Related Content
Search Google Scholar for:
|
|
Science 19 January 1979:
Vol. 203. no. 4377, pp. 270 - 274
DOI: 10.1126/science.760193
|
|
Articles
Science, Vol 203, Issue 4377, 270-274
Copyright © 1979 by American Association for the Advancement of Science
Harmonic-sensitive neurons in the auditory cortex of the mustache bat
N Suga,
WE O'Neill,
and
T Manabe
Human speech and animal sounds contain phonemes with prominent and meaningful harmonics. The biosonar signals of the mustache bat also contain up to four harmonics, and each consists of a long constant-frequency component followed by a short frequency-modulated component. Neurons have been found in a large cluster within auditory cortex of this bat whose responses are facilitated by combinations of two or more harmonically related tones. Moreover, the best frequencies for excitation of these neurons are closely associated with the constant-frequency components of the biosonar signals. The properties of these neurons make them well suited for identifying the signals produced by other echolocating mustache bats. They also show how meaningful components of sound are assembled by neural circuits in the central nervous system and suggest a method by which sounds with important harmonics (or formants) may be detected and recognized by the brain in other species, including humans.
THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
- Temporal Features of Spectral Integration in the Inferior Colliculus: Effects of Stimulus Duration and Rise Time.
- D. Gans, K. Sheykholeslami, D. C. Peterson, and J. Wenstrup (2009)
J Neurophysiol
102, 167-180
| Abstract »
| Full Text »
| PDF »
- Learning and generalization on asynchrony and order tasks at sound offset: Implications for underlying neural circuitry.
- J. A. Mossbridge, B. N. Scissors, and B. A. Wright (2008)
Learn. Mem.
15, 13-20
| Abstract »
| Full Text »
| PDF »
- Perceptual-Learning Evidence for Separate Processing of Asynchrony and Order Tasks.
- J. A. Mossbridge, M. B. Fitzgerald, E. S. O'Connor, and B. A. Wright (2006)
J. Neurosci.
26, 12708-12716
| Abstract »
| Full Text »
| PDF »
- Virtual Vocalization Stimuli for Investigating Neural Representations of Species-Specific Vocalizations.
- C. DiMattina and X. Wang (2006)
J Neurophysiol
95, 1244-1262
| Abstract »
| Full Text »
| PDF »
- Roles of Inhibition in Creating Complex Auditory Responses in the Inferior Colliculus: Facilitated Combination-Sensitive Neurons.
- K. Nataraj and J. J. Wenstrup (2005)
J Neurophysiol
93, 3294-3312
| Abstract »
| Full Text »
| PDF »
- Local Field Potentials and Spiking Activity in the Primary Auditory Cortex in Response to Social Calls.
- A. V. Medvedev and J. S. Kanwal (2004)
J Neurophysiol
92, 52-65
| Abstract »
| Full Text »
| PDF »
- Reorganization of the auditory cortex specialized for echo-delay processing in the mustached bat.
- Z. Xiao and N. Suga (2004)
PNAS
101, 1769-1774
| Abstract »
| Full Text »
| PDF »
- Spectrotemporal Structure of Receptive Fields in Areas AI and AAF of Mouse Auditory Cortex.
- J. F. Linden, R. C. Liu, M. Sahani, C. E. Schreiner, and M. M. Merzenich (2003)
J Neurophysiol
90, 2660-2675
| Abstract »
| Full Text »
| PDF »
- Delay-Tuned Neurons in the Inferior Colliculus of the Mustached Bat: Implications for Analyses of Target Distance.
- C. V. Portfors and J. J. Wenstrup (1999)
J Neurophysiol
82, 1326-1338
| Abstract »
| Full Text »
| PDF »
- Specialized Subsystems for Processing Biologically Important Complex Sounds: Cross-correlation Analysis for Ranging in the Bat's Brain.
- N. Suga, J.F. Olsen, and J.A. Butman (1990)
Cold Spring Harb Symp Quant Biol
55, 585-597
| Abstract »
| PDF »
- Neural mechanisms of sound localization in an echolocating bat.
- Z. Fuzessery and G. Pollak (1984)
Science
225, 725-728
| Abstract »
| PDF »
- Neural axis representing target range in the auditory cortex of the mustache bat.
- N Suga and W. O'Neill (1979)
Science
206, 351-353
| Abstract »
| PDF »
|
|
