Citation: Aa. Agrawal et Mf. Sherriffs, Induced plant resistance and susceptibility to late-season herbivores of wild radish, ANN ENT S A, 94(1), 2001, pp. 71-75
Citation: Aa. Agrawal, Transgenerational consequences of plant responses to herbivory: An adaptive maternal effect?, AM NATURAL, 157(5), 2001, pp. 555-569
Citation: Aa. Agrawal, Mechanisms, ecological consequences and agricultural implications of tri-trophic interactions, CUR OPIN PL, 3(4), 2000, pp. 329-335
Citation: Aa. Agrawal, Overcompensation of plants in response to herbivory and the by-product benefits of mutualism, TRENDS PL S, 5(7), 2000, pp. 309-313
Citation: Aa. Agrawal et Ja. Fordyce, Induced indirect defence in a lycaenid-ant association: the regulation of a resource in a mutualism, P ROY SOC B, 267(1455), 2000, pp. 1857-1861
Citation: Aa. Agrawal et Rg. Colfer, Consequences of thrips-infested plants for attraction of conspecifics and parasitoids, ECOL ENT, 25(4), 2000, pp. 493-496
Authors:
Agrawal, AA
Rudgers, JA
Botsford, LW
Cutler, D
Gorin, JB
Lundquist, CJ
Spitzer, BW
Swann, AL
Citation: Aa. Agrawal et al., Benefits and constraints on plant defense against herbivores: Spines influence the legitimate and illegitimate flower visitors of yellow star thistle, Centaurea solstitialis L-(asteraceae), SW NATURAL, 45(1), 2000, pp. 1-5
Citation: Aa. Agrawal, Specificity of induced resistance in wild radish: causes and consequences for two specialist and two generalist caterpillars, OIKOS, 89(3), 2000, pp. 493-500
Citation: Aa. Agrawal et al., How leaf domatia and induced plant resistance affect herbivores, natural enemies and plant performance, OIKOS, 89(1), 2000, pp. 70-80
Citation: Aa. Agrawal et Cn. Klein, What omnivores eat: direct effects of induced plant resistance on herbivores and indirect consequences for diet selection by omnivores, J ANIM ECOL, 69(3), 2000, pp. 525-535
Citation: Aa. Agrawal et R. Karban, Specificity of constitutive and induced resistance: pigment glands influence mites and caterpillars on cotton plants, ENT EXP APP, 96(1), 2000, pp. 39-49
Citation: Aa. Agrawal et Bj. Dubin-thaler, Induced responses to herbivory in the Neotropical ant-plant association between Azteca ants and Cecropia trees: response of ants to potential inducing cues, BEHAV ECO S, 45(1), 1999, pp. 47-54
Citation: Aa. Agrawal et al., Polymorphism in plant defense against herbivory: Constitutive and induced resistance in Cucumis sativus, J CHEM ECOL, 25(10), 1999, pp. 2285-2304
Citation: Aa. Agrawal et al., Costs of induced responses and tolerance to herbivory in male and female fitness components of wild radish, EVOLUTION, 53(4), 1999, pp. 1093-1104
Citation: Aa. Agrawal, Induced responses to herbivory in wild radish: Effects on several herbivores and plant fitness, ECOLOGY, 80(5), 1999, pp. 1713-1723
Citation: Aa. Agrawal et al., Influence of prey availability and induced host-plant resistance on omnivory by western flower thrips, ECOLOGY, 80(2), 1999, pp. 518-523
Citation: Aa. Agrawal, Induced plant defense: Evolution of induction and adaptive phenotypic plasticity, INDUCED PLANT DEFENSES AGAINST PATHOGENS AND HERBIVORES, 1999, pp. 251-268
Citation: Aa. Agrawal et R. Karban, Why induced defenses may be favored over constitutive strategies in plants, ECOLOGY AND EVOLUTION OF INDUCIBLE DEFENSES, 1998, pp. 45-61