Abstract
Coleoptera of at least three taxa in the Nemognathini (Meloidae) possess mouthparts that are specialized for nectar feeding from flowers with a deep corolla. Parts of the maxillae are modified to form an elongate proboscis-like organ. In Leptopalpus species, the four-segmented maxillary palps form the proboscis, whereas in Nemognatha and Gnathium species, the elongated galeae enable nectar feeding. With the use of scanning electron microscopy and micro computerized tomography, the present study clearly demonstrated that neither of the two kinds of proboscides possesses a median food canal. The filiform galeae of Nemognatha and Gnathium species are densely covered with long bristles; in Gnathium species the tip bears conspicuous sensilla. Nectar uptake is probably accomplished by capillarity along the bristles of the proboscis and is enhanced by the cibarial and pharyngeal musculature. The investigation of Leptopalpus species revealed a muscular valve-like structure in the head that probably closes the pharynx and could be part of a sucking pump in conjunction with the compressor and dilator muscles of the cibarium and prepharynx. In addition to nectar feeding by means of the maxillae, these Coleoptera feed on pollen using their mandibles. Morphological and anatomical results yield new insights into the functional aspects of proboscides in nectar-feeding Meloidae that probably evolved at least two times convergently, that is, by elongation of the maxillary palps or the galeae.
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Barth FG (1991) Insects and flowers. The biology of partnership. Princeton University Press, Princeton New Jersey
Bernhardt P (2000) Convergent evolution and adaptive radiation of beetle-pollinated angiosperms. Plant Syst Evol 222:293–320
Berríos-Ortiz A (1986) Musculature of adult Epicauta segmenta (Say) (Coleoptera: Meloidae) part I, Head. J Kansas Entomol Soc 59(1):7–19
Beutel RG (1989) The head of Spanglerogyrus albiventris Folkerts (Coleoptera: Gyrinidae) Contribution towards clarification of the phylogeny of Gyrinidae and Adephaga. Zool Jahrb (Anat) 118:431–461
Beutel RG (2003) 26. Ordnung Coleoptera; Käfer. In Dathe HH (ed) Lehrbuch der speziellen Zoologie Band I: Wirbellose Tiere 5. Teil: Insecta 2. Aufl. Spektrum Akad Verlag, Heidelberg Berlin, pp 426–526
Blumer MJF, Gahleitner P, Narzt T, Handl C, Ruthensteiner B (2002) Ribbons of semithin sections: an advanced method with a new type of diamond knife. J Neurosci Meth 120:11–16
Bologna MA, Pinto JD (2001) Phylogenetic studies of Meloidae (Coleoptera), with emphasis on the evolution of phoresy. Syst Entomol 26:33–72
Bologna MA, Oliverio M, Pitzalis M, Mariottini P (2008) Phylogeny and evolutionary history of the blister beetles (Coleoptera, Meloidae). Mol Phylogenet Evol 48:679–693
Bologna MA, Turco F, Pinto JD (2010) Meloidae Gyllenhal, 1810. In: Leschen RAB, Beutel RG, Lawrence JF (eds) Handbook of zoology. Coleoptera, Beetles, vol. 2: Morphology and Systematics (Elaterioidea; Bostrichiformia, Cucujiformia partim). W. De Gruyter, Berlin, pp 681–693
Bresinsky A, Körner C, Kadereit JW, Neuhaus G, Sonnewald U (2008) Strasburger—Lehrbuch der Botanik. Spektrum Akad Verlag, Heidelberg Berlin
Campau EJ (1940) The morphology of Chauliognathus pennsilvanicus (DeGeer) (Coleoptera: Cantharidae). Microentomology 5(3):57–90
Chaudonneret J (1990) Les pièces buccales des insects: théme et variations. Edition hors Serie du Bulletin Scientifique de Bourgogne, Dijon
Enns WR (1956) A revision of the genera Nemognatha, Zonitis and Pseudozonitis (Coleoptera, Meloidae) in America North of Mexico, with e proposed new genus. U Kansas Sci Bull 37:685–909
Fuchs GV (1974) Die Gewinnung von Pollen und Nektar bei Käfern. Nat Mus 104:45–54
Goldblatt P, Bernhardt P, Manning JC (1998) Pollination of petaloid geophytes by monkey beetles (Scarabaeidae: Rutelinae: Hopliini) in southern Africa. Ann Mo Bot Gard 85:215–230
Handschin E (1929) Ein neuer Rüsseltypus bei einem Käfer. Biologische und morphologische Beobachtungen an Leptopalpus rostratus F. Z Morphol Oekol Tiere 14:513–521
Hentz NM (1830) Remarks on the use of the maxillae in coleopterous insects, with an account of two species of the family Telephoridae, and of three of the family Mordellidae, which ought to be the type of two distinct genera. T Am Philos Soc (N.S.) 3:458–463, pl. 15
Honomichl K (1975) Beitrag zur morphologie des Kopfes der Imago von Gyrinus substriatus Stephens, 1829 (Coleoptera, Insecta). Zool Jahrb (Anat) 94:218–295
Iablokoff-Khnzorian SM (1968) Considérations sur les pièces buccales des Meloidae et leur evolution. L’Entomologiste 24/4:91–99, 117–132
Johnson SA, Nicolson SW (2001) Pollen digestion by flower-feeding Scarabaeidae: protea beetles (Cetoniini) and monkey beetles (Hopliini). J Insect Physiol 47:725–733
Karolyi F, Gorb SN, Krenn HW (2009) Pollen grains adhere to the moist mouthparts in the flower visiting beetle Cetonia aurata (Scarabaeidae, Coleoptera). Arthropod-Plant Interact 3:1–8. doi:10.1007/s11829-008-9052-5
Kaszab Z (1963) Merkmale der adaption, spezialisation, konvergenz, korrelation und progression bei den Meloiden (Coleoptera). Acta Zool Acad Sci Hung 9:135–175
Kéler Sv (1963) Entomologisches Wörterbuch. Akademischer Verlag Berlin
Klausnitzer B (2005) Käfer. Nikol Verlag Hamburg
Krenn HW (2010) Feeding mechanisms of adult Lepidoptera: structure, function and evolution of the mouthparts. Annu Rev Entomol 55:307–327
Krenn HW, Kristensen NP (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
Krenn HW, Plant JD, Szucsich NU (2005) Mouthparts of flower-visiting insects. Arthropod Struct Dev 34:1–40
Krenn HW, Gereben-Krenn BA, Steinwender BM, Popov A (2008) Flower visiting Neuroptera: mouthparts and feeding behaviour of Nemoptera sinuata (Nemopteridae). Eur J Entomol 105:267–277
Labandeira CC (1997) Insects mouthparts: ascertaining the paleobiology of insect feeding strategies. Annu Rev Ecol Syst 28:153–193
Lawrence JF, Falin ZH & Ślipiński A (2010) Ripiphoridae Gemminger and Harold, 1870 (Gerstaecker, 1855). In: Leschen RAB, Beutel RG, Lawrence JF (eds) Handbook of zoology. Coleoptera, Beetles, vol. 2: morphology and systematics (Elaterioidea; Bostrichiformia, Cucujiformia partim). W. De Gruyter, Berlin, pp 538–548
Leschen RAB, Beutel RG, Lawrence JF (eds.) (2010) Handbook of zoology. coleoptera, beetles, vol. 2: morphology and systematics (Elaterioidea; Bostrichiformia, Cucujiformia partim). W. De Gruyter, Berlin
MacSwain JW (1956) A classification of the first instar larvae of the Meloidae (Coleoptera). U Calif Publ Entomol 12:1–128
Matthes D (1991) Die Mundwerkzeuge Nektar saugender und Blütenstaub fressender Käfer. Mikrokosmos 80(11):330–333
Metscher BD (2009a) MicroCT for comparative morphology: simple staining methods allow high-contrast 3D imaging of diverse non-mineralized animal tissues. BMC Physiol 9:11. doi:10.1186/1472-6793-9-11
Metscher BD (2009b) MicroCT for developmental biology: a versatile tool for high-contrast 3D imaging at histological resolutions. Dev Dynam 238:632–640
Pinto JD (2009) A taxonomic review of the genus Gnathium Kirby (Coleoptera: Meloidae). Trans Am Entomol Soc 135:1–58
Pinto JD, Bologna MA (1999) The New World genera of Meloidae (Coleoptera): a key and synopsis. J Nat Hist 33:569–620
Rausher MD, Fowler NL (1979) Intersexual aggression and nectar defense in Chauliognathus distinguendus (Coleoptera: Cantharidae). Biotropica 11(2):96–100
Ren D, Labandeira CC, Santiago-Blay JA, Rasnitsyn A, Shih CK, Bashkuev A, Logan MAV, Hotton CL, Dilcher D (2009) A probable pollination mode before angiosperms: Eurasian long-Proboscid Scorpionflies. Science 326:840–847
Richardson KC, Jarett L, Finke EK (1960) Embedding in epoxy resins for ultrathin sectioning in electron microscopy. Stain Technol 35:313–325
Saxena ON (1953) Musculature of Mylabris pustulatus (Thnb.) (Coleoptera). Agra Univ J Res 2:285–302
Schicha E (1967) Morphologie und Funktion der Malachiiden- Mundwerkzeuge unter besonderer Berücksichtigung von Malachius bipustulatus L. (Coleoptera, Malacodermata). Z Morphol Oekol Tiere 60:367–433
Schneider W (1981) Zur Kopfmorphologie der Imago des Ölkäfers Lytta vesicatoria (Coleoptera: Meloidae). Entomol Gen 7:69–87
Schremmer F (1961) Morphologische Anpassung von Tieren—insbesondere von Insekten-an die Gewinnung von Blumennahrung. Zool Anz Suppl 25:375–401
Snodgrass RE (1928) Morphology and evolution of the insect head and its appendages. Smithson Misc Collect 81(3):1–158
Snodgrass RE (1935) Principles of insect morphology. McGraw-Hill, New York, p 667
Williams IW (1938) The comparative morphology of the mouthparts of the order Coleoptera treated from the standpoint of phylogeny. J New York Entomol Soc 46:245–289
Acknowledgments
We are very grateful to John Pinto (Department of Entomology, University of California), Heinrich Schönmann (Natural History Museum, Vienna), Andreas Link (Vienna) and especially to Mario Garcia-Paris (Museo Nacional de Ciencias Naturales, Madrid) for collecting and/or providing material. We thank Daniela Gruber for her assistance with the SEM, Brian Metscher for accomplishing the MicroCT and John Plant for linguistic help. Two anonymous reviewers gave many valuable comments and suggestions that improved this study.
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Communicated by T. Bartolomaeus.
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Wilhelmi, A.P., Krenn, H.W. Elongated mouthparts of nectar-feeding Meloidae (Coleoptera). Zoomorphology 131, 325–337 (2012). https://doi.org/10.1007/s00435-012-0162-3
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DOI: https://doi.org/10.1007/s00435-012-0162-3