Summary
The spectral sensitivities of individually stimulated ommatidia in the compound eye of Daphnia magna were measured using a fast spectral scan voltage-clamp technique with extracellular recording. Chromatic adaptation was used to reveal the contributions of individual spectral classes of photoreceptors to the ommatidial sensitivity. Ommatidia in the dorsal and ventral regions of the compound eye were tested. Four spectral classes of photoreceptors were found in each ommatidium, among them a previously undetected class with peak sensitivity in the ultraviolet. The wavelengths of peak sensitivity were at 348, 434, 525, and 608 nm for the dorsal ommatidia. The three longer wavelength classes agreed well with those found previously by intracellular recording (Schehr 1984). Only small differences in wavelength and magnitude of peak sensitivity were found between the four classes in the dorsal versus ventral ommatidia.
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References
Bernard GD (1987) Spectral characterization of butterfly L-receptors using extended Dartnall/MacNichol template functions. J Opt Soc Am A4:123
Bevington PR (1969) Data reduction and error analysis for the physical sciences. McGraw-Hill, New York
Caceci MS, Cacheris WP (1984) Fitting curves to data. Byte, May 1984. pp 340–362
Consi TR, Macagno ER (1985) The spectral sensitivity of eye movements in response to light flashes in Daphnia magna. J Comp Physiol A 156:135–143
Cronin TW, Forward RB Jr (1988) The visual pigments of crabs. I. Spectral characteristics. J Comp Physiol A 162:463–478
Cronin W, Marshall N (1989) A retina with at least ten spectral types of photoreceptors in a mantis shrimp. Nature 339:137–140
Cummins DR, Goldsmith TH (1981) Cellular identification of the violet receptor in the crayfish eye. J Comp Physiol 142:199–202
Downing JEG, Djamgoz MBA, Bowmaker JK (1986) Photoreceptors of a cyprinid fish, the roach: morphological and spectral characteristics. J Comp Physiol A 159:859–868
Forward RB Jr, Cronin TW (1979) Spectral sensitivity of larvae from intertidal crustaceans. J Comp Physiol 133:311–315
Franceschini N (1979) Voltage-clamp by light: rapid measurement of the spectral and polarization sensitivities of receptor cells. Invest Ophthalmol Suppl April 18:5
Franceschini N (1984) Chromatic organization and sexual dimorphism of the fly retinal mosaic. In: Borsellino A, Cervetto L (eds) Photoreceptors. Plenum Press, New York, pp 319–350
Frisch K von, Kupelwieser H (1913) Über den Einfluss der Lichtfarbe auf die phototaktischen Reaktionen niederer Krebse. Biol Centralbl 33:517–552
Goldsmith TH (1965) Do flies have a red receptor? J Physiol 49:265–287
Goldsmith TH (1978) The spectral absorption of crayfish rhabdoms: pigment, photoproduct and pH sensitivity. Vision Res 18:463–473
Goldsmith TH (1986) Interpreting trans-retinal recordings of spectral sensitivity. J Comp Physiol A 159:481–487
Goldsmith TH, Fernandez HR (1968) Comparative studies of crustacean spectral sensitivity. Z Vergl Physiol 60:156–175
Hamdorf K (1979) The physiology of invertebrate visual pigments. In: Autrum H (ed) Vision in invertebrates (Handbook of sensory physiology, vol VII/6 A). Springer, Berlin Heidelberg New York, pp 145–224
Hardie RC (1984) Properties of photoreceptors R7 and R8 in dorsal marginal ommatidia in the compound eyes of Musca and Calliphora. J Comp Physiol A 154:157–165
Hariyama T, Meyer-Rochow VB, Eguchi E (1986) Diurnal changes in structure and function of the compound eye of Ligia exotica (Crustacea, Isopoda). J Exp Biol 123:1–26
Jacobs GH, Neitz J, Crognale M (1985) Spectral sensitivity of ground squirrel cones measured with ERG flicker photometry. J Comp Physiol A 156:503–509
Kirschfeld K, Vogt K (1986) Does retinol serve a sensitizing function in insect photoreceptors? Vision Res 26:1771–1777
Kirschfeld K, Franceschini N, Minke B (1977) Evidence for a sensitising pigment in fly photoreceptors. Nature 269:386–390
Knight D, Leggett LMW (1985) Six spectral sensitivity classes in crab visual interneurons. J Comp Physiol A 157:235–245
Koehler O (1924) Über das Farbensehen von Daphnia magna Strauss. Z Vergl Physiol 1:84–174
Labhart T (1980) Specialized photoreceptors at the dorsal rim of the honeybee's compound eye: polarizational and angular sensitivity. J Comp Physiol 141:19–30
Labhart T (1986) The electrophysiology of photoreceptors in different eye regions of the desert ant, Cataglyphis bicolor. J Comp Physiol A 158:1–7
Lall AB, Cronin TW (1987) Spectral sensitivity of the compound eyes in the purple land crab Gecarcinus lateralis (Freminville). Biol Bull 173:398–406
Legget LMW (1979) A retinal substrate for colour discrimination in crabs. J Comp Physiol 133:159–166
Lythgoe JN (1984) Visual pigments and environmental light. Vision Res 24:1539–1550
Macagno ER (1979) Cellular interactions and pattern formation in the development of the visual system of Daphnia magna (Crustacea, Branchiopoda) I. Interactions between embryonic retinular fibers and laminar neurons. Dev Biol 73:206–238
MacNichol EF Jr (1986) A unifying presentation of photopigment spectra. Vision Res 26:1543–1556
Martin FG, Mote MI (1982) Color receptors in marine crustaceans: A second spectral class of retinular cell in the compound eyes of Callinectes and Carcinus. J Comp Physiol 145:549–554
McNaught DC (1965) A study of some ecological relationships and the role of vision in the diel migrations of Daphnia. PhD Thesis, Univ of Wisconsin
Menzel R, Ventura DF, Hertel H, de Souza JM, Greggers U (1986) Spectral sensitivity of photoreceptors in insect compound eyes: Comparison of species and methods. J Comp Physiol A 158:165–177
Merker E (1930) Sehen die Daphnien ultraviolettes Licht? Zool Jahrb Abt allg Zool Physiol Tiere 48:277–348
Padmos P, Norren D van (1972) The vector-voltmeter as a tool to measure ERG spectral sensitivity and dark adaptation. Invest Ophthalmol 11:783–788
Ringelberg J (1964) The positively phototactic reaction of Daphnia magna Strauss: A contribution to the understanding of diurnal vertical migration. Neth J Sea Res 2:319–406
Röhlich P, Törö I (1965) Fine structure of the compound eye of Daphnia in normal, dark- and strongly light-adapted state. In: Rohen JW (ed) The structure of the compound eye. II. Symposium. Schattauer, Stuttgart, pp 175–186
Schehr RS (1984) Spectral sensitivities of anatomically identified photoreceptors in the compound eye of Daphnia magna. PhD Thesis, Columbia University
Smakman JGJ, Pijpker BA (1983) An analog-digital feedback system for measuring photoreceptor properties with an equal response method. J Neurosci Meth 8:365–373
Smith FE, Baylor ER (1953) Color responses in the Cladocera and their ecological significance. Am Nat 87:49–55
Smith KC (1988) A tetrachromatic visual system in Daphnia magna (Crustacea, Branchiopoda). PhD Thesis, Columbia University
Stark WS, Tan KEWP (1982) Ultraviolet light: Photosensitivity and other effects on the visual system. (Review). Photochem Photobiol 36:371–380
Stavn RH (1970) The application of the dorsal light reaction for orientation in water currents by Daphnia magna Straus. Z Vergl Physiol 70:349–362
Stearns SC (1975) Light responses of Daphnia pulex. Limnol Oceanogr 20:564–570
Steiner A, Paul R, Gemperlein R (1987) Retinal receptor types in Aglais urticae and Pieris brassicae (Lepidoptera), revealed by analysis of the electroretinogram obtained with Fourier interferometric stimulation (FIS). J Comp Physiol A 160:247–258
Stowe S (1980) Spectral sensitivity and retinal pigment movement in the crab Leptograpsus variegatus (Fabricius). J Exp Biol 87:73–98
Young S (1974) Directional differences in the colour sensitivity of Daphnia magna. J Exp Biol 61:261–267
Young S (1981) Behavioural correlates of photoreception in Daphnia. In: Laverack MS, Cosens DJ (eds) Sense organs. Blackie, Glasgow, pp 49–63
Young S, Downing AC (1976) The receptive fields of Daphnia ommatidia. J Exp Biol 64:185–202
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Smith, K.C., Macagno, E.R. UV photoreceptors in the compound eye of Daphnia magna (Crustacea, Branchiopoda). A fourth spectral class in single ommatidia. J Comp Physiol A 166, 597–606 (1990). https://doi.org/10.1007/BF00240009
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DOI: https://doi.org/10.1007/BF00240009