of 3 species to assess the influence of echolocat...
Each animal population has its own acoustic signature which facilitates identification, communicatio...
Auditory feedback from the animal's own voice is essential during bat echolocation: to optimize sign...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Active-sensing systems such as echolocation provide animals with distinct advantages in dark environ...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...
Using a broad‐band recording system (150 Hz‐100 kHz) the echolocation calls of the lesser short‐tail...