Abstract
The chemical defense secretions of major and minor soldiers of over 18 colonies of the primitive glue-squirting nasute termiteLongipeditermes longipes (Isoptera, Termitidae, Nasutitermitinae) were analyzed chormatographically. The colonies, collected from four rainforest sites in peninsular Malaysia, showed monoterpene patterns rich in pinenes and limonene but with few quantitative differences between colonies. In marked contrast, the diterpene chemistry is high variable, and includes tricyclic (trinervitane), tetracyclic (rippertane), bicyclic (secotrinervitane), and a new spirotetracyclic (longipane) skeleton. Three new natural products are included in this remarkable and unprecedented example of structural diversity among different colonies of a single species.
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Baker, R., andWalmsley, S. 1982. Soldier defense secretions of the South American termitesCortaritermes silvestri, Nasulitermes sp. ND andNasutitermes kemneri.Tetrahedron 38:1899–1910.
Bentley, B.L.,Prestwich, G.D., andGush, T. 1982. Trees from glue: Chemical biogeography of nasute termites, pp. 401–402.in M.D. Breed, C.D. Michener, and H.E. Evans (eds.). The Biology of Social Insects, Westview Press.
Birch, A.J., Brown, W.V., Corrie, J.E.T., andMoore, B.P. 1972. Neocembrene-A, a termite trail pheromone.J. Chem. Soc. Perkin I 00:2653–2658.
Braekman, J.C., Daloze, D., Dupont, A., Pasteels, J., Tursch, B., Declerq, J.P., Germain, G., andVan Meersche, M. 1980. Secotrinervitane, a novel bicyclic diterpene skeleton.Tetrahedron Lett. 21:2761–2762.
Braekman, J.C.,Daloze, D.,Dupont, A.,Pasteels, J.M.,Lefeuve, P.,Bordereau, C.,DeClerq, J.P., andvan Meerssche, M. 1983. Chemical composition of the frontal gland secretion from soliders ofNasutitermes lujae (Termitidae, Nasutitermitinae)Tetrahedron In press.
Chuah, C.C.,Goh, S.H.,Prestwich, G.D., andTho, Y.P. 1982. Soldier defense secretion of the Malaysian termiteHospitalitermes umbrinus. J. Chem. Ecol. In press.
Dupont, A., Braekman, J.C., Daloze, D., Pasteels, J.M., andTursch, B. 1981. Chemical composition of the frontal gland secretions from neo-Guinean nasute termite soldiers.Bull. Chim. Soc. Belges 90:485–499.
Eisner, T., Kriston, I., andAneshansley, D.J. 1976. Defensive behavior of a termite (Nasutitermes exitiosus).Behav. Ecol. Sociobiol. 1:83–125.
Emerson, A.E. 1961. Vestigial characters of termites and processes of regressive evolution.Evolution 15:115–131.
Goh, S.H., Tong, S.L., andTho, Y.P. 1982. Gas chromatography-massspectrometry analysis of termite defense secretions in the subfamily Nasutitermitinae.Mikrochim. Acta 1:219–229.
Gush, T. 1983. Chemical variation in the defensive secretion of four species of Nasutitermes (Isoptera, Termitidae). MSc thesis, State University of New York, Stony Brook, New York. 51 pp.
Hrdý, I.,Křeček. J., andVrkoc, J. 1977. Biological activity of soldier secretions of the termitesNasutitermes rippertii, N. costalis,and Prorhinotermes simplex. Proc. 8th Int. Congr. I.U.S.S.I. (Wageningen), p. 303.
Patt, S.L., andShoolery, J. 1982. The attached proton test for carbon-13 NMR.J. Magn. Reson. 56:535–539.
Prestwich, G.D. 1978. Isotrinervi-2β-ol: Structural isomers in the defense secretions of allopatric populations of the termiteTrinervitermes gratiosus.Experienta 34:682–684.
Prestwich, G.D. 1979a. Chemical defense by termite soldiers.J. Chem. Ecol. 5:459–480.
Prestwich, G.D. 1979b. Interspecific variation in the defense secretions ofNasutitermes soldiers.Biochem. Syst. Ecol. 7:211–221.
Prestwich, G.D. 1979c. Defense secretion of the black termiteGrallatotermes africanus.Insect Biochem. 9:563–567.
Prestwich, G.D. 1979d. Termite chemical defenses: New natural products and chemosystematics.Sociobiology 4:127–140.
Prestwich, G.D. 1982. From tetracycles to macrocycles. Chemical diversity in the defense secretions of nasute termites.Tetrahedron 38:1911–1919.
Prestwich, G.D. 1983. Chemical systematics of termite exocrine secretions.Annu. Rev. Ecol Syst. 14:287–301.
Prestwich, G.D. 1984. Defense mechanisms of termites.Annu. Rev. Entomol. 29:201–232.
Prestwich, G.D., andChen, D. 1981. Soldier defense secretions ofTrinervitermes bettonianus: Chemical variation in allopatric populations.J. Chem. Ecol. 7:147–157.
Prestwich, G.D., andCollins, M.S. 1981. Chemotaxonomy ofSubulitermes andNasutitermes termite soldier defense secretions. Evidence against the hypothesis of diphyletic evolution of Nasutitermitinae.Biochem. Syst. Ecol. 9:83–90.
Prestwich, G.D., Spanton, S.G., Lauher, J.W., andVrkoč, J. 1980. Structure of 3α-hydroxy-15-rippertene. Evidence for 1,2-methyl migration during biogenesis of a tetraeyclic diterpene in termites.J. Am. Chem. Soc. 102:6825–6828.
Prestwich, G.D., Jones, R.W., andCollins, M.S. 1981a. Terpene biosynthesis by nasute termite soldiers (Isoptera, Nasutitermitinae).Insect Biochem. 11:331–334.
Prestwich, G.D., Spanton, S.G., Goh, S.H., andTho, Y.P. 1981b. New tricyclic diterpene propionate esters from a termite soldier defense secretion.Tetrahedron Lett. 22:1563–1566.
Prestwich, G.D., Goh, S.H., andTho, Y.P. 1981c. Termite soldier chemotaxonomy. A new diterpene from the Malaysian nasute termiteBulbitermes singaporensis.Experientia 37:11–12.
Vrkoč, J., Budešińsky, M., andSedmera, P. 1978a. Structure of trinervitene diterpenoids fromNasutitermes rippertii.Collect. Czech. Chem. Commun. 43:1125–1133.
Vrkoč, J., Budešińsky, M., andSedmera, P. 1978b. Structure of 2α,3α-dihydroxy- and 2α, 3β- dihydroxy-1(15),8(19)-trinervitadienes fromNasutitermes costalis.Collect. Czech. Chem. Commun. 43:2478–2489.
Wiemer, D.F., Meinwald, J., Prestwich, G.D., andMiura, I. 1979. Cembrene-A and 3Z-cembrene-A: Diterpenes from a termite soldier (Isoptera, Termitinae).J. Org. Chem. 44:3950–3952.
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Fellow of the Alfred P. Sloan Foundation (1981–85) and Camille and Henry Dreyfus Teacher-Scholar (1981–86).
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Goh, S.H., Chuah, C.H., Tho, Y.P. et al. Extreme intraspecific chemical variability in soldier defense secretions of allopatric and sympatric colonies ofLongipeditermes longipes . J Chem Ecol 10, 929–944 (1984). https://doi.org/10.1007/BF00987974
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DOI: https://doi.org/10.1007/BF00987974