Eur. J. Entomol. 101 (4): 565-575, 2004 | DOI: 10.14411/eje.2004.080

Evolution of proboscis musculature in Lepidoptera

Harald W. KRENN1, Niels P. KRISTENSEN2
1 Institut für Zoologie, Universität Wien, Althanstraße 14, A-1090, Vienna, Austria; e-mail: Harald.Krenn@univie.ac.at
2 Zoologisk Museum, University of Copenhagen, Universitetsparken 15, DK-2100 Copenhagen OE, Denmark; e-mail: npkristensen@zmuc.ku.dk

The suctorial proboscis of adult Lepidoptera represents a key morphological innovation that enabled these insects to gain access to new food sources. In the ancestral condition of the lepidopteran proboscis only extrinsic galeal muscles are present in the basal joint region. The presence of additional muscles (i.e., the intrinsic galeal muscles) is regarded as a morphological novelty of the Myoglossata that evolved after the galeae were modified to form suctorial mouthparts. The present comparative investigation of the galeal anatomy in representatives of all major taxa revealed that the intrinsic galeal muscles are derived from the basal galeal musculature. In the examined Neopseustoidea, Exoporia, Nepticuloidea, Incurvarioidea, and Tischerioidea all galeal muscles have their origin in the stipes-galea joint and/or in the proximal region of the galea. Two muscle units form the basal galeal musculature of the joint region and one to three longitudinal muscles extend into the galea lumen. Multiple intrinsic galeal muscles, of which both the origin and attachment sites are markedly distal from the basal joint region are regarded as a groundplan autapomorphy of the Ditrysia. Some slightly oblique muscles may occur along the lateral wall; these were lost in species with extremely slender galeae. In most investigated Obtectomera two series of intrinsic galeal muscles occur; these are the (1) oblique lateral intrinsic galeal muscles, which are arranged one upon the other along the lateral proboscis wall and (2) the median intrinsic galeal muscles, which run more or less longitudinally along the ventral wall. Oblique muscle arrangement probably evolved in concert with the functional demands of a long lepidopteran proboscis. A likely evolutionary pathway to account for the serial arrangement of galeal muscles is proposed.

Keywords: Mouthparts, proboscis, musculature, evolution, morphological innovation, Lepidoptera

Received: December 10, 2003; Revised: September 27, 2004; Accepted: October 4, 2004; Published: December 20, 2004  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
KRENN, H.W., & KRISTENSEN, N.P. (2004). Evolution of proboscis musculature in Lepidoptera. EJE101(4), 565-575. doi: 10.14411/eje.2004.080
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. BANZIGER H. 1970: The piercing mechanism of the fruit-piercing moth Calpe [Calyptra] thalictri Bkh. (Noctuidae) with reference to the skin-piercing blood-sucking moth C. eustrigata Hmps. Acta Trop. 27: 53-87
    2. CHAUVIN G. & FAUCHEUX M. 1981: Les pieces buccales et leurs recepteurs sensoriels chez l'imago de Micropterix calthella L. (Lepidoptera: Micropterigidae). Int. J. Insect. Morphol. Embryol. 10: 425-439 Go to original source...
    3. DAVIS D.R. & GENTILI P. 2003: Andesianidae, a new family of monotrysian moths (Lepidoptera: Andesianoidea) from austral South America. Invert. Syst. 17: 15-26 Go to original source...
    4. EASTHAM L.E.S. & EASSA Y.E.E. 1955: The feeding mechanism of the butterfly Pieris brassicae L. Philos. Trans. R. Soc. Lond. (B) (Biol. Sci.) 239: 1-43 Go to original source...
    5. FANGER H. 1999: Comparative morphology of tergal phragmata occurring in the dorsal thoraco-abdominal junction of ditrysian Lepidoptera (Insecta). Zoomorphology 119: 163-183 Go to original source...
    6. HANNEMANN H.J. 1956: Die Kopfmuskulatur von Micropteryx calthella (L.) (Lep.). Morphologie und Funktion. Zool. Jb. Abt. Anat. 75: 177-206
    7. KRENN H.W. 1990: Functional morphology and movements of the proboscis of Lepidoptera (Insecta). Zoomorphology 110: 105-114 Go to original source...
    8. KRENN H.W. 2000: Proboscis musculature in the butterfly Vanessa cardui (Nymphalidae, Lepidoptera): settling the proboscis recoiling controversy. Acta Zool. (Stockholm) 81: 259-266 Go to original source...
    9. KRENN H.W., ZULKA K.P. & GATSCHNEGG T. 2001: Proboscis morphology and food preferences in Nymphalidae (Lepidoptera, Papilionoidea). J. Zool. (London) 253: 17-26 Go to original source...
    10. KRENN H.W. & KRISTENSEN N.P. 2000: Early evolution of the proboscis of Lepidoptera (Insecta): external morphology of the galea in basal glossatan moths lineages, with remarks on the origin of the pilifers. Zool. Anz. 239: 179-196
    11. KRENN H.W. & MUHLBERGER N. 2002: Groundplan anatomy of the proboscis of butterflies (Papilionoidea, Lepidoptera). Zool. Anz. 241: 369-380 Go to original source...
    12. KRISTENSEN N.P. 1968: The anatomy of the head and the alimentary canal of adult Eriocraniidae (Lep., Dacnonypha). Entomol. Meddr. 36: 239-293
    13. KRISTENSEN N.P. 1984: Studies on the morphology and systematics of primitive Lepidoptera (Insecta). Steenstrupia 10: 141-191
    14. KRISTENSEN N.P. (ed.) 1998: Lepidoptera: Moths and Butterflies 1. Handbook of Zoology IV, 35. De Gruyter, Berlin & New York
    15. KRISTENSEN N.P. 2000: Inventory and cladistics of non-ditrysian moths: some recent advances. XXI International Congress of Entomology, Brazil, August 20-26, 2000. Abstract Book 1, p. 932
    16. KRISTENSEN N.P. & NIELSEN E.S. 1979: A new subfamily of micropterigid moths from South America. A contribution to the morphology and phylogeny of the Micropterigidae, with a generic catalogue of the family (Lepidoptera: Zeugloptera). Steenstrupia 5(7): 69-147
    17. KRISTENSEN N.P. & NIELSEN E.S. 1981a: Intrinsic proboscis musculature in non-ditrysian Lepidoptera-Glossata: Structure and phylogenetic significance. Entomol. Scand. (Suppl.) 15: 299-304
    18. KRISTENSEN N.P. & NIELSEN E.S. 1981b: Double-tube proboscis configuration in Neopseustid moths (Lepidoptera: Neopseustidae). Int. J. Insect Morphol. Embryol . 10: 483-486 Go to original source...
    19. KRISTENSEN N.P. & SKALSKI A.W. 1998: Phylogeny and palaeontology. In Kristensen N.P. (ed.): Lepidoptera: Moths and Butterflies 1. Handbook of Zoology IV, 35. De Gruyter, Berlin & New York, pp. 7-25 Go to original source...
    20. MINET J. 1991: Tentative reconstruction of the ditrysian phylogeny (Lepidoptera: Glossata). Entomol. Scand. 22: 69-95 Go to original source...
    21. NIELSEN E.S. & KRISTENSEN N.P. 1989: Primitive ghost moths. Morphology and taxonomy of the Australian genus Frauns Walker (Lepidoptera: Hepialidae s. lat.). Monographs on Australian Lepidoptera 1. CSIRO, Melbourne, 206 pp Go to original source...
    22. NIELSEN E.S. & KRISTENSEN N.P. 1996: The Australian moth family Lophocoronidae and the basal phylogeny of the Lepidoptera-Glossata. Invert. Taxon. 10: 1199-1302 Go to original source...
    23. PERNSTICH A., KRENN H.W. & PASS G. 2003: Method for preparation of serial sections of arthropods using 2,2-Dimethoxypropane dehydration and epoxy resin embedding under vacuum impregnation. Biotechnic. Histochem. 78: 1-5 Go to original source...
    24. PHILPOTT A. 1927: The maxillae in the Lepidoptera. Trans. N. Z. Inst. 57: 721-746
    25. PRADHAN S. & AREN N.S. 1941: Anatomy and musculature of the mouth-parts of Scirophaga nivella (Pyralidae), with a discussion on the coiling and uncoiling mechanisms of the proboscis in Lepidoptera. Indian J. Entomol. 3: 179-195
    26. SCOBLE M.J. 1992: The Lepidoptera: Form, Function and Diversity. Natural History Museum Publications, Oxford University Press, xi + 404 pp
    27. TILLYARD R.J. 1923: On the mouthparts of the Micropterygoidea (Lep.). Trans. Entomol. Soc. Lond. 1923: 181-206
    28. VASUDEVA S. 1956: Studies on the morphology of the common Lemon Butterfly Papilio demoleus demoleus L. J. Zool. Soc. India 8: 211-234
    29. WANNENMACHER G. & WASSERTHAL L.T. 2003: Contribution of the maxillary muscles to proboscis movement in hawkmoths (Lepidoptera: Sphingidae) - an electrophysiological study. J. Insect Physiol. 49: 765-776 Go to original source...
    30. WIEGMANN B.M., REGIER J.C. & MITTER C. 2002: Combined molecular and morphological evidence on phylogeny of the earliest lepidopteran lineages. Zool. Scripta 31: 67-81 Go to original source...

    This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0), which permits use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content