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Neural representation of the acoustic biotope

A comparison of the response of auditory neurons to tonal and natural stimuli in the cat

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Abstract

Cats were stimulated with tones and with natural sounds selected from the normal acoustic environment of the animal. Neural activity evoked by the natural sounds and tones was recorded in the cochlear nucleus and in the medial geniculate body. The set of biological sounds proved to be effective in influencing neural activity of single cells at both levels in the auditory system. At the level of the cochlear nucleus the response of a neuron evoked by a natural sound stimulus could be understood reasonably well on the basis of the structure of the spectrograms of the natural sounds and the unit's responses to tones. At the level of the medial geniculate body analysis with tones did not provide sufficient information to explain the responses to natural sounds. At this level the use of an ensemble of natural sound stimuli allows the investigation of neural properties, which are not seen by analysis with simple artificial stimuli. Guidelines for the construction of an ensemble of complex natural sound stimuli, based on the ecology and ethology of the animal under investigation are discussed. This stimulus ensemble is defined as the Acoustic Biotope.

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References

  • Aertsen, A.M.H.J., Smolders, J.W.T., Johannesma, P.I.M.: Neural representation of the Acoustic Biotope: On the existence of stimulus-event relations for sensory neurons. Biol. Cybernetics32, 175–185 (1979)

    Google Scholar 

  • Aertsen, A.M.H.J., Olders, J.H.J., Johannesma, P.I.M.: Neural representation of the Acoustic Biotope: Spectro-temporal analysis of auditory neuron responses to tonal and natural stimuli in the grassfrog (Rana temporaria L.). (in preparation)

  • Berman, A.L.: The brainstem of the cat. Madison, Milwaukee, London: Univ. of Wisconsin Press 1968

    Google Scholar 

  • Boer, E. de, Kuiper, P.: Triggered correlation. IEEE Trans. Biomed. Eng. BME-15, 169–179 (1968)

    Google Scholar 

  • Boer, E. de, Jongh, H.R.de: On cochlear encoding: Potentialities and limitations of the reverse-correlation technique. J. Acoust. Soc. Am.63, 115–135 (1978)

    PubMed  Google Scholar 

  • Bullock, T.H. (ed.): Recognition of complex acoustic signals. Life Sciences Res. Rep., Vol. 5. Berlin, Heidelberg, New York: Springer 1977

    Google Scholar 

  • Collias, N.E.: An ecological and functional classification of animal sounds. In: Animal sounds and communication, pp. 368–391. Lanyon, W.E., Tavolga, W.N. (eds.) Am. Inst. Biol. Sci., Washington 1959

    Google Scholar 

  • Dahl, F.: Frundlagen einer ökologischen Tiergeographie, Teil 1. Jena: Gustav Fischer 1921

    Google Scholar 

  • Evans, E.F., Nelson, P.G.: The responses of single neurones in the cochlear nucleus of the cat as a function of their location and the anaesthetic state. Exp. Brain Res.17, 402–427 (1973)

    PubMed  Google Scholar 

  • Evans, E.F.: Neural processes for the detection of acoustic patterns and for sound localization. In: The neurosciences, third study program, pp 131–145. Schmidt, F.O., Worden, F.G. (eds.). Cambridge: M.I.T. Press 1974

    Google Scholar 

  • Evans, E.F.: Cochlear nerve and cochlear nucleus. In: Handbook of sensory physiology, Vol. V/2: Auditory system, pp. 1–108. Keidel, W.D., Neff, W.D. (eds.). Berlin, Heidelberg, New York: Springer 1975

    Google Scholar 

  • Gabor, D.: Theory of communication. J. I.E.E. (London), pt. III,93, 429–457 (1946)

    Google Scholar 

  • Gersuni, G.V., Vartanian, I.A.: Time dependent features of adequate sound stimuli and the functional organization of central auditory neurons. In: Basic mechanisms in hearing, pp. 623–673. Møller, A.R. (ed.). New York, London: Academic Press 1973

    Google Scholar 

  • Gisbergen, J.A.M. van, Grashuis, J.L., Johannesma, P.I.M., Vendrik, A.J.H.: Spectral and temporal characteristics of activation and suppression of units in the cochlear nuclei of the anaesthetized cat. Exp. Brain Res.23, 367–386 (1975)

    PubMed  Google Scholar 

  • Grashuis, J.L.: The pre-event stimulus ensemble: An analysis of the stimulus-response relation for complex stimuli applied to auditory neurons. Ph. D. Thesis, Nijmegen 1974

  • Johannesma, P.I.M.: The pre-response stimulus ensemble of neurons in the cochlear nucleus. In: Proc. of the IPO Symp. on Hearing Theory, pp. 58–69. Cardozo, B.L. (ed.). Eindhoven 1972

  • Kallert, S.: Telemetrische Mikroelektrodenuntersuchungen am Corpus geniculatum mediale der wachen Katze. Habilitationsschrift, Erlangen-Nürnberg 1974

  • Kiang, N.Y.-S., Watanabe, T., Thomas, E.C., Clark, L.F.: Discharge patterns of single fibers in the cat's auditory nerve. Cambridge, Mass: M.I.T. Press 1965

    Google Scholar 

  • Kiang, N.Y.-S., Moxon, E.C.: Tails of tuning curves of auditory nerve fibres. J. Acoust. Soc. Am.55, 620–630 (1974)

    PubMed  Google Scholar 

  • Marler, P.: The logical analysis of animal communication. J. Theoret. Biol.1, 295–317 (1961)

    Google Scholar 

  • Møller, A.R.: Coding of amplitude modulated sounds in the cochlear nucleus of the rat. In: Basic mechanisms in hearing, pp. 593–619. Møller, A.R. (ed.) New York, London: Academic Press 1973

    Google Scholar 

  • Møller, A.R.: Coding of time-varying sounds in the cochlear nucleus. Audiology17, 446–468 (1978)

    PubMed  Google Scholar 

  • Osen, K.K.: Cytoarchitecture of the cochlear nuclei in the cat. J. Comp. Neurol.136, 453–484 (1969a)

    PubMed  Google Scholar 

  • Osen, K.K.: The intrinsic organization of the cochlear nuclei in the cat. Acta Oto-Laryng OL.67, 352–359 (1969b)

    Google Scholar 

  • Odum, E.P.: Fundamentals of ecology. Philadelphia: Saunders 1971

    Google Scholar 

  • Potter, R.K., Kopp, G.A., Green, H.C.: Visible speech. New York: Van Nostrand 1947

    Google Scholar 

  • Scheich, H.: Central processing of complex sounds and feature analysis. In: Recognition of complex acoustic signals, pp. 161–182. Bullock, T.H. (ed.). Life Sciences Res Rep., Vol. 5. Berlin, Heidelberg, New York: Springer 1977

    Google Scholar 

  • Sebeok, T.A.: Animal communication. Bloomington, London: Indiana Univ. Press 1968

    Google Scholar 

  • Singleton, R.C., Poulter, T.C.: Spectral analysis of the call of the male killer whale. IEEE Trans. Audio and Electroacoust. AU-15, 104–113 (1967)

    Google Scholar 

  • Suga, N.: Analysis of information-bearing elements in complex sounds by auditory neurons of bats. Audiology11, 58–72 (1972)

    Google Scholar 

  • Suga, N.: Feature extraction in the auditory system of bats. In: Basic mechanisms in hearing, pp. 675–742. Møller, A.R. (ed.). New York, London: Academic Press 1973

    Google Scholar 

  • Suga, N.: Specialization of the auditory system for reception and processing of species-specific sounds. Fed. Proc.37, 2342–2354 (1978)

    PubMed  Google Scholar 

  • watanabe, T.: Fundamental study of the neural mechanism in cats subserving the feature extraction process of complex sounds. Jpn. J. Physiol.22, 569–583 (1972)

    PubMed  Google Scholar 

  • Webster, W.R., Aitkin, L.M.: Evoked potential and single unit studies of neural mechanisms underlying the effects of repetitive stimulation in the auditory pathway. Electroencephalogr. Clin. Neurophysiol.31, 581–592 (1971)

    PubMed  Google Scholar 

  • Winter, P., Ploog, D., Latta, J.: Vocal repertoire of the squirrel monkey (Saimiri sciureus), its analysis and significance. Exp. Brain Res.1, 359–384 (1966)

    PubMed  Google Scholar 

  • Winter, P., Funkenstein, H.H.: The effect of species specific vocalisation on the discharge of auditory cortical cells in the awake squirrel monkey (Saimiri sciureus). Exp. Brain Res.18, 489–504 (1973)

    PubMed  Google Scholar 

  • Worden, F.G., Galambos, R. (eds.): Auditory processing of biologically significant sounds. Neurosci. Res. Program Bull.10, Brookline Mass: Neurosciences Research Program 1972

    Google Scholar 

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Author notes

  1. J. W. T. Smolders

    Present address: Zentrum der Physiologie der J.W. Goethe-Universität Frankfurt, Federal Republic of Germany

Authors and Affiliations

  1. Department of Medical Physics and Biophysics, University of Nijmegen, Nijmegen, The Netherlands

    J. W. T. Smolders, A. M. H. J. Aertsen & P. I. M. Johannesma

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  1. J. W. T. Smolders
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  2. A. M. H. J. Aertsen
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  3. P. I. M. Johannesma
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Smolders, J.W.T., Aertsen, A.M.H.J. & Johannesma, P.I.M. Neural representation of the acoustic biotope. Biol. Cybern. 35, 11–20 (1979). https://doi.org/10.1007/BF01845840

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