Effects of temperature on identified central neurons that control jumping in the grasshopper

Grasshoppers, like many poikilotherms, are generally more active at warmer body temperatures. In particular, they jump more frequently when warm. To determine the neuronal basis of this increase in jumping activity, we investigated the effects of temperature on the properties of identified central neurons known to be involved in the control of the jump; these included the fast extensor tibiae (FETi) motoneuron and the C, G, and M interneurons. Heating did not result in a reduction in the current or voltage threshold for action potentials; in most cases, there was an increase in the current threshold with heating. At higher temperatures, the frequency-current relations of interneurons and motoneurons had steeper slopes. With strong current pulses, increasing the temperature resulted in an increase in the initial peak firing frequencies of central neurons and usually also in their steady state firing frequencies. A second temperature effect favoring increased CNS activity in warm grasshoppers was increased afferent input from the periphery. In a broad variety of sensory receptors, there was a dramatic increase in their sensitivity to sensory stimuli at both threshold and suprathreshold intensities. Various identified central neurons differed in the way in which some of their properties were influenced by temperature. The C and G interneurons showed a striking similarity in the unusual way in which their repetitive firing properties were influenced by heating. Since these neurons are sibling progeny of a single neuroblast, this shared physiological property is correlated with their developmental history.

[1]  M. Burrows,et al.  ELECTRICAL CHARACTERISTICS OF THE MEMBRANE OF AN IDENTIFIED INSECT MOTOR NEURONE , 1980 .

[2]  K. Pearson,et al.  Electrical excitability: a spectrum of properties in the progeny of a single embryonic neuroblast. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[3]  W. J. Heitler,et al.  Triggering of locust jump by multimodal inhibitory interneurons. , 1980, Journal of neurophysiology.

[4]  R. Morrissey,et al.  Neural function in an alpine grylloblattid: a comparison with the house cricket, Acheta domesticus , 1979 .

[5]  W. J. Heitler,et al.  The locust jump. II. Neural circuits of the motor programme. , 1977, The Journal of experimental biology.

[6]  R. Matthews The Insects: Structure and Function , 1971 .

[7]  Boris Uvarov,et al.  Grasshoppers and Locusts: A Handbook of General Acridology. Vol. 1. Anatomy, Physiology, Phase Polymorphism, Introduction to Taxonomy. , 1967 .

[8]  G. Varley,et al.  Grasshoppers and Locusts , 1967 .

[9]  R. W. Murray The effect of temperature on the membrane properties of neurons in the visceral ganglion of Aplysia. , 1966, Comparative biochemistry and physiology.

[10]  R. Guttman Temperature Characteristics of Excitation in Space-Clamped Squid Axons , 1966, The Journal of general physiology.

[11]  R. FitzHugh Theoretical Effect of Temperature on Threshold in the Hodgkin-Huxley Nerve Model , 1966, The Journal of general physiology.

[12]  A. Willows GIANT NERVE CELLS IN THE GANGLIA OF NUDIBRANCH MOLLUSCS. , 1965, Comparative biochemistry and physiology.

[13]  Dag Gärdefors THE INFLUENCE OF RAPID TEMPERATURE CHANGES ON THE ACTIVITY OF CHORTHIPPUS ALBOMARGINATUS DE GEER (ACRIDIDAE, ORTHOPTERA) , 1964 .

[14]  G. A. Kerkut,et al.  The effect of temperature changes on the activity of the neurones of the snail Helix aspersa. , 1962, Comparative biochemistry and physiology.

[15]  M. S. Laverack The effect of temperature changes on the spontaneous nervous activity of the isolated nerve cord of Lumbricus terrestris. , 1961, Comparative biochemistry and physiology.

[16]  G Hoyle,et al.  Neural mechanism underlying behavior in the locust Schistocerca gregaria. 3. Topography of limb motorneurons in the metathoracic ganglion. , 1973, Journal of neurobiology.

[17]  R. Chapman The Behaviour of Nymphs of Schistocerca Gregaria (Forskål) (Orthoptera, Acrididae) in a Temperature Gradient, With Special Reference To Temperature Preference , 1965 .

[18]  G. A. Kerkut,et al.  THE EFFECT OF TEMPERATURE CHANGES ON THE ACTIVITY OF POIKILOTHERMS , 1958 .