Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810

Research output: Contribution to journalArticlepeer-review

Standard Standard

Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810. / Holland, Richard; Waters, D.A.; Rayner, J.M.V.
In: Journal of Experimental Biology, Vol. 207, No. 25, 12.2004, p. 4361-4369.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Holland, R, Waters, DA & Rayner, JMV 2004, 'Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810', Journal of Experimental Biology, vol. 207, no. 25, pp. 4361-4369. https://doi.org/10.1242/jeb.01288

APA

Holland, R., Waters, D. A., & Rayner, J. M. V. (2004). Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810. Journal of Experimental Biology, 207(25), 4361-4369. https://doi.org/10.1242/jeb.01288

CBE

MLA

VancouverVancouver

Holland R, Waters DA, Rayner JMV. Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810. Journal of Experimental Biology. 2004 Dec;207(25):4361-4369. doi: 10.1242/jeb.01288

Author

Holland, Richard ; Waters, D.A. ; Rayner, J.M.V. / Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810. In: Journal of Experimental Biology. 2004 ; Vol. 207, No. 25. pp. 4361-4369.

RIS

TY - JOUR

T1 - Echolocation signal structure in the Megachiropteran bat Rousettus aegyptiacus Geoffroy 1810

AU - Holland, Richard

AU - Waters, D.A.

AU - Rayner, J.M.V.

PY - 2004/12

Y1 - 2004/12

N2 - Rousettus aegyptiacus Geoffroy 1810 is a member of the only genus of Megachiropteran bats to use vocal echolocation, but the structure of its brief, click-like signal is poorly described. Although thought to have a simple echolocation system compared to that of Microchiroptera, R. aegyptiacus is capable of good obstacle avoidance using its impulse sonar. The energy content of the signal was at least an order of magnitude smaller than in Microchiropteran bats and dolphins (approximately 4 X 10(-8) J m(-2)). Measurement of the duration, amplitude and peak frequency demonstrate that the signals of this animal are broadly similar in structure and duration to those of dolphins. Gabor functions were used to model signals and to estimate signal parameters, and the quality of the Gabor function fit to the early part of the signal demonstrates that the echolocation signals of R. aegyptiacus match the minimum spectral spread for their duration and amplitude and are thus well matched to its best hearing sensitivity. However, the low energy content of the signals and short duration should make returning echoes difficult to detect. The performance of R. aegyptincus in obstacle avoidance experiments using echolocation therefore remains something of a conundrum.

AB - Rousettus aegyptiacus Geoffroy 1810 is a member of the only genus of Megachiropteran bats to use vocal echolocation, but the structure of its brief, click-like signal is poorly described. Although thought to have a simple echolocation system compared to that of Microchiroptera, R. aegyptiacus is capable of good obstacle avoidance using its impulse sonar. The energy content of the signal was at least an order of magnitude smaller than in Microchiropteran bats and dolphins (approximately 4 X 10(-8) J m(-2)). Measurement of the duration, amplitude and peak frequency demonstrate that the signals of this animal are broadly similar in structure and duration to those of dolphins. Gabor functions were used to model signals and to estimate signal parameters, and the quality of the Gabor function fit to the early part of the signal demonstrates that the echolocation signals of R. aegyptiacus match the minimum spectral spread for their duration and amplitude and are thus well matched to its best hearing sensitivity. However, the low energy content of the signals and short duration should make returning echoes difficult to detect. The performance of R. aegyptincus in obstacle avoidance experiments using echolocation therefore remains something of a conundrum.

U2 - 10.1242/jeb.01288

DO - 10.1242/jeb.01288

M3 - Article

VL - 207

SP - 4361

EP - 4369

JO - Journal of Experimental Biology

JF - Journal of Experimental Biology

SN - 0022-0949

IS - 25

ER -