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  • Ament K, Kant MR, Sabelis MW, Haring MA, Schuurink RC. 2004. Jasmonic acid is a key regulator of spider mite-induced volatile terpenoid and methyl salicylate emission in tomato. Plant Physiology 135: 20252037.
  • Arimura G, Ozawa R, Nishioka T, Boland W, Koch T, Kühnemann F, Takabayashi J. 2002. Herbivore-induced volatiles induce the emission of ethylene in neighboring lima bean plants. Plant Journal 29: 8798.
  • Bennett M, Gallagher M, Fagg J, Bestwick C, Paul T, Beale M, Mansfield J. 1996. The hypersensitive reaction, membrane damage and accumulation of autofluorescent phenolics in lettuce cells challenged by Bremia lactucae. Plant Journal 9: 851865.
  • Bi JL, Felton GW. 1995. Foliar oxidative stress and insect herbivory: primary compounds, secondary metabolite, and reactive oxygen species as components of induced resistance. Journal of Chemical Ecology 21: 15111529.
  • Bi JL, Murphy JB, Felton GW. 1997a. Antinutritive and oxidative components as mechanisms of induced resistance in cotton to Helicopverpa zea. Journal of Chemical Ecology 23: 97117.
  • Bi JL, Murphy JB, Felton GW. 1997b. Does salicylic acid act as a signal in cotton for induced resistance to Helicoverpa zea? Journal of Chemical Ecology 23: 18051818.
  • Birkett MA, Chamberlain K, Guerrieri E, Pickett JA, Wadhams LJ, Yasuda T. 2003. Volatiles from whitefly-infested plants elicit a host- locating response in the parasitoid, Encarsia formosa. Journal of Chemical Ecology 29: 15891600.
  • Cook DR, VandenBosch K, De Bruijn FJ, Huguet T. 1997. Model legumes get the nod. Plant Cell 9: 275280.
  • De Moraes CM, Lewis WJ, Paré PW, Alborn HT, Tumlinson JH. 1998. Herbivore-infested plants selectively attract parasitoids. Nature 393: 570573.
  • Delaney TP, Uknes S, Vernooij B, Friedrich L, Weymann K, Negrotto D, Gaffney T, Gut-Rella M, Kessmann H, Ward E, Ryals J. 1994. A central role of salicylic acid in plant disease resistance. Science 266: 12471250.
  • Dempsey DMA, Shah J, Klessig DF. 1999. Salicylic acid and disease resistance in plants. Critical Reviews in Plant Sciences 18: 547575.
  • Dicke M, Gols R, Ludeking D, Posthumus MA. 1999. Jasmonic acid and herbivory differentially induce carnivore-attracting plant volatiles in lima bean plants. Journal of Chemical Ecology 25: 19071922.
  • Dixon RA, Achnine L, Kota P, Liu C-J, Reddy MS, Wang L. 2002. The phenylpropanoid pathway and plant defence – a genomics perspective. Molecular Plant Pathology 3: 371390.
  • Dixon RA, Paiva NL. 1995. Stress-induced phenylpropanoid metabolism. Plant Cell 7: 10851097.
  • Donath J, Boland W. 1995. Biosynthesis of acyclic homoterpenes: enzyme selectivity and absolute configuration of the nerolidol precursor. Phytochemistry 39: 785790.
  • Du Y, Poppy GM, Powell W, Pickett JA, Wadhams LJ, Woodcock CM. 1998. Identification of semiochemicals released during aphid feeding that attract parsitoid Aphidus ervi. Journal of Chemical Ecology 24: 13551368.
  • Fernandes GW. 1990. Hypersensitivity: a neglected plant resistance mechanism against insect herbivores. Environmental Entomology 19: 11731182.
  • Gatehouse JA. 2002. Plant resistance towards insect herbivores: a dynamic interaction. New Phytologist 156: 145169.
  • Heidel AJ, Baldwin IT. 2004. Micorarray analysis of salicylic acid- and jasmonic acid-signalling in responses of Nicotiana attenuata to attack by insects from multiple feeding guilds. Plant, Cell & Environment 27: 13621373.
  • Horiuchi J, Arimura G, 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.
  • Kaiser R. 1993. Vom Duft der Orchideen Olfaktorische und Chemische Untersuchungen. Basel, Switzerland: F. Hoffmann-La Roche.
  • Kant MR, Ament K, Sabelis MW, Haring MA, Schuurink RC. 2004. Differental timing of spider mite-induced direct and indirect defenses in tomato plants. Plant Physiology 135: 483495.
  • Kessler A, Baldwin IT. 2002. Plant responses to insect herbivory: the emerging molecular analysis. Annual Reviews of Plant Biology 53: 299328.
  • Koch T, Krumm T, Jung V, Engelberth J, Boland W. 1999. Differential induction of plant volatile biosynthesis in the lima bean by early and late intermediates of the octadecanoid-signaling pathway. Plant Physiology 121: 153162.
  • Korth KL, Dixon RA. 1997. Evidence for chewing insect-specific molecular events distinct from a general wound response in leaves. Plant Physiology 115: 12991305.
  • Kuc J. 1995. Phytoalexins, stress metabolism, and disease resistance in plants. Annual Reviews of Phytopathology 33: 275297.
  • Lamb C, Dixon RA. 1997. The oxidative burst in plant disease resistance. Annual Reviews of Plant Physiology and Plant Molecular Biology 48: 251275.
  • Liu C-J, Huhman DV, Sumner LW, Dixon RA. 2003. Regiospecific hydroxylation of isoflavones by cytochrome P450, 81E enzymes from Medicago truncatula. Plant Journal 36: 471484.
  • Mayer RT, Inbar M, McKenzie CL, Shatters R, Borowicz V, Albrecht U, Powell CA, Doostdar H. 2002. Multitrophic interactions of the silverleaf whitefly, host plants, competing herbivores, and phytopathogens. Archives of Insect Biochemistry and Physiology 51: 151169.
  • Mithöfer A, Schulze B, Boland W. 2004. Biotic and heavy metal stress response in plants: evidence for common signals. FEBS Letters 566: 15.
  • Oldroyd GED, Geurts R. 2001. Medicago truncatula, going where no plant has gone before. Trends in Plant Science 6: 552554.
  • Ollerstam O, Rohfritsch O, Höglund S, Larsson S. 2002. A rapid hypersensitive response associated with resistance in the willow Salix viminalis against the gall midge Dasineura marginemtorquens. Entomologia Experimentalis et Applicata 102: 153162.
  • Olson PD, Varner JE. 1993. Hydrogen peroxide and lignification. Plant Journal 4: 887892.
  • Orozco-Cardenas ML, Ryan CA. 1999. Hydrogen peroxide is generated systemically in plant leaves by wounding and systemin via the octadecanoid pathway. Proceedings of the National Academy of Sciences, USA 96: 65536557.
  • Ortlob GB. 1968. Relationships between Tetranychus urticae Koch and some plant viruses. Virology 35: 121133.
  • Ozawa R, Arimura G, Takabayashi J, Shimoda T, Nishioka T. 2000. Involvement of jasmonate- and salicylate-related signaling pathways for the production of specific herbivore-induced volatiles in plants. Plant and Cell Physiology 41: 391398.
  • Shimoda T, Ozawa R, Arimura G, Takabayashi J, Nishioka T. 2002. Olfactory responses of two specialist insect predators of spider mites toward plant volatiles from lima bean leaves induced by jasmonic acid and/or methyl salicylate. Applied Entomology and Zoology 37: 535541.
  • Silva MC, Nicole M, Guerra-Guimarares Rodrigues CJ Jr . 2002. Hypersensitive cell death and post-haustorial defence responses arrest the orange rust (Hemileia vastatrix) growth in resistant coffee leaves. Physiological and Molecular Plant Pathology 60: 169183.
  • Takabayashi J, Dicke M. 1996. Plant-carnivore mutualism through herbivore-induced carnivore attractants. Trends in Plant Science 1: 109113.
  • Turlings TCJ, 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 Poecke RMP, Dicke M. 2002. Induced parasitoid attraction by Arabidopsis thaliana: involvement of the octadecanoid and the salicylic acid pathway. Journal of Experimental Botany 53: 17931799.
  • Van Poecke RMP, Dicke M. 2004. Indirect defence of plants against herbivores: using Arabidopsis thaliana as a model plant. Plant Biology 6: 387401.
  • Walling LL. 2000. The myriad plant responses to herbivores. Journal of Plant Growth Regulation 19: 195216.