Vocal Timing in the Bat

Jarvis, Jenna N

03 October 2013

Bats are social organisms that live in large colonies. However, reliance upon echolocation in order to hunt and navigate, means that bats also face pressing acoustic challenges due to overlap with surrounding noise. Bats also possess fine control over the properties of their echolocation pulses. This study's goal was to determine how bats are able to effectively function in large groups despite the interfering noise generated by conspecifics. Mexican free-tailed bats (Tadarida brasiliensis) were exposed to both artificially generated interfering noises and noise generated by conspecifics, and the temporal characteristics of their resulting echolocation calls were analyzed. In addition, bats were given injections of dopaminergic and serotonergic drugs, in an effort to determine which monoamine(s) were capable of altering vocal motor timing and to determine which regions of the brain play a role in regulating the timing of echolocation. I hypothesized that bats would alter the timing of emission of their own echolocation pulses in response to noise, and that drugs affecting the 5HT2A receptor would shift the timing of emission of echolocation pulses. The first part of this dissertation describes a novel temporal alteration behavior that occurs in response to artificially generated intermittent noise, and is characterized by a period of pulse suppression followed by a gradual return to normal call rates. Bats alter the timing of emission of their echolocation pulses to avoid overlap with noise and call within silent periods. The second part of this study investigated whether dopamine or serotonin, or both, could alter the timing of this vocal behavior. The results of this study were inconclusive, although I found some evidence that 5HT2A agonists can produce faster responses. Finally, I show that echolocating bats suppress pulse emission in nearby conspecifics. The resulting decrease in call rate leads to an overall increase in information throughput. This study also demonstrates that bats respond to continuous noise by increasing their call rate, and that the switch between the responses to intermittent noise and continuous noise occurs at a duty cycle of 50% or higher. Overall, this dissertation establishes that bats alter the timing of emission of their echolocation calls in response to noise, and that these mechanisms may be regulated by serotoninergic mechanisms.

Echolocation

Timing

Sonar

Bats

Vocalizations

The use of echolocation as an aid in mobility for blind persons

Boehm, Richard George

January 1985

This investigation studied the degree of spatial data that could be perceived by subjects, through the use of echolocation, who were led through an indoor environment and verbally reported their spatial perceptions. The experimental group was composed of 5 totally blind and severely visually impaired subjects and the control group had 11 sighted subjects who were under blindfold. Each subject was led through the space, using the sighted guide technique, and the subject would click a clicker and attempt to perceive spatial data through echolocation. The space had 25 preselected reference points in it, and the experimental subjects averaged 20.2 correct responses and the control subjects 7.727 for an overall mean of 11.3125. / Education, Faculty of / Educational and Counselling Psychology, and Special Education (ECPS), Department of / Graduate

Echolocation (Physiology)

Blind - Orientation and mobility

Bat Homing

Perkins, John Mark

31 March 1977

A model proposed by Wilson & Findley (1972) to test for randomness in bat homing was applied to results of homing studies on big brown bats (Eptesticus fuscus) and, when possible, to published studies on homing by other bats. Most applications of the model suggest randomness in bat homing. Ecological notes concerning parturition, parasites, populations, emergence time, flight behavior and morphology of the E. Fuescus colony are reported.

Echolocation (Physiology)

Bats

Animal Sciences

Signal design and dynamics in FM bats : implications for echo processing

Boonman, Arjan Maarten

January 2001

No description available.

590

Temporal and frequency processing in bat inferior colliculus /

Lu, Yong,

January 1999

Thesis (Ph. D.)--University of Missouri-Columbia, 1999. / Typescript. Vita. Includes bibliographical references (leaves 206-223). Also available on the Internet.

Responses of cells of the dorsal nucleus of the lateral lemmniscus to species-specific and other complex sounds

Bauer, Eric Edmond.

January 2001

Thesis (Ph. D.)--University of Texas at Austin, 2001. / Vita. Includes bibliographical references. Available also from UMI/Dissertation Abstracts International.

Temporal and frequency processing in bat inferior colliculus

Lu, Yong,

January 1999

Thesis (Ph. D.)--University of Missouri-Columbia, 1999. / Typescript. Vita. Includes bibliographical references (leaves 206-223). Also available on the Internet.

Transmitting beam patterns of the Atlantic bottlenose dolphin (Tursiops Trucatus) : investigations in the existence and use of high frequency componenets found in echolocation signals /

Lemerande, Tobias J.

January 2002

Thesis (M.S.)--Naval Postgraduate School, 2002. / Thesis advisor(s): Thomas G. Muir, Steven R. Baker, Samuel H. Ridgway. Includes bibliographical references (p. 129-130). Also available online.

Responses of cells of the dorsal nucleus of the lateral lemniscus to species-specific and other complex sounds

Bauer, Eric Edmond

15 March 2011

Not available / text

Auditory pathways

Echolocation (Physiology)

Tadarida brasiliensis

Object-centered representations in echolocating dolphins evidence from acoustic analyses of object echoes and a human listening study /

DeLong, Caroline M.

January 2003

Thesis (Ph. D.)--University of Hawaii at Manoa, 2003. / Includes bibliographical references (leaves 182-190).