Twisted and non-twisted rhabdoms and their significance for polarization detection in the bee

Autrum, H., Zwehl, V. v.: Die spektrale Empfindlichkeit einzelner Sehzellen des Bienenauges. Z. vergl. Physiol.48, 357–384 (1964) Bernard, G. D.: Physiological optics of the fused rhabdom. In: Photoreceptor optics (eds. A. W. Snyder, R. Menzel), p. 78–97. Berlin-Heidelberg-New York: Springer 1975 Bernard, G. D., Wehner, R.: Dichroism, birefringence and structural twist in E-vector detectors of insects. Biol. Bull.149, 421 (1975) Born, M., Wolf, E.: Principles of optics, 3rd ed., p. 708–713. Oxford: Pergamon Press 1965 Clarke, D., Graininger, J. F.: Polarized light and optical measurements. New York: Pergamon Press 1971 Duelli, P.: A fovea for e-vector detection in the eye ofCataglyphis bicolor (Formicidae, Hymenoptera). J. comp. Physiol.102, 43–56 (1975) Duelli, P., Wehner, R.: The spectral sensitivity of polarized light orientation inCataglyphis bicolor (Formicidae, Hymenoptera). J. comp. Physiol.86, 37–53 (1973) Eguchi, E.: Fine structure and spectral sensitivities of retinular cells in the dorsal sector of compound eyes in the dragonflyAeschna. Z. vergl. Physiol.71, 201–218 (1971) Frisch, K. v.: The dance language and orientation of bees. Cambridge, Mass.: Harvard Univ. Press (1967) Gribakin, F. G.: Cellular basis of colour vision in the honey bee. Nature (Lond.)223, 639–641 (1969) Gribakin, F. G.: The distribution of the long wave photoreceptors in the compound eye of the honeybee as revealed by selective osmic staining. Vision Res.12, 1225–1230 (1972) Grundler, O. J.: Elektronenmikroskopische Untersuchungen am Auge der Honigbiene (Apis mellifera), I. Untersuchungen zur Morphologie und Anordnung der neun Retinulazellen in Ommatidien verschiedener Augenbereiche und zur Perzeption linear polarisierten Lichtes. Cytobiol.9, 203–220 (1974) Hays, D., Goldsmith, T. H.: Microspectrophotometry of the visual pigment of the spider crab,Libinia emarginata. Z. vergl. Physiol.65, 218–232 (1969) Helversen, O. v., Edrich, W.: Der Polarisationsempfänger im Bienenauge: ein Ultraviolettrezeptor. J. comp. Physiol.94, 33–47 (1974) Horridge, G. A.: Unit studies on the retina of dragonflies. Z. vergl. Physiol.62, 1–37 (1969) Kirschfeld, K.: Die notwendige Anzahl von Rezeptoren zur Bestimmung der Richtung des elektrischen Vektors linear polarisierten Lichtes. Z. Naturforsch.27b, 578–579 (1972) Kolb, G., Autrum, H.: Selektive Adaptation und Pigmentwanderung in den Sehzellen des Bienenauges. J. comp. Physiol.94, 1–6 (1974) Laughlin, S. B., Horridge, G. A.: Angular sensitivity of retinula cells of dark-adapted worker bee. Z. vergl. Physiol.74, 329–335 (1971) Menzel, R.: Colour receptors in insects. In: The compound eye and vision of insects (ed. G. A. Horridge), p. 121–153. Oxford: Clarendon Press 1974 Menzel, R.: Optische und elektrische Koppelung im Ommatidium mit fusioniertem Rhabdom. Verh. dtsch. zool. Ges.67, 33–36 (1975a) Menzel, R.: Polarization sensitivity in insect eyes with fused rhabdoms. In: Photoreceptor optics (eds. A. W. Snyder, R. Menzel), p. 372–387. Berlin-Heidelberg-New York: Springer (1975b) Menzel, R., Snyder, A. W.: Polarized light detection in the bee,Apis mellifera. J. comp. Physiol.88, 247–270 (1974) Minke, B., Wu, C. F., Pak, W. C.: Isolation of light-induced response of the central retinula cells from the electroretinogram ofDrosophila. J. comp. Physiol.98, 345–355 (1975) Ninomiya, N., Tominaga, Y., Kuwabara, M.: The fine structure of the compound eye of a damsel-fly. Z. Zellforsch.98, 17–32 (1969) Ribi, W. A.: The neurons of the first optic ganglion of the bee (Apis mellifera). Adv. Anat. Embryol. Cell Biol.50, 1–43 (1975) Roth, H., Menzel, R.: ERG ofFormica polyctena and selective adaptation. In: Information processing in the visual systems of arthropods (ed. R. Wehner), p. 177–181. Berlin-Heidelberg-New York: Springer 1972 Schinz, R.: Structural specialization in the dorsal retina of the bee,Apis mellifera. Cell Tiss. Res.162, 23–34 (1975) Seitz, G.: Polarisationsoptische Untersuchungen am Auge vonCalliphora erythrocephala. Z. Zellforsch.93, 525–529 (1968) Snyder, A. W., MeIntyre, P.: Polarization sensitivity of twisted fused rhabdoms. In: Photoreceptor optics (eds. A. W. Snyder, R. Menzel), p. 388–391. Berlin-Heidelberg-New York: Springer (1975) Snyder, A. W., Pask, C.: Light absorption in the bee photoreceptor. J. opt. Soc. Amer.62, 1267–1277 (1972) Sommer, E., Wehner, R.: The retina-lamina-projection in the visual system of the bee,Apis mellifera. Cell Tiss. Res.163, 45–61 (1975) Stark, W. S.: Spectral sensitivity of visual response alterations mediated by interconversions of native and intermediate photopigments inDrosophila. J. comp. Physiol.96, 343–356 (1975) Stockhammer, K.: Zur Wahrnehmung der Schwingungsrichtung linear polarisierten Lichtes bei Insekten. Z. vergl. Physiol.38, 30–83 (1956) Täuber, U.: Analyse des Polarisationszustandes des aus dem Rhabdomer austretenden Lichts. J. comp. Physiol.95, 169–183 (1974) Wehner, R.: Space constancy of the visual world in insects. Fortschr. Zool.23, 148–160 (1975) Wehner, R.: Structure and function of the peripheral visual pathway in Hymenopterans (in press) Weiler, R., Huber, M.: The significance of different eye regions for astromenotactic orientation inCataglyphis bicolor (Formicidae, Hymenoptera). In: Information processing in the visual systems of arthropods (ed. R. Wehner), p. 287–293. Berlin-Heidelberg-New York: Springer 1972