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  • Aharoni A., Giri A.P., Deuerlein S., Griepink F., De Kogel W.J., Verstappen F.W.A., Verhoeven H.A., Jongsma M.A., Schwab W. & Bouwmeester H.J. (2003) Terpenoid metabolism in wild-type and transgenic Arabidopsis plants. The Plant Cell 15, 28662884.
  • Aharoni A., Jongsma M.A. & Bouwmeester H.J. (2005) Volatile science? Metabolic engineering of terpenoids in plants. Trends in Plant Science 10, 594602.
  • Arimura G., Kost C. & Boland W. (2005) Herbivore-induced, indirect plant defences. Biochimica et Biophysica Acta 1734, 91111.
  • Barta C. & Loreto F. (2006) The relationship between the methyl-erythritol phosphate pathway leading to emission of volatile isoprenoids and abscisic acid content in leaves. Plant Physiology 141, 16761683.
  • Bartram S., Jux A., Gleixner G. & Boland W. (2006) Dynamic pathway allocation in early terpenoid biosynthesis of stress-induced lima bean leaves. Phytochemistry 67, 16611672.
  • Blaakmeer A., Geervliet J.B.F., Van Loon J.J.A., Posthumus M.A., Van Beek T.A. & De Groot A. (1994) Comparative headspace analysis of cabbage plants damaged by two species of Pieris caterpillars: consequences for in-flight host location by Cotesia parasitoids. Entomologia Experimentalis et Applicata 73, 175182.
  • Boland W., Gäbler A., Gilbert M. & Feng Z.F. (1998) Biosynthesis of C-11 and C-16 homoterpenes in higher plants; stereochemistry of the C-C-bond cleavage reaction. Tetrahedron 54, 1472514736.
  • Bruinsma M., Van Dam N.M., Van Loon J.J.A. & Dicke M. (2007) Jasmonic acid-induced changes in Brassica oleracea affect oviposition preference of two specialist herbivores. Journal of Chemical Ecology 33, 655668.
  • Buitenhuis R., Vet L.E.M., Boivin G. & Brodeur J. (2005) Foraging behaviour at the fourth trophic level: a comparative study of host location in aphid hyperparasitoids. Entomologia Experimentalis et Applicata 114, 107117.
  • Bukovinszky T., Gols R., Posthumus M.A., Vet L.E.M. & Van Lenteren J.C. (2005) Variation in plant volatiles and attraction of the parasitoid Diadegma semiclausum (Hellen). Journal of Chemical Ecology 31, 461480.
  • Cheng A.X., Lou Y.G., Mao Y.B., Lu S., Wang L.J. & Chen X.Y. (2007) Plant terpenoids: biosynthesis and ecological functions. Journal of Integrative Plant Biology 49, 179186.
  • Copolovici L.O., Filella I., Llusià J., Niinemets Ü. & Peñuelas J. (2005) The capacity for thermal protection of photosynthetic electron transport varies for different monoterpenes in Quercus ilex. Plant Physiology 139, 485496.
  • D'Alessandro M. & Turlings T.C.J. (2006) Advances and challenges in the identification of volatiles that mediate interactions among plants and arthropods. The Analyst 131, 2432.
  • D'Auria J.C., Pichersky E., Schaub A., Hansel A. & Gershenzon J. (2007) Characterization of a BAHD acyltransferase responsible for producing the green leaf volatile (Z)-3-hexen-1-yl acetate in Arabidopsis thaliana. Plant Journal 49, 194207.
  • De Boer J.G. (2004) Bugs in odour space. How predatory mites respond to variation in herbivore-induced plant volatiles. PhD thesis, Wageningen University, the Netherlands.
  • De Boer J.G. & Dicke M. (2004a) The role of methyl salicylate in prey searching behaviour of the predatory mite Phytoseiulus persimilis. Journal of Chemical Ecology 30, 255271.
  • De Boer J.G. & Dicke M. (2004b) Experience with methyl salicylate affects behavioural responses of a predatory mite to blends of herbivore-induced plant volatiles. Entomologia Experimentalis et Applicata 110, 181189.
  • De Boer J.G. & Dicke M. (2005) Information use by the predatory mite Phytoseiulus persimilis (Acari: Phytoseiidae), a specialised natural enemy of herbivorous spider mites. Applied Entomology and Zoology 40, 112.
  • De Boer J.G., Posthumus M.A. & Dicke M. (2004) Identification of volatiles that are used in discrimination between plants infested with prey or nonprey herbivores by a predatory mite. Journal of Chemical Ecology 30, 22152230.
  • De Moraes C.M., Mescher M.C. & Tumlinson J.H. (2001) Caterpillar-induced nocturnal plant volatiles repel conspecific females. Nature 410, 577579.
  • Dicke M. (1994) Local and systemic production of volatile herbivore-induced terpenoids: their role in plant-carnivore mutualism. Journal of Plant Physiology 143, 465472.
  • Dicke M. (2006) Chemical ecology – from genes to communities. In Chemical Ecology: From Gene to Ecosystem (eds M.Dicke & W.Takken), pp. 175189. Springer, Dordrecht, the Netherlands.
  • Dicke M. & Van Loon J.J.A. (2000) Multitrophic effects of herbivore-induced plant volatiles in an evolutionary context. Entomologia Experimentalis et Applicata 97, 237249.
  • Dicke M. & Van Poecke R.M.P. (2002) Signalling in plant–insect interactions: signal transduction in direct and indirect plant defence. In Plant Signal Transduction (eds D.Scheel & C.Wasternack), pp. 289316. Oxford University Press, Oxford, UK.
  • Dicke M., Maas van der K.J., Takabayashi J. & Vet L.E.M. (1990a) Learning affects response to volatile allelochemicals by predatory mites. Proceedings of Experimental & Applied Entomology 1, 3136.
  • Dicke M., Van Beek T.A., Posthumus M.A., Ben Dom N., Van Bokhoven H. & De Groot A.E. (1990b) Isolation and identification of volatile kairomone that affects acarine predator–prey interactions. Involvement of host plant in its production. Journal of Chemical Ecology 16, 381396.
  • Dicke M., Gols R., Ludeking D. & Posthumus M.A. (1999) Jasmonic acid and herbivory differentially induce carnivore-attracting plant volatiles in lima bean plants. Journal of Chemical Ecology 25, 19071922.
  • Dicke M., Van Loon J.J.A. & De Jong P.W. (2004) Ecogenomics benefits community ecology. Science 305, 618619.
  • Dudareva N. & Pichersky E. (2006) Metabolic engineering of floral scent of ornamentals. Journal of Crop Improvement 18, 325346.
  • Dudareva N., Negre F., Nagegowda D.A. & Orlova I. (2006) Plant volatiles: recent advances and future perspectives. Handbook of Environmental Chemistry, Volume 5: Water Pollution 25, 417440.
  • Geervliet J.B.F. (1997) Infochemical use by insect parasitoids in a tritrophic context: comparison of a generalist and a specialist. PhD thesis, Wageningen University, the Netherlands.
  • Geervliet J.B.F., Vet L.E.M. & Dicke M. (1994) Volatiles from damaged plants as major cues in long-range host-searching by the specialist parasitoid Cotesia rubecula. Entomologia Experimentalis et Applicata 73, 289297.
  • Geervliet J.B.F., Verdel M.S.W., Snellen H., Schaub J., Dicke M. & Vet L.E.M. (2000) Coexistence and niche segregation by field populations of the parasitoids Cotesia glomerata and C. rubecula in the Netherlands: predicting field performance from laboratory data. Oecologia 124, 5563.
  • Gershenzon J. & Kreis W. (1999) Biochemistry of terpenoids: monoterpenes, sesquiterpenes, diterpenes, sterols, cardiac glycosides and steroid saponins. In Biochemistry of Plant Secondary Metabolism (ed. M.Wink), pp. 222299. Sheffield Academic Press, Sheffield UK.
  • Hampel D., Mosandl A. & Wüst M. (2005) Induction of de novo volatile terpene biosynthesis via cytosolic and plastidial pathways by methyl jasmonate in foliage of Vitis vinifera L. Journal of Agricultural and Food Chemistry 53, 26522657.
  • Hilker M. & Meiners T. (2006) Early herbivore alert: insect eggs induce plant defense. Journal of Chemical Ecology 32, 13791397.
  • Holm S. (1979) A simple sequential rejective multiple test procedure. Scandinavian Journal of Statistics 6, 6577.
  • Holopainen J.K. (2004) Multiple functions of inducible plant volatiles. Trends in Plant Science 9, 529533.
  • Horiuchi J.I., Arimura G.I., Ozawa R., Shimoda T., Takabayashi J. & Nishioka T. (2003) A comparison of the responses of Tetranychus urticae (Acari: Tetranychidae) and Phytoseiulus persimilis (Acari: Phytoseiidae) to volatiles emitted from lima bean leaves with different levels of damage made by T. urticae or Spodoptera exigua (Lepidoptera: Noctuidae). Applied Entomology and Zoology 38, 109116.
  • Isman M.B. (2006) Botanical insecticides, deterrents, and repellents in modern agriculture and an increasingly regulated world. Annual Review of Entomology 51, 4566.
  • Jux A., Gleixner G. & Boland W. (2001) Classification of terpenoids according to the methylerythritolphosphate or the mevalonate pathway with natural 12C/13C isotope ratios: dynamic allocation of resources in induced plants. Angewandte Chemie – International Edition 40, 20912093.
  • Keeling C.I. & Bohlmann J. (2006) Genes, enzymes and chemicals of terpenoid diversity in the constitutive and induced defence of conifers against insects and pathogens. New Phytologist 170, 657675.
  • Koricheva J., Nykänen H. & Gianoli E. (2004) Meta-analysis of trade-offs among plant antiherbivore defenses: are plants jacks-of-all-trades, masters of all? American Naturalist 163, E64E75.
  • Krips O.E., Willems P.E.L., Gols R., Posthumus M.A. & Dicke M. (1999) The response of Phytoseiulus persimilis to spider mite-induced volatiles from gerbera: influence of starvation and experience. Journal of Chemical Ecology 25, 26232641.
  • Leitner M., Boland W. & Mithöfer A. (2005) Direct and indirect defences induced by piercing-sucking and chewing herbivores in Medicago truncatula. New Phytologist 167, 597606.
  • Loreto F. & Velikova V. (2001) Isoprene produced by leaves protects the photosynthetic apparatus against ozone damage, quenches ozone products, and reduces lipid peroxidation of cellular membranes. Plant Physiology 127, 17811787.
  • Mattiacci L., Dicke M. & Posthumus M.A. (1994) Induction of parasitoid attracting synomone in Brussels sprouts plants by feeding of Pieris brassicae larvae: role of mechanical damage and herbivore elicitor. Journal of Chemical Ecology 20, 22292247.
  • Mumm R. & Hilker M. (2005) The significance of background odour for an egg parasitoid to detect plants with host eggs. Chemical Senses 30, 337343.
  • Mumm R. & Hilker M. (2006) Direct and indirect chemical defence of pine against folivorous insects. Trends in Plant Science 11, 351358.
  • Mumm R., Schrank K., Wegener R., Schulz S. & Hilker M. (2003) Chemical analysis of volatiles emitted by Pinus sylvestris after induction by insect oviposition. Journal of Chemical Ecology 29, 12351252.
  • Ouborg N.J. & Vriezen W.H. (2007) An ecologist's guide to ecogenomics. Journal of Ecology 95, 816.
  • Owen S.M. & Peñuelas J. (2005) Opportunistic emissions of volatile isoprenoids. Trends in Plant Science 10, 420426.
  • Paré P.W. & Tumlinson J.H. (1999) Plant volatiles as a defense against insect herbivores. Plant Physiology 121, 325331.
  • Pettersson E.M. (2001) Volatile attractants for three pteromalid parasitoids attacking concealed spruce bark beetles. Chemoecology 11, 8995.
  • Pettersson E.M., Birgersson G. & Witzgall P. (2001) Synthetic attractants for the bark beetle parasitoid Coeloides bostrichorum Giraud (Hymenoptera: Braconidae). Naturwissenschaften 88, 8891.
  • Pichersky E. & Gershenzon J. (2002) The formation and function of plant volatiles: perfumes for pollinator attraction and defense. Current Opinion in Plant Biology 5, 237243.
  • Piel J., Donath J., Bandemer K. & Boland W. (1998) Mevalonate-independent biosynthesis of terpenoid volatiles in plants: induced and constitutive emission of volatiles. Angewandte Chemie-International Edition 37, 24782481.
  • Pinto D.M., Blande J.D., Nykanen R., Dong W.X., Nerg A.M. & Holopainen J.K. (2007) Ozone degrades common herbivore-induced plant volatiles: does this affect herbivore prey location by predators and parasitoids? Journal of Chemical Ecology 33, 683694.
  • Rodríguez-Concepcion M. (2006) Early steps in isoprenoid biosynthesis: multilevel regulation of the supply of common precursors in plant cells. Phytochemistry Reviews 5, 115.
  • Schüler G., Mithöfer A., Baldwin I.T., et al. (2004) Coronalon: a powerful tool in plant stress physiology. FEBS Letters 563, 1722.
  • Shimoda T., Ozawa R., Sano K., Yano E. & Takabayashi J. (2005) The involvement of volatile infochemicals from spider mites and from food-plants in prey location of the generalist predatory mite Neoseiulus californicus. Journal of Chemical Ecology 31, 20192032.
  • Shiojiri K., Takabayashi J., Yano S. & Takafuji A. (2002) Oviposition preferences of herbivores are affected by tritrophic interaction webs. Ecology Letters 5, 186192.
  • Smid H.M., Van Loon J.J.A., Posthumus M.A. & Vet L.E.M. (2002) GC-EAG-analysis of volatiles from Brussels sprouts plants damaged by two species of Pieris caterpillars: olfactory receptive range of a specialist and a generalist parasitoid wasp species. Chemoecology 12, 169176.
  • Snoeren T.A.L., De Jong P.W. & Dicke M. (2007) Ecogenomic approach to the role of herbivore-induced plant volatiles in community ecology. Journal of Ecology 95, 1726.
  • Takabayashi J. & Dicke M. (1992) Response of predatory mites with different rearing histories to volatiles of uninfested plants. Entomologia Experimentalis et Applicata 64, 187193.
  • Tripathi A.K., Prajapati V., Khanuja S.P.S. & Kumar S. (2003) Effect of d-limonene on three stored-product beetles. Journal of Economic Entomology 96, 990995.
  • Turlings T.C.J. & Fritzsche M.E. (1999) Attraction of parasitic wasps by caterpillar-damaged plants. In Insect–Plant Interactions and Induced Plant Defence (eds D.J.Chadwick & J.A.Goode), pp. 2132. Wiley & Sons, Chichester, UK.
  • Turlings T.C.J., Bernasconi M., Bertossa R., Bigler F., Caloz G. & Dorn S. (1998) The induction of volatile emissions in maize by three herbivore species with different feeding habits: possible consequences for their natural enemies. Biological Control 11, 122129.
  • Van Schie C.C.N., Haring M.A. & Schuurink R.C. (2006) Regulation of terpenoid and benzenoid production in flowers. Current Opinion in Plant Biology 9, 203208.
  • Wasternack C., Stenzel I., Hause B., Hause G., Kutter C., Maucher H., Neumerkel J., Feussner I. & Miersch O. (2006) The wound response in tomato – role of jasmonic acid. Journal of Plant Physiology 163, 297306.
  • Yamasaki T., Sato M. & Sakoguchi H. (1997) (-)-Germacrene D: masking substance of attractants for the cerambycid beetle, Monochamus alternatus (Hope). Applied Entomology and Zoology 32, 423429.
  • Zeidler J., Schwender J., Müller C., Wiesner J., Weidemeyer C., Beck E., Jomaa H. & Lichtenthaler H.K. (1998) Inhibition of the non-mevalonate 1-deoxy-d-xylulose-5-phosphate pathway of plant isoprenoid biosynthesis by fosmidomycin. Zeitschrift für Naturforschung C 53, 980986.