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Response characteristics of inferior colliculus neurons of the awake CF-FM batRhinolophus ferrumequinum (1978)

Möller, J. ; Neuweiler, G. ; Zöller, H.

Springer

Journal of comparative physiology 125 (1978), S. 217-225

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The responses of 230 single neurons in the inferior colliculus of the horseshoebat to single tones have been studied, emphasizing systematic analysis of the effective frequency bands, dynamic properties and the time course of responses. Distribution of the units' best excitatory frequencies (BEF) is: low frequency neurons 23% (BEF 3–65 kHz); FM-frequency neurons 25% (BEF 65–81 kHz, i.e., frequencies occurring in the FM-part of the bat's echo signal); filter neurons 45% (BEF 81–88 kHz, i.e., frequencies occurring in the stabilized CF-part of the bat's echo=reference frequency (RF)); high frequency neurons about 7% (BEF 〉 88 kHz). Tuning curves show conventional shapes (Fig. 1), apart from those of filter neurons, which are extremely narrow. Accordingly, Q10dB-values (BEF divided by the bandwidth of the tuning curve at 10 dB above threshold) are 80–450 in filter neurons (Fig. 2). Response patterns (Fig. 3) are similar to those of Nucleus cochlearis units (transient, sustained, negative and complex responders) with an increased percentage of complex responders up to 38% and a decreased number of transient responders. All types of spike-count functions are found (Fig. 4); nonmonotonic ones dominating. Maximal spike counts are not at the BEF but a few kHz below. Distinct upper thresholds, especially at the BEF of filter neurons (Fig. 5) lead to abrupt changes in activity by slightly shifting stimulus frequency or intensity. The hallmark of inferior colliculus neurons is inhibition, disclosed by distinct inhibitory areas enfolding and overlapping excitatory ones (Figs. 3 and 5). Duration of inhibition varies with stimulus frequency, but is largely independent of stimulus duration (Fig. 6), whereas rebound of inhibition depends on stimulus duration building up periodic rebound activities, if stimulus duration is lengthened. In addition, there are neurons responding only periodically, regardless of stimulus frequency and intensity (Fig. 7). Inhibition is discussed in terms of improving the neuronal signal/spontaneous noise ratio and altering responsiveness of neurons after stimulation, so that these neurons may be suited to time processing in the acoustic pathway.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00656600

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Comparative auditory neurophysiology of the inferior colliculus of two molossid bats,molossus ater andmolossus molossus (1979)

Vater, M. ; Schlegel, P. ; Zöller, H.

Springer

Journal of comparative physiology 131 (1979), S. 137-145

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Recordings were made from single inferior colliculus neurons of two closely related bat species,Molossus ater andMolossus molossus, both emitting short CF-FM echolocation calls which differ only in frequency range. Employing pure tone stimuli, minimum thresholds, tuning curves, response patterns and spike count functions were measured and compared between the two species. 2. The audiograms (evoked potential measurements and distribution of single neuron thresholds) of both species are rather broadly tuned, but maximum auditory sensitivity is reached at different frequency ranges according to the different spectral content of the orientation calls. 3. Single unit data concerning tuning curves, Q10dB-values, response patterns and spike count functions are very similar in the samples obtained from the two molossid species and closely resemble data from bats using FM-orientation calls. 4. The inferior colliculus of molossids is tonotopically organized. Asymmetrical and symmetrical tuning curves were found. Q10dB-values rarely exceeded 20, and so are values known as characteristic for other mammals. The dominant response pattern class is the “phasic-on” type with no or low spontaneous activity. Spike count functions of the non-monotonic type prevail. 5. Data are compared with results from “long CF-FM-bats”, revealing striking species differences in frequency selectivity of single neurons and organization of the ascending auditory pathway. This suggests different strategies in information processing which are discussed as adaptations to the species specific orientation calls.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00619074

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Die partielle Reduktion des 2.6- und des 2.4-Dinitrotoluols auf elektrochemischem Wege (1907)

Brand, K. ; Zöller, H.

Weinheim : Wiley-Blackwell

Berichte der deutschen chemischen Gesellschaft 40 (1907), S. 3324-3334

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ISSN: 0365-9496

Keywords: Chemistry ; Inorganic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/cber.190704003105

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