Abstract
The evolution of photoreceptor cells and eyes in Metazoa is far from being resolved, although recent developmental and structural studies have provided strong evidence for a common origin of photoreceptor cells and existence of sister cell types already in early metazoans. These sister cell types are ciliary and rhabdomeric photoreceptor cells, depending on which part of each cell is involved in photoreception proper. However, a crucial point in eye evolution is how the enormous structural diversity of photoreceptor cells and visual systems developed, given the general molecular conservation of the photoreceptor cells. One example of this diversity can be observed in Annelida. Within the polychaetes the errant forms, taxon Aciculata, constitute the only group possessing true multicellular eyes in the adult stage. Thus far these organs have been investigated only in taxa of Phyllodocida, a subgroup of Aciculata. Data on Eunicida and Amphinomida as well as certain phyllodocidan taxa had been lacking. The ultrastructure of these adult eyes was investigated in various species of errant polychaetes, belonging to Amphinomidae, Eunicidae and Hesionidae, to elucidate whether they provide any phylogenetic clues regarding either the evolution of visual systems in Annelida or lophotrochozoan phylogeny in general. These eyes are composed of numerous supportive pigment cells and rhabdomeric photoreceptor cells and sometimes additional cell types. As a rule the pigment and rhabdomeric cell types form a continuous epithelium in which the two types intermingle. Presence of granules with shading pigment in sensory cells is a common feature but is apparently restricted to a taxon comprising Phyllodocida and Eunicida s. str. Very likely a lens-like structure does not belong to the ground pattern of annelid eyes, despite its presence in Phyllodocida. These lens-like structures are formed by secretions or cellular processes of the pigment cells. In many species the eye cup communicates with the exterior via a small cuticularized canal. This canal is interpreted as a rudiment due to the mode of formation in the epidermis. With respect to current phylogenetic hypotheses, these multicellular eyes have either been developed in the stem species of a taxon Aciculata nested within the polychaetes or have been evolved in the stem lineage of Annelida. Similarities to gastropod eyes are interpreted as convergent and not as indication of common origin. Except for the photoreceptor cells proper, the structure of the adult eyes in polychaetes most likely does not help to resolve lophotrochozoan phylogeny.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arendt D (2003) Evolution of eyes and photoreceptor cell types. Int J Dev Biol 47:563–571
Arendt D, Tessmar K, de Campos-Baptista M-IM, Dorresteijn A, Wittbrodt J (2002) Development of pigment-cup eyes in the polychaete Platynereis dumerilii and evolutionary conservation of eyes in Bilateria. Development 129:1143–1154
Arendt D, Tessmar-Raible K, Snyman H, Dorresteijn A, Wittbrodt J (2004) Ciliary photoreceptors with a vertebrate-type opsin in an invertebrate brain. Science 306:869–871. doi:10.1126/science.1099955
Arendt D, Wittbrodt J (2001) reconstructing the eyes of Urbilateria. Philos Trans R Soc Lond B Biol Sci 356:1545–1563. doi:10.1098/rstb.2001.0971
Bartolomaeus T (1987) Ultrastruktur des Photorezeptors von Anaitides mucosa (Phyllodocidae, Annelida). Microfauna Mar 3:411–418
Bartolomaeus T (1992) Ultrastructure of the photoreceptors in certain larvae of the Annelida. Microfauna Mar 7:191–214
Bartolomaeus T (1993) Different photoreceptors in juvenile Ophelia rathkei (Annelida, Opheliida). Microfauna Mar 8:99–114
Bartolomaeus T, Purschke G, Hausen H (2005) Polychaete phylogeny based on morphological data: a comparison of current attempts. Hydrobiologia 535/536:341–356. doi:10.1007/s10750-004-1847-5
Bassot JM, Nicolas MT (1978) Similar paracrystals of endoplasmic reticulum in the photoemitters and the photoreceptors of scale-worms. Experientia 34:726–728. doi:10.1007/BF01947284
Bitsch C, Bitsch J (2005) Evolution of eye structure and arthropod phylogeny. In: Koenemann S (ed) Crustaceans and arthropod relationships. CRC, Talor & Francis Book Inc, New York, pp 185–214
Bocquet M (1976) Ultrastructure de l’organe photorécepteur d’Autolytus pictus (Annélide Polychète). Étude chez la souche, le stolo parvenue à maturité sexuelle et la tête régénère. J Microsc Biol Cell 25:61–66
Bocquet M (1977) Étude ultrastructurale de l’organe photorécepteur d’Odontosyllis ctenostoma (S/F: Eusyllinae (Annélide Polychète). J Ultrastruct Res 58:210–217. doi:10.1016/S0022-5320(77)90033-8
Bocquet M, Dhainaut-Courtois N (1973) Structure fine de l’organe photorécepteur des Syllidae (Annélides polychètes). I. Étude chez la souche et le stolon parvenu a maturité sexuelle. J Microsc 18:207–230
Brandenburger JL, Eakin RM (1981) Fine structure of ocelli in larvae of an archiannelid, Polygordius cf. appendiculatus. Zoomorphology 99:23–36. doi:10.1007/BF00310352
Colgan DJ, Hutchings PA, Braune M (2006) A multigene framework for polychaete phylogenetic studies. Org Divers Evol 6:220–235. doi:10.1016/j.ode.2005.11.002
Dorsett DA, Hyde R (1968) The fine structure of the lens and photoreceptors of Nereis virens. Z Zellforsch 85:243–255. doi:10.1007/BF00325039
Eakin RM (1963) Lines of evolution in photoreceptors. In: Mazia D, Tyler A (eds) General physiology of cell specialization. McGraw Hill, New York, pp 393–425
Eakin RM (1972) Structure of invertebrate photoreceptors. In: Dartnall HJA (ed) Handbook of sensory physiology, vol VII. Springer, Berlin, pp 625–684
Eakin RM (1982) Continuity and diversity in photoreceptors. In: Westfall JA (ed) Visual cells in evolution. Raven, New York, pp 91–105
Eakin RM, Brandenburger JL (1985) Effects of light and dark on photoreceptors in the polychaete annelid Nereis limnicola. Cell Tissue Res 242:613–622. doi:10.1007/BF00225427
Eakin RM, Hermans CO (1988) Eyes. In: Westheide W, Hermans CO, The ultrastructure of Polychaeta. Mikrofauna Mar 4: 135–156
Eakin RM, Martin GG, Reed CT (1977) Evolutionary significance of fine structure of archiannelid eyes. Zoomorphologie 88:1–18. doi:10.1007/BF00993301
Ermack TH, Eakin RM (1976) Fine structure of the cerebral and pygidial ocelli in Chone ecaudata (Polychaeta: Sabellidae). J Ultrastruct Res 54:243–260. doi:10.1016/S0022-5320(76)80154-2
Fischer A, Bröckelmann J (1965) Morphology and structural changes in the eye of Platynereis dumerilii (Polychaeta). In: Rohen JW (ed) The structure of the eye II. Symposium. Schattauer, Stuttgart, pp 171–174
Fischer A, Bröckelmann J (1966) Das Auge von Platynereis dumerilii (Polychaeta). Sein Feinbau im adaptiven und ontogenetischen Wandel. Z Zellforsch 71:217–244. doi:10.1007/BF00335748
Gehring WJ (2001) The genetic control of eye development and its implications for the evolution of the various eye-types. Zoology 104:171–183. doi:10.1078/0944-2006-00022
Gehring WJ (2005) New perspectives on eye development and the evolution of eyes and photoreceptors. J Heridity 96:171–184. doi:10.1093/jhered/esi027
Glasby CJ, Hutchings PA, Fauchald K, Paxton H, Rouse GW, Watson Russell C, Wilson RS (1999) Class Polychaeta. In: Beesly, PL, Ross GJB, Glasby CJ (eds) Polychaetes and allies: The southern synthesis. Fauna of Australia. 4A Polychaeta, Myzostomida, Pogonophora, Echiura, Sipuncula. CSIRO, Melbourne, pp 1–296
Gustafson G (1930) Anatomische Studien über die Polychaeten Familien Amphinomidae und Euphrosynidae. Zool Bidr Uppsala 12:305–471
Hartmann-Schröder G (1996) Annelida, Borstenwürmer, Polychaeta. Gustav Fischer, Jena, pp 1–648
Harzsch S, Melzer R (2006) Introduction: origin and evolution of arthropod visual systems. Arthropod Struct Dev 35:209–210. doi:10.1016/j.asd.2006.10.001
Haszprunar G (1996) The Mollusca: Coelomate turbellarians or mesenchymate annelids? In: Taylor J (ed) Origin and evolutionary radiation of the Mollusca. Oxford University, Oxford, pp 1–28
Heimler W (1983) Untersuchungen zur Larvalentwicklung von Lanice conchilega (Pallas) 1766 (Polychaeta, Terebellomorpha). Teil III: Bau und Struktur der Aulophora-Larve. Zool Jb Anat 111:411–478
Hermans CO, Cloney RA (1966) Fine structure of the prostomial eyes of Armandia brevis (Polychaeta: Opheliidae). Z Zellforsch 72:583–596. doi:10.1007/BF00319262
Hermans CO, Eakin RM (1974) Fine structure of the eyes of an alciopid polychaete, Vanadis formosa. Z Morphol Tiere 79:245–267
Hoffmann S, Hausen H (2007) Chaetal arrangement in Orbiniidae (Annelida, Polychaeta) and its significance for systematics. Zoomorphology 126:215–227. doi:10.1007/s00435-007-0042-4
Holborow PL, Laverack MS (1972) Presumptive photoreceptor structures of the trochophore of Harmothoe imbricata (Polychaeta). Mar Behav Physiol 1:139–156
Lacalli T (1988) Structural correlates of photoresponse in trochophore larvae. Can J Zool 66:1004–1006. doi:10.1139/z88-217
Marsden JR, Hsieh J (1987) Ultrastructure of the eye spot in three polychaete trochophore larvae (Anneldia). Zoomorphology 106:361–368. doi:10.1007/BF00312259
Nicolas MT, Bassot J-M (1984) La lentille à paracristaux de réticulum endoplasmique chez les Aphroditiens (Annélides, Polychètes). In: Clement P, Ramousse R (eds) La vision chez les invertébrés CNRS, Paris, pp 99–102
Pietsch A, Westheide W (1985) Ultrastructural investigations of presumed photoreceptors as a means of species discrimination and identification of closely related species of the genus Microphthalmus (Polychaeta, Hesionidae). Zoomorphology 105:256–276. doi:10.1007/BF00311969
Plachetzki DC, Serb JM, Oakley TH (2005) New insights into the evolutionary history of photoreceptor cells. Trends Ecol Evol 20:465–467. doi:10.1016/j.tree.2005.07.001
Pleijel F (1998) Phylogeny and classification of Hesionidae (Polychaeta). Zool Scr 27:89–163. doi:10.1111/j.1463-6409.1998.tb00433.x
Purschke G (1992) Ultrastructural investigations of presumed photoreceptive organs in two Saccocirrus species (Polychaeta, Saccocirridae). J Morphol 211:7–21. doi:10.1002/jmor.1052110103
Purschke G (2003) Ultrastructure of phaosomous photoreceptors in Stylaria lacustris (Naididae, “Oligochaeta”, Clitellata) and their importance for the position of the Clitellata in the phylogenetic system of the Annelida. J Zool Syst Evol Res 41:100–108. doi:10.1046/j.1439-0469.2003.00203.x
Purschke G (2005) Sense organs in polychaetes (Anneldia). Hydrobiologia 535/536:53–78. doi:10.1007/s10750-004-4358-5
Purschke G, Arendt D, Hausen H, Müller MCM (2006) Photoreceptor cells and eyes in Annelida. Arthropod Struct Dev 35:211–230. doi:10.1016/j.asd.2006.07.005
Rhode B (1990) Eye structure of Ophryotrocha puerilis (Polychaeta: Dorvilleidae). J Morphol 205:147–154. doi:10.1002/jmor.1052050203
Rhode B (1991) Ultrastructure of prostomial receptors in four marine polychaete species (Annelida). J Morphol 209:177–188. doi:10.1002/jmor.1052090205
Rhode B (1992) Development and differentiation of the eye in Platynereis dumerilii (Annelida, Polychaeta). J Morphol 212:71–85. doi:10.1002/jmor.1052120108
Rhode B (1993) Larval and adult eyes in Capitella spec. I (Annelida, Polychaeta). J Morphol 217:327–335. doi:10.1002/jmor.1052170307
Rouse GW, Fauchald K (1997) Cladistics and polychaetes. Zool Scr 26:139–204. doi:10.1111/j.1463-6409.1997.tb00412.x
Rouse GW, Pleijel F (2001) Polychaetes. Oxford University, New York
Rousset V, Pleijel F, Rouse GW, Erséus C, Siddall ME (2007) A molecular phylogeny of annelids. Cladistics 23:41–63. doi:10.1111/j.1096-0031.2006.00128.x
Salvini-Plawen Lv (1982) On the polyphyletic origin of photoreceptors. In: Westfall JA (ed) Visual cells in evolution. Raven, New York, pp 137–154
Salvini-Plawen Lv, Mayr E (1977) On the evolution of eyes and photoreceptors. In: Hecht MK, Sterre WC, Wallace B (eds) Evolutionary biology. Plenum, New York, pp 207–263
Schlötzer-Schrehardt U (1986) Ultrastructural investigation of the nuchal organ of Pygospio elegans (Polychaeta). I. Larvalt nuchal organs. Helgolander Meeresunters 40:397–417. doi:10.1007/BF01983820
Schlötzer-Schrehardt U (1987) Ultrastructural investigation of the nuchal organ of Pygospio elegans (Polychaeta). II. Adult nuchal and dorsal organs. Zoomorphology 107:169–179. doi:10.1007/BF00312310
Sensenbaugh T, Franzen Å (1987) Fine structural observations of the apical organ in the larva of Polygordius (Annelida: Polychaeta). Scanning Microsc 1:181–189
Singla CL (1975) Ultrastructure of the eyes of Arctonoë vittata Grube (Polychaeta, Polynoidae). J Ultrastruct Res 52:333–339. doi:10.1016/S0022-5320(75)80073-6
Spies RB (1975) Structure and function of the head in flabelligerid polychaetes. J Morphol 147:187–208. doi:10.1002/jmor.1051470206
Struck TH, Schult N, Kusen T, Hickman E, Bleidorn C, McHugh D, Halanych KM (2007) Annelid phylogeny and the status of Sipuncula, Echiura and Siboglinidae. BMC Evol Biol 7(57):1–11
Struck TH, Nesnidal MP, Purschke G, Halanych KM (2008) Detecting possibly saturated positions in 18S and 28S sequences and their influence on phylogenetic reconstruction of Annelida (Lophotrochozoa). Mol Phylogenet Evol 48:628–645. doi:10.1016/j.ympev.2008.05.015
Vanfleteren JR (1982) A monophyletic line of evolution? Ciliary induced photoreceptor membranes. In: Westfall JA (ed) Visual cells in evolution. Raven, New York, pp 107–136
Verger-Bocquet M (1977) Ultrastructure de l’organe photorépteur d’Atuolytus pictus (Annélide Polychète). Formation de l’oeil du stolon. Biol Cell 30:65–72
Verger-Bocquet M (1979) Modifications ultrastructurales observées lors de l’involution de l’oeil du stolon d’Atuolytus pictus (Annélide Polychète). J Ultrastruct Res 67:243–254. doi:10.1016/S0022-5320(79)80025-8
Verger-Bocquet M (1983) Les organes photorécepteurs des syllidiens (Annélides Polychètes). Ann Biol 22:169–185
Verger-Bocquet M (1992) Polychaeta: sensory structures. In: Harrison FW, Gardiner SL (eds) Microscopic anatomy of invertebrates. 7. Annelida. Wiley-Liss, New York, pp 181–196
Warrant EJ, Nilsson D-E (2006) Invertebrate vision. Cambridge University, Cambridge, 570 pp
Westheide W (1997) The direction of evolution within Polychaeta. J Nat Hist 31:1–15. doi:10.1080/00222939700770011
Whittle AC, Golding DW (1974) The fine structure of prostomial photoreceptors in Eulalia viridis (Polychaeta: Annelida). Cell Tissue Res 165:379–398
Wilkens V, Purschke G (2008) Central nervous system and sense organs with special reference to photoreceptor-like sensory elements in Polygordius appendiculatus (Annelida), an interstitial polychaete with uncertain phylogenetic affinities. Inv Biol DOI: 10.1111/j.1744-7410.2008.00145.x
Wolken JJ, Florida RG (1984) The eye structure of the bioluminescent fireworm of Bermuda, Odontosyllis enopla. Biol Bull 166:260–268. doi:10.2307/1541447
Zahid ZR, Golding DW (1974) Structure and ultrastructure of the central nervous system of the polychaete Nephtys, with special reference to photoreceptor elements. Cell Tissue Res 149:567–576. doi:10.1007/BF00223033
Zavarzina EG (1987) New data on photoreceptor structure in Ophryotrocha dimorphica (Polychaeta, Eunicida). Dokl Acad NAUK SSSR 294:224–227 (in Russian)
Acknowledgments
We are grateful to K. Etzold, A. Paul, A. Ritz and W. Mangerich for various kinds of technical assistance. Support in many ways by the head of the zoology department, Professor A. Paululat, is gratefully acknowledged. We thank Dr. D. Arendt, EMBL, Heidelberg, Germany, and Dr. H. Hausen, Free University Berlin, for discussions and use of unpublished information. The study was financed by a grant of the DFG in the deep phylogeny programme (Pu 84/3-1).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Suschenko, D., Purschke, G. Ultrastructure of pigmented adult eyes in errant polychaetes (Annelida): implications for annelid evolution. Zoomorphology 128, 75–96 (2009). https://doi.org/10.1007/s00435-008-0075-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00435-008-0075-3