Abstract
Six neural elements, viz., retinular axons, a giant monopolar axon, straight descending processes (type I), lamina monopolar axons (type II), processes containing clusters of dense-core vesicles (type III), and processes coursing in various directions with varicosities (type IV), have been identified at the ultrastructural level in the lamina neuropil of the larval tiger beetle Cicindela chinensis. Retinular axons make presynaptic contact with all other types of processes. Type I and II processes possess many pre-and postsynaptic loci. Type II processes presumably constitute retinotopic afferent pathways. It remains uncertain whether type I processes are lamina monopolar axons or long retinular axons extending to the medullar neuropil. Type III processes may be efferent neurons or branches of afferent neurons contributing to local circuits. A giant monopolar axon extends many branches throughout the lamina neuropil; these branches are postsynaptic to retinular axons, and may be nonretinotopic and afferent. Type IV processes course obliquely in the neuropil, being postsynaptic to retinular axons, and presynaptic to type I processes.
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References
Faasch H (1968) Beobachtungen zur Biologie und zum Verhalten von Cicindela hybrida und Cicindela campestris und experimentelle Analyse ihres Beutefangverhaltens. Zool Jb Syst 95:477–522
Friederichs H (1931) Beiträge zur Morphologie und Physiologie der Sehorgane der Cicindelinen. Z Morph Oekol Tiere 21:1–172
Gilbert C (1989) Visual determinants of escape in tiger beetle larvae (Cicindelidae). J Insect Behavior 2:557–574
Goodman CS (1974) Anatomy of locust interneurons: constancy and variability. J Comp Physiol 95:185–201
Goodman LJ (1981) Organisation and physiology of the insect ocellar system. In: Autrum H (ed) Handbook of sensory physiology, vol VII/6C. Springer, Berlin Heidelberg New York, pp 201–286
Hori M (1982) The biology and population dynamics of the tiger beetle, Cicindela japonica (Thunberg). Physiol Ecol Jpn 19:77–212
Jarvilehto M, Zettler F (1973) Electrophysiological-histological studies on some functional properties of visual cells and second order neurons of an insect retina. Z Zellforsch 136:291–306
Nässel DR (1987) Serotonin and serotonin-immunoreactive neurons in the nervous system of insects. Prog Neurobiol 30:1–85
Nässel DR, Hagberg M, Seyan HS (1983) A new possibly serotonergic neuron in the lamina of blowfly optic lobe: an immunocytochemical and Golgi-EM study. Brain Res 280:361–367
Schremmer F (1979) Ethokologische Beobachtungen zum Wohnröhrenbau bei Larven der mitteleuropäischen. Sandlaufkäferart Cicindela silvicoal (Coleoptera: Cicindelidae). Entomol Generalis 5:201–219
Shaw SR, Frohlich A, Meinertzhagen IA (1989) Direct connections between the R7/8 and R-6 photoreceptor systems in the dipteran visual system. Gell Tissue Res 257:295–302
Strausfeld NJ (1976) Atlas of an insect brain. Springer Berlin Heidelberg New York
Toh Y, Hara S (1984) Dorsal ocellar system of the American cockroach. II. Structure of the ocellar tract. J Ultrastruct Res 86:135–148
Toh Y, Mizutani A (1994) Structure of the visual system of the larva of the tiger beetle Cicindela chinensis). Cell Tissue Res 278:125–134
Toh Y, Tateda H (1991) Structure and function of the insect ocellus. Zool Sci 8:395–413
Werblin FS, Dowling JE (1969) Organisation of the retina of the mudpuppy. Nectrus maculosa II. Intracellular recordings. J Neurophysiol 32:339–355
Zettler F, Jarvilehto M (1972) Lateral inhibition in an insect eye. Z Vergl Physiol 76:233–244
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Toh, Y., Mizutani, A. Neural organization of the lamina neuropil of the larva of the tiger beetle (Cicindela chinensis). Cell Tissue Res 278, 135–144 (1994). https://doi.org/10.1007/BF00305785
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DOI: https://doi.org/10.1007/BF00305785