Neurophysiology of the vibration sense in locusts and bushcrickets: The responses of ventral-cord neurones
Identifieur interne : 001F57 ( Main/Exploration ); précédent : 001F56; suivant : 001F58Neurophysiology of the vibration sense in locusts and bushcrickets: The responses of ventral-cord neurones
Auteurs : Roland Kühne [Allemagne]Source :
- Journal of Insect Physiology [ 0022-1910 ] ; 1982.
English descriptors
- Entity :
- geog : Vl, WITTIG.
- pers : Dr, I. Synapcould.
- Teeft :
- Airborne sound, Airborne sound stimulus, Auditory, Auditory neurones, Auditory receptor, Auditory system, Campaniform sensillum, Central neurones, Central processing, Conspecific song, Decticus, Different frequency, Different intensity, Different leg, Frequency range, Ipsilateral, Ipsilateral middle, Kalmring, Locusta, Locustids, Middle leg, Msec, Neurone, Neurone type, Neurones, Phasic, Physiological type, Preferential response, Receptor, Response characteristic, Response magnitude, Response pattern, Response range, Same physiological type, Simultaneous presentation, Specie, Stimulus duration, Strongest influence, Subgenual, Subgenual receptor, Suprathreshold, Suprathreshold response, Tettigonia, Tettigoniid, Tettigoniid specie, Threshold curve, Tonic, Tympanal receptor, Ventral, Ventral cord, Vibration, Vibration receptor, Vibration sense, Vibration stimulus, Vibrational information, Vibratory, Vibratory receptor, White noise.
Abstract
Abstract: In the locustid Locusta migratoria and the tettigoniids Decticus verrucivorus and Tettigonia cantans, comparative aspects of physiological properties of vibratory/auditory ventral-cord neurones were studied by single cell recordings.These neurones all receive inputs from both vibratory and auditory receptors. Nevertheless, they can be classified into “V neurones” responding preferentially to vibration stimuli, “VS neurones” responding to vibration and airborne sound, and “S neurones” responding preferentially to airborne sound. In every group, there are several types with different physiological properties, normally represented by one neurone on each body side.In Locusta and in the tettigoniid species, the same physiological types of vibratory/auditory neurones were found, although there are differences in the synaptic connectivity of the vibration receptors of the different legs. In Locusta, the middle leg receptors have the strongest influence on the generation of suprathreshold responses of the central neurones, whereas in the tettigoniids the receptors of the ipsilateral fore leg are the most influential.Two of the V neurones receive inputs mainly from campaniform sensilla and other low-frequency vibration receptors, the other V and VS neurones are mainly influenced by the subgenual receptors. Central information processing results in preferential responses to different frequency/intensity ranges in different neurones.Most VS neurone types show the same response characteristics (e.g. time pattern of response, habituation) either to vibration or to airborne-sound stimuli. Simultaneous presentation of both stimuli leads to qualitative changes in the response characteristics. Therefore, the co-processing of auditory and vibratory signals seems to be very important in the acoustic behaviour of grasshoppers.
Url:
DOI: 10.1016/0022-1910(82)90059-2
Affiliations:
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Synapcould</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Airborne sound</term><term>Airborne sound stimulus</term><term>Auditory</term><term>Auditory neurones</term><term>Auditory receptor</term><term>Auditory system</term><term>Campaniform sensillum</term><term>Central neurones</term><term>Central processing</term><term>Conspecific song</term><term>Decticus</term><term>Different frequency</term><term>Different intensity</term><term>Different leg</term><term>Frequency range</term><term>Ipsilateral</term><term>Ipsilateral middle</term><term>Kalmring</term><term>Locusta</term><term>Locustids</term><term>Middle leg</term><term>Msec</term><term>Neurone</term><term>Neurone type</term><term>Neurones</term><term>Phasic</term><term>Physiological type</term><term>Preferential response</term><term>Receptor</term><term>Response characteristic</term><term>Response magnitude</term><term>Response pattern</term><term>Response range</term><term>Same physiological type</term><term>Simultaneous presentation</term><term>Specie</term><term>Stimulus duration</term><term>Strongest influence</term><term>Subgenual</term><term>Subgenual receptor</term><term>Suprathreshold</term><term>Suprathreshold response</term><term>Tettigonia</term><term>Tettigoniid</term><term>Tettigoniid specie</term><term>Threshold curve</term><term>Tonic</term><term>Tympanal receptor</term><term>Ventral</term><term>Ventral cord</term><term>Vibration</term><term>Vibration receptor</term><term>Vibration sense</term><term>Vibration stimulus</term><term>Vibrational information</term><term>Vibratory</term><term>Vibratory receptor</term><term>White noise</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: In the locustid Locusta migratoria and the tettigoniids Decticus verrucivorus and Tettigonia cantans, comparative aspects of physiological properties of vibratory/auditory ventral-cord neurones were studied by single cell recordings.These neurones all receive inputs from both vibratory and auditory receptors. Nevertheless, they can be classified into “V neurones” responding preferentially to vibration stimuli, “VS neurones” responding to vibration and airborne sound, and “S neurones” responding preferentially to airborne sound. In every group, there are several types with different physiological properties, normally represented by one neurone on each body side.In Locusta and in the tettigoniid species, the same physiological types of vibratory/auditory neurones were found, although there are differences in the synaptic connectivity of the vibration receptors of the different legs. In Locusta, the middle leg receptors have the strongest influence on the generation of suprathreshold responses of the central neurones, whereas in the tettigoniids the receptors of the ipsilateral fore leg are the most influential.Two of the V neurones receive inputs mainly from campaniform sensilla and other low-frequency vibration receptors, the other V and VS neurones are mainly influenced by the subgenual receptors. Central information processing results in preferential responses to different frequency/intensity ranges in different neurones.Most VS neurone types show the same response characteristics (e.g. time pattern of response, habituation) either to vibration or to airborne-sound stimuli. Simultaneous presentation of both stimuli leads to qualitative changes in the response characteristics. Therefore, the co-processing of auditory and vibratory signals seems to be very important in the acoustic behaviour of grasshoppers.</div></front></TEI><affiliations><list><country><li>Allemagne</li></country></list><tree><country name="Allemagne"><noRegion><name sortKey="Kuhne, Roland" sort="Kuhne, Roland" uniqKey="Kuhne R" first="Roland" last="Kühne">Roland Kühne</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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