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Physiological characteristics of auditory receptors inHemideina crassidens (Blanchard) (Ensifera: Stenopelmatidae) (1980)

Hill, K. G.

Springer

Journal of comparative physiology 141 (1980), S. 39-46

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Physiological characteristics of single, primary auditory units have been examined in a member of the Orthopteran family Stenopelmatidae. 2. Individual units are tuned more sharply than the whole auditory organ. Units have peaks of sensitivity within the bandwidth described by the summed threshold curve of the auditory organ. 3. Some units display one or two additional peaks of sensitivity at higher frequencies, which may not be harmonically related to the major peak. 4. Units respond to tones with a tonic discharge in which an initial, partial adaptation may occur. Stimulus intensity is coded in terms of spike rate and latency and units display typical, sigmoidal input-output curves. High intensity suppression of the response is sometimes observed. 5. Repetition rates of brief sound pulses that units can follow are limited by mechanical and/or physiological aspects of the sensory process. Minimum latency of response is of the order of 13 ms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00611876

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Physiological and biophysical properties of the auditory system of the New Zealand wetaHemideina crassidens (Blanchard, 1851) (Ensifera: Stenopelmatidae) (1980)

Field, L. H. ; Hill, K. G. ; Ball, E. E.

Springer

Journal of comparative physiology 141 (1980), S. 31-37

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Investigation of the physiological and biophysical properties of the auditory system of the New Zealand weta,Hemideina crassidens has revealed the following: 1. The frequency/threshold curve for the massed response of primary auditory fibres in the tympanal nerve has a peak of sensitivity at 2.0–2.5 kHz. Absolute threshold is 20–35 dB SPL in individual preparations and the roll-off is about 15 dB/octave below the optimum and about 27 dB/octave above the optimum frequency (Fig. 1). 2. Occlusion of either the anterior or posterior tympanum causes a small loss of sensitivity (〈8dB) only for frequencies above the hearing optimum. Occlusion of both auditory tympana reduces the sensitivity of the ear by 20–25 dB from 0.63 kHz to 5.0 kHz and by 7–15 dB up to 10 kHz (Fig. 2). 3. Blocking the leg tracheae in the femur causes no change in the sensitivity of the ear to sounds of 0.63–10 kHz (Fig. 3). Shielding the tympanic membranes from external sound, with the tracheal system intact, reduces the sensitivity of the ear by about 40 dB at the optimum frequency and by more than 10 dB for other frequencies in the range 0.63–10 kHz (Fig. 4). 4. Reducing the volume of the tibial air space behind the tympana by approximately 60% increases auditory thresholds for frequencies at and below the hearing optimum, whereas thresholds for higher frequencies are unchanged (Fig. 5). 5. For sound frequencies from 0.63 kHz to 8.0 kHz, the intact auditory system inH. crassidens has no directional sensitivity (Fig. 6). 6. Stridulatory sounds produced byH. crassidens are broad-band, having a peak in the power spectrum near 2.0 kHz and a roll-off of about 15 dB/octave towards higher frequencies (Fig. 7). 7. The weta auditory system functions as a one-input pressure receiver; its characteristics are compared with the auditory systems of Gryllidae and Tettigoniidae.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00611875

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Neural responses to free-field auditory stimulation in the superior colliculus of the wallaby (Macropus eugenii) (1995)

Withington, D. J. ; Mark, R. F. ; Thornton, S. K. ; [et al.]

Springer

Experimental brain research 105 (1995), S. 233-240

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ISSN: 1432-1106

Keywords: Auditory map ; Superior colliculus ; Auditory space ; Sound localization ; Marsupial

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Auditory responses to free-field broad band stimulation from different directions were recorded from clusters of neurones in the superior colliculus (SC) of the anaesthetized tammar wallaby. The auditory responses were found approximately 2 mm beneath the first recording of visually evoked responses in the superficial layers, the vast majority being solely auditory in nature; only one recording responded to both auditory and visual stimulation. Responses to suprathreshold intensities displayed sharp spatial tuning to sound in the contralateral hemifield. Those from the rostral pole of the SC disclosed a preference for auditory stimuli in the azimuthal anterior field, whereas those in the caudal SC preferentially responded to sounds in the posterior field. A continuum of directionally tuned responses was seen along the rostrocaudal axis of the SC so that the entire azimuthal contralateral auditory hemifield was represented in the SC. Furthermore, tight spatial alignment was evident between the best position of the visual responses in the superficial layers in azimuth and the peak angle of the auditory response in the deeper layers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240959

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