Browse > Article

Further Evidence for the Role of Cantharidin in the Mating Behaviour of Blister Beetles (Coleoptera: Meloidae)  

Nikbakhtzadeh, Mahmood Reza (Department of Medical Parasitology & Entomology, Tarbiat Modares University)
Hemp, Claudia (Department of Animal Ecology II, University of Bayreuth)
Ebrahimi, Babak (Department of Entomology, The Ohio State University)
Publication Information
Animal cells and systems / v.11, no.2, 2007 , pp. 141-146 More about this Journal
Abstract
Cantharidin is produced by blister beetles (Coleoptera: Meloidae) and smaller oedemerid beetles (Coleopetra: Oedemeridae) and is found in hemolymph and various tissues. The function of cantharidin in the courtship behaviour of meloids had never been fully established. Our studies show a correlation between density of cuticular pores and cantharidin titre of the scape and pedicel segments of male specimens of the East African species of Epicauta nyassensis (Haag-Rutenberg, 1880) (Coleoptera: Meloidae). Light microscopy of semi-thin cross sections of the male scape and pedicel indicates that there are many canal shaped structures that stretch from the antennal hemolymph to the antennomere surface. These structures may be tubules, which transport cantharidin circulating in the hemolymph to the surface, where the compound can be released via cuticular pore openings. Analyses of the head capsule and antennal segments of E. nyassensis females which had been copulated with males revealed low titre of cantharidin in the first two antennal segments. The density of the scape and pedicel pores of females was to some extent higher than the density of these pores on flagellum; however it was considerably lower than that of the males. Interestingly, no tubular cell or other transport structures were found in the cross sectioning of the female antennomeres or on the integument surface. During mating, male antennomeres, as well as cantharidin containing pores which are located on the $1^{st}\;and\;2^{nd}$ antennomeres, come into direct contact with the female antennae and may release cantharidin to their surface. Female E. nyassensis may be able to discriminate the opposite sex with abundant reserves of cantharidin prior to mating. This is another evidence that cantharidin function in close range sexual selection.
Keywords
Meloidae; blister beetle; Epicauta nyassensis; cantharidin; cuticular pore; sexual selection;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Bin F, Isidoro N and Romani R (1999) Antennal structures of Hymenoptera: Sensilla or glands? Atti dell Accademia Nazionale Italiana di Entomologia Rendiconti XLVII: 251-263
2 Frenzel M and Dettner K (1994) Quantification of cantharidin in canthariphilous Ceratopogonidae (Diptera), Anthomyiidae (Diptera) and cantharidin producing Oedemeridae (Coleoptera). J Chem Ecol 20: 1795-1812   DOI   ScienceOn
3 Gerber GH, Curch NS and Rempel JG (1971) The structure, formation, histochemistry, fate, and formations of the spermatophore of Lytta nuttalli Say (Coleoptera: Meloidae). Can J Zool 49: 1595-1610   DOI
4 Isidoro N, Romani R, Velasquez D, Renthal R, Bin F and Vinson SB (2000) Antennal glands in queen and worker of the fire ant, Solenopsis invicta Buren: first report in female social Aculeata (Hymenoptera: Formicidae). Insectes Soc 47: 236-240   DOI   ScienceOn
5 Pinto JD (1975) Intra and interspecific courtship bahaviour in blister beetles of the Genus Tegrodera (Meloidae). Ann Etomol Soc Am 68: 275-284   DOI
6 Carrel JE, McCairel MH, Slagle AJ, Doom JP, Brill J and McCormick JP (1993) Cantharidin production in a blister beetle. Experientia 49: 171-174   DOI   ScienceOn
7 Pinto JD (1974) Courtship behaviour in Linsleya compressicornis and its taxonomic significance. Pan Pac Entomol 50: 1-8
8 Adam H and Czihak G (1964) Arbeitsmethoden, der makroskopischen und mikroskopischen Anatomie. Gustav Fischer Verlag, Stuttgart, 583 pp
9 Snead JS and Alcock J (1985) Aggregation formation and assortative mating in two meloid beetles. Evolution 39: 1123-1131   DOI   ScienceOn
10 Holz C, Streil G, Dettner K, Diitemeyer J and Boland W (1994) Intersexual transfer of a toxic terpenoid during copulation and its parental allocation to developmental stages: Quantification of cantharidin in cantharidin-producing oedemerids (Coleoptera: Oedemeridae) and canthariphilous pyrochroids (Coleoptera: Pyrochroidae). Z Naturforsch 49c: 856-864
11 Hemp C, Hemp A and Dettner K (1999) Attraction of the colour beetle species Pallenothriocera rufimembris by cantharidin (Cleridae: Coleoptera). Entomol Gener 24: 115-123   DOI
12 Sierra Jr, Woggon WD and Schmidt H. (1976) Transfer of cantharidin during copulation from the adult male to the female Lytta vesicatoria (Spanish flies). Experientia 32: 142-144   DOI
13 Singh P and Moore RF (1985) Handbook ofInsect Rearing. Vol 1. Elsevier Publications, Amsterdam, 488 pp
14 Dettner K. (1997) Inter and intraspecific transfer of toxic insect compound cantharidin. In: Dettner K, Bauer G, and Volkl W (eds), Vertical Food Web Interactions, Springer Verlag, Berlin, pp 115-145
15 Eisner T, Smedley SR, Young DK, Eisner M, Roach B and Meinwald J (1996a) Chemical basis of courtship in a beetle (Neopyrochroa flabellate): Cantharidin as precopulatory enticing agent. Proc Natl Acad Sci 93: 6494-6498
16 Eisner T, Smedley SR, Young DK, Eisner M, Roach B and Meinwald J (1996b) Chemical basis of courtship in a beetle (Neopyrochroa flabellate): Cantharidin as nuptial gift. Proc Natl Acad Sci 93: 6499-6503
17 Frenzel M, Dettner K, Wirth D, Waibel J and Boland W (1992) Cantharidin analogues and their attractancy for ceratopogonid flies (Diptera: Ceratopogonidae). Experientia 48: 106-111   DOI
18 Sch${tz C and Dettner K. (1992) Cantharridin secretions by elytral notches of male Anthicid species (Coleoptera: Anthicidae). Z Naturforsch 47C: 290-299
19 Nikbakhtzadeh MR (2004) Transfer and distribution of cantharidin within selected members of blister beetles (Coleoptera: Meloidae) and its probable importance in sexual behaviour. Dissertation zur Erlangung des Doktorgrades der Naturwissenschaften an der Fakultat fur Biologie, Chemie und Geowissenschaften der Universitat Bayreuth. Bayreuth. 105 pp
20 Selander RB (1986) Rearing blister beetles. Insecta Mundi 1: 209-220
21 Wcislo WT (1998) Sexual dimorphism of wasp antenna1 structure in relation to parasitic and non-parasitic behaviour (Hymenoptera: Sphecidae). J Hym Res 7: 178-181
22 Carrel JE, Doom JP and McCormick JP (1986) Identification of cantharidin in false blister beetles (Coleoptera. Meloidae) From Florida. J Chem Ecol 12: 741-747   DOI
23 McCormick JP and Carrel J.E. (1987) Cantharidin biosynthesis and function in meloid beetles. In: Prestwitch GD and Blomquist GJ (eds), Pheromone Biochemistry, Academic Press, Orlando, pp 307-350
24 Dixon AFG, Martin-Smith M and Smith SJ (1963) Isolation of cantharidin from Meloe proscarabeus. Can Pharmacol J 29: 501-503