Ticking of the clockwork cricket: the role of the escapement mechanism-Reference-Cited by-同舟云学术

Ticking of the clockwork cricket: the role of the escapement mechanism

Published:2002-03-01 Issue:5 Volume:205 Page:613-625
ISSN:1477-9145
Container-title:Journal of Experimental Biology
language:en
Short-container-title:

Author:

Bennet-Clark H. C.¹,Bailey Winston J.²

Affiliation:

1. Department of Zoology, Oxford University, South Parks Road, Oxford OX1 3PS, UK and

2. Department of Zoology, University of Western Australia, Nedlands, WA 6907, Australia

Abstract

SUMMARYThe ‘clockwork cricket’ model for cricket sound production suggests that the catch-and-release of the file of one forewing by the plectrum on the opposite wing act as an ‘escapement’ to provide the phasic impulses that initiate and sustain the vibration of the resonant regions of the wings from which the sounds are produced. The action of the escapement produces the familiar ticking sound of clocks.The higher-frequency components of the songs of twelve species of cricket were analysed after removing the dominant low-frequency components and amplifying the remaining higher-frequency components. In normal song pulses of all species, the higher-frequency components showed a close phase-locking to the waveform of the dominant frequency, but the amplitude of the higher-frequency components did not correlate with that at the dominant frequency.Anomalous pulses occurred spontaneously in the songs of several species: multimodal, interrupted or curtailed pulses are described. In all of these, the anomalous pulse envelope was associated with changes in the amplitude and/or instantaneous frequency of the higher-frequency components of the sound.A model of the escapement suggests that the frequency of the residual components of the song depends on the symmetry of action of the plectrum on the teeth of the file.

Publisher

The Company of Biologists

Subject

Insect Science,Molecular Biology,Animal Science and Zoology,Aquatic Science,Physiology,Ecology, Evolution, Behavior and Systematics

Link

http://journals.biologists.com/jeb/article-pdf/205/5/613/1243018/613.pdf

Reference22 articles.

1. Bailey, W. J., Bennet-Clark, H. C. and Fletcher, N. H. (2001). Acoustics of a small Australian burrowing cricket: the control of low-frequency pure-tone songs. J. Exp. Biol.204, 2827–2841.

2. Bailey, W. J. and Broughton, W. B. (1970). The mechanics of stridulation in bush crickets (Tettigonioidea, Orthoptera). II. Conditions for resonance in the tegminal generator. J. Exp. Biol.52, 507–517.

3. Bennet-Clark, H. C. (1970). The mechanism and efficiency of sound production in mole crickets. J. Exp. Biol.52, 619–652.

4. Bennet-Clark, H. C. (1987). The tuned singing burrow of mole crickets. J. Exp. Biol.128, 383–409.

5. Bennet-Clark, H. C. (1989). Songs and the physics of sound production. In Cricket Behavior and Neurobiology (ed. F. Huber, T. E. Moore and W. Loher), pp. 227–261. Ithaca, London: Cornell University Press.

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