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  • Albrecht T, Kehlen A, Stahl K, Knöfel H-D, Sembdner G, Weiler EW. 1993. Quantification of rapid, transient increases in jasmonic acid in wounded plants using a monoclonal antibody. Planta 191: 8694.
  • Avery GS. 1933. Structure and germination of tobacco seed and the developmental anatomy of the seedling plant. American Journal of Botany 20: 309327.
  • Baldwin IT. 1988a. The alkaloidal responses of wild tobacco to veal and simulated herbivory. Oecologia 77: 378381.
  • Baldwin IT. 1988b. Short-term damage-induced increases in tobacco alkaloids protect plants. Oecologia 75: 367370.
  • Baldwin IT. 1989. Mechanism of damage-induced alkaloid production in wild tobacco. Journal of Chemical Ecology 15: 16611680.
  • Baldwin IT, Karb MJ. 1995. Plasticity in allocation of nicotine to reproductive parrs in Nicotiana attemtala. Journal of Chemical Ecology 21: 897909.
  • Baldwin IT, Karb MJ, Ohnmeiss TE. 1994a. Allocation of 15N from nitrate to nicotine after leaf damage: production and turnover of a damage-induced mobile defense. Ecology 75: 17031713.
  • Baldwin IT, Schmelz EA. 1994. Constraints on an induced defense: the role of leaf area. Oecologia 97: 421430.
  • Baldwin IT, Schmelz EA. 1996. Immunological ‘memory’ in the induced accumulation of nicotine in wild tobacco. Ecology 77: 236246.
  • Baldwin IT, Schmelz EA, Ohnmeiss TE. 1994b. Wound-induced changes in root and shoot jasmonic acid pools correlate with induced nicotine synthesis in Nicotiana syfaestris Spengazzini and Comes. Journal of Chemical Ecology 20: 21392157.
  • Baldwin IT, Schmelz EA, Zhang Z-P. 1996. Effects of octadecanoid metabolites and inhihirors on induced nicotine accumulation in Nicotiana sylrestris. Journal of Chemical Ecology 22: 6174.
  • Baldwin IT, Simms CL, Kean SE. 1990. The reproductive consequences associated with inducible alkaloidal responses in wild tobacco. Ecology 71: 252262.
  • Baldwin IT, Zhang ZP, Diab N, Ohnmeiss TE, McCloud ES, Lynds GY, Schmelz EA. 1997. Quantification, correlations, and manipulations of wound-induced changes in jasmonic acid and nicotine in Nicotiana sylvestris: Planta 201: 397404.
  • Bell E, Creelman RA, Mullel JE. 1995. A chloroplast lipoxy-genase is required for wound-induced jasmonic acid accumulation in Arabidopsis. Proceedings of the National Academy of Sciences, USA 92: 86758679.
  • Blechert S, Brodschelm W, Holder S, Kammerer L, Kutchan TM, Mueller MJ, Xia Z-Q, Zenk MH. 1995. The cicradecanoid pathway: signal molecules for the regulation of secondary pathways. Proceedings of the National Academy of Sciences, USA 92: 40994105.
  • Coleman JS, Leonard AS. 1995. Why it matters where on a leaf a folivore feeds. Oecahgia 101: 324328.
  • Creelman RA, Mullet JE. 1995. Jasmonic acid distribution and action in plants: regulation during development and response to biotic and abiotic stress. Proceedings of the National Academy of Sciences, USA 92: 41144119.
  • Creelman RA, Tierney ML, Mullel JE. 1992. Jasmonic acid/methyl jasmunate accumulate in wounded soybean hypo-cotyls and modulate wound gene expression. Proceedings of the National Academy of Sciences USA 89: 49384941.
  • Farmer EE, Ryan CA. 1992. Octadecanoid precursors of jasmonic acid activate the synthesis of wound-mducible pro-tdnase inhibitors. Plant Cell 4: 129134.
  • Gold WG, Caldwell MM. 1989. The effects of the spatial pattern of defoliation on growth of a tussock grass. I. Growth responses. Oecntogia 80: 289296.
  • Gundlach H, Müller MJ, Kutchan TM, Zenk MH. 1992. Jasmonic acid is a signal transducer in elicitor-induced plant cell cultures. Proceedings of the National Academy of Sciences, USA 88: 23892393.
  • Hamberg M, Gardner HW. 1992. Oxylipin pathway to jasmonates: biochemistry and biological significance. Biochimica et Biophysica Acta 1165: 118.
  • Harper JL. 1989. The value of a leaf. Oecologia 80: 5358.
  • Jongsma MA, Balcker PL, Visser B, Stiekema WJ. 1994. Trypsin inhibitor activity in mature tobacco and tomato plants is mainly induced locally in response to insect attack, wounding and virus infection. Planta 195: 2935.
  • Marquis RJ. 1992. A bite is a bite is a biter Constraints on response to folivory in Piper arieianum (Piperacae). Ecology 73: 143152.
  • Mauricio R, Bowers MD, Bazzaz FA. 1993. Pattern of leaf damage affects fitness of the annual plant Raphanus sativus (Brassicacaea). Ecology 74: 20662071.
  • McKey D. 1974. Adaptive patterns in alkaloid physiology. American Naturalist 108: 305320.
  • McKey D. 1979. The distribution of secondary compounds within plants. In: RosenthalGA, JanzenDH, eds. Herbivores: then- Interactions with Secondary Plant Metabolites. New York : Academic Press, 55133.
  • Mueller MJ, Brodschelm W, Spannagl E. Zenk MH. 1993. Signalling in the eiicitation process is mediated through the octadecanoid pathway leading to jasmonic acid. Proceedings of the National Academy of Sciences. USA 90: 74907494.
  • Ohnmeiss TE, Baldwin IT. 1994. The allometry of nitrogen allocation to growth and an mducihle defense under nitrogen-limited growth. Ecology 75: 9951002.
  • Peña-Cortés H, Fisahn J, Willmitzer L. 1995. Signals involved in wound-induced proteinase inhibitor II gene expression in tomato and potato plants. Proceedings of the National Academy of Sciences, USA 92: 41064113.
  • Rhoades, DF. 1979. Evolution of plant chemical defense against herbivores. In: RosenthalGA, JanzenDH, eds. Herbivores: their Interactions with Secondary Plant Metabolites. New York : Academic Press, 354.
  • Saunders JA. 1979. Investigations of vacuoles isolated from tobacco, I. Quantitation of nicotine. Plant Physiology 64: 7478.
  • Sembdner G, Parthier B. 1993. The biochemistry and the physiological and molecular actions of jasmonates. Annual Review of Plant Physiology and Plan) Molecular Biology 44: 469589.
  • Thomas LP, Watson MA. 1988. Leaf removal and the apparent effects of architectural constraints on development in Capsicum annum. American Journal of Botany 75: 840843.
  • van Dam NM, Verpoorle R, van der Meijden E. 1994. Extreme differences in pyrrolizidine alkaloid levels between leaves of Cynoghssum officinale. Phytoc. chemistry 37: 10131016.
  • van Dam NM, Witte L, Theuring C, Hartmann T. 1995. Distribution, biosynthesis, and turnover of pyrrolizidine alkaloids in Cynoglosstim officinale. Phytochemistry 39: 287292.
  • Wolfeon JL. 1991. The effects of induced plant proteinase Inhibitors on herbivorous insects. In: TallamyDW, RauppMJ, eds. Phytochemical Induction by Herbivores. New York : John Wiley, 223243.
  • Zangerl AR, Bazzaz FA. 1992. Theory and pattern in defense allocatio. In: FritzR, SimmsEL, eds. Plant Resistance to Herbivores and Pathogens. Chicago : University of Chicago Press, 363392.
  • Zangerl AR, Berenbaum MR. 1995. Spatial, temporal, and environmental limits on xanthotoxin induction m wild parsnip eds foliage. Chemtmalogy 6: 3742.
  • Zangerl AR, Rutledge CE. 1996. The probability of attack and and pattern in defense patterns of constitutive and induced defense: a test of Optimal Defense theory. American Naturalist 147: 599607.
  • Zar JH. 1984. Biostatistical analysis Englewood Cliffs, NJ ; Prentice-Hall.