Access the full text.
Sign up today, get DeepDyve free for 14 days.
Zongqinag Zhang, I. Baldwin (1997)
Transport of [2-14C]jasmonic acid from leaves to roots mimics wound-induced changes in endogenous jasmonic acid pools in Nicotiana sylvestrisPlanta, 203
T. Tscharntke, S. Thiessen, R. Dolch, W. Boland (2001)
Herbivory, induced resistance, and interplant signal transfer in Alnus glutinosaBiochemical Systematics and Ecology, 29
I. Baldwin (1998)
Jasmonate-induced responses are costly but benefit plants under attack in native populations.Proceedings of the National Academy of Sciences of the United States of America, 95 14
J. Suomela, M. Ayres (1994)
Within-Tree and Among-Tree Variation in Leaf Characteristics of Mountain Birch and Its Implications for HerbivoryOikos, 70
J. Koricheva (1999)
Interpreting phenotypic variation in plant allelochemistry: problems with the use of concentrationsOecologia, 119
Ove Eriksson (1993)
Dynamics of genets in cluonal plants.Trends in ecology & evolution, 8 9
B. Solomon (1983)
Compensatory production in Solanum carolinense following attack by a host-specific herbivore.Journal of Ecology, 71
D. Cipollini, J. Bergelson (2001)
Plant Density and Nutrient Availability Constrain Constitutive and Wound-induced Expression of Trypsin Inhibitors in Brassica napusJournal of Chemical Ecology, 27
(1961)
A life cycle study of horse nettle (Solanum carolinense)
C. Mullin, A. González-Coloma, C. Gutiérrez, M. Reina, H. Eichenseer, Benedict Hollister, S. Chyb (1997)
Antifeedant Effects of Some Novel Terpenoids on Chrysomelidae Beetles: Comparisons with Alkaloids on an Alkaloid-Adapted and Nonadapted SpeciesJournal of Chemical Ecology, 23
G. Sembdner, B. Parthier (1993)
The Biochemistry and the Physiological and Molecular Actions of Jasmonates, 44
J. Jackson, L. Buss, R. Cook, J. Ashmun (1988)
Population biology and evolution of clonal organismsBulletin of the Torrey Botanical Club, 115
R. Bolser, M. Hay (1998)
A field test of inducible resistance to specialist and generalist herbivores using the water lily Nuphar luteumOecologia, 116
F. Bazzaz (1996)
Plants in Changing Environments: Linking Physiological, Population, and Community Ecology
J. Bergelson (1994)
The Effects of Genotype and the Environment on Costs of Resistance in LettuceThe American Naturalist, 143
T. Weaver, J. Grime (1980)
Plant Strategies and Vegetation Processes.Journal of Ecology, 68
T. DeWitt, A. Sih, D. Wilson (1998)
Costs and limits of phenotypic plasticity.Trends in ecology & evolution, 13 2
Christine Armer, R. Berry, G. Reed, Sarina Jepsen (2004)
Colorado potato beetle control by application of the entomopathogenic nematode Heterorhabditis marelata and potato plant alkaloid manipulationEntomologia Experimentalis et Applicata, 111
J. Birner (1969)
Determination of total steroid bases in Solanum species.Journal of pharmaceutical sciences, 58 2
D. Cipollini, Ahnya Redman (1999)
Age-Dependent Effects of Jasmonic Acid Treatment and Wind Exposure on Foliar Oxidase Activity and Insect Resistance in TomatoJournal of Chemical Ecology, 25
T. Swain, J. Goldstein (1964)
CHAPTER 11 – THE QUANTITATIVE ANALYSIS OF PHENOLIC COMPOUNDS
J. Bryant, F. Chapin, D. Klein (1983)
Carbon/nutrient balance of boreal plants in relation to vertebrate herbivoryOikos, 40
D. Rudell, J. Mattheis, Xuetong Fan, J. Fellman (2002)
Methyl Jasmonate Enhances Anthocyanin Accumulation and Modifies Production of Phenolics and Pigments in `Fuji' ApplesJournal of the American Society for Horticultural Science, 127
R. Relyea (2002)
Costs of Phenotypic PlasticityThe American Naturalist, 159
A. Al-Humaid (2003)
Effects of Compound Fertilization on Growth and Alkaloids of Datura (Datura innoxia Mill.) PlantsJournal of Agriculture and Rural Development in the Tropics and Subtropics, 104
A. M. Redman, D. F. Cipollini, J. C. Schultz (2001)
Fitness costs of jasmonic acid-induced defense in tomato, Lycopersicum esculantumOecologia, 126
J. Pan, Jason Price (2001)
Fitness and evolution in clonal plants: the impact of clonal growthEvolutionary Ecology, 15
R. Ilnicki (1962)
Life history studies as related to weed control in the Northeast. 3. Horse-nettle, 368
J. Koricheva (2002)
The Carbon-Nutrient Balance Hypothesis is dead; long live the carbon-nutrient balance hypothesis?Oikos, 98
A. Hagerman, K. Klucher (1986)
Tannin-protein interactions.Progress in clinical and biological research, 213
M. Heil (2002)
Ecological costs of induced resistance.Current opinion in plant biology, 5 4
M. Heil, I. Baldwin (2002)
Fitness costs of induced resistance: emerging experimental support for a slippery concept.Trends in plant science, 7 2
P. Rundel (1997)
Plants in changing environments: Linking physiological, population and community ecologyTrends in Ecology and Evolution, 12
H. Appel, H. Govenor, M. D'Ascenzo, E. Siska, J. Schultz (2001)
LIMITATIONS OF FOLIN ASSAYS OF FOLIAR PHENOLICS IN ECOLOGICAL STUDIESJournal of Chemical Ecology, 27
A. E. Hagerman, K. M. Klucher (1986)
Plant Flavinoids in Biology and Medicine: Biochemical, Pharmacological and Structure Activity Relationships
Jason Moore, N. Paul, J. Whittaker, J. Taylor (2003)
Exogenous jasmonic acid mimics herbivore‐induced systemic increase in cell wall bound peroxidase activity and reduction in leaf expansionFunctional Ecology, 17
I. Baldwin, William Hamilton (2000)
Jasmonate-Induced Responses of Nicotiana sylvestris Results in Fitness Costs Due to Impaired Competitive Ability for NitrogenJournal of Chemical Ecology, 26
José León, Enrique Rojo, J. Sánchez-Serrano (2001)
Wound signalling in plants.Journal of experimental botany, 52 354
N. Stamp (2003)
Out Of The Quagmire Of Plant Defense HypothesesThe Quarterly Review of Biology, 78
J. Jokela, P. Schmid-Hempel, M. Rigby (2000)
Dr. Pangloss restrained by the Red Queen : steps towards a unified defence theoryOikos, 89
E. Gianoli, H. Niemeyer (1997)
Lack of costs of herbivory-induced defenses in a wild wheat : integration of physiological and ecological approachesOikos, 80
S. Sultan (1987)
Evolutionary Implications of Phenotypic Plasticity in PlantsEvolutionary Biology-new York, 21
T. Swain, J. L. Goldstein (1964)
Methods in Polyphenol Chemistry
D. Wijesinghe, D. Whigham (1997)
Costs of Producing Clonal Offspring and the Effects of Plant Size on Population Dynamics of the Woodland Herb Uvularia Perfoliata (Liliaceae)Journal of Ecology, 85
M. Wise, C. Sacchi (1996)
Impact of two specialist insect herbivores on reproduction of horse nettle, Solanum carolinenseOecologia, 108
Jason Moore, J. Taylor, N. Paul, J. Whittaker (2003)
Reduced leaf expansion as a cost of systemic induced resistance to herbivoryFunctional Ecology, 17
S. Y. Strauss, J. A. Rudgers, J. A. Lau, R. E. Irwin (2002)
Direct and ecological costs of resistance to herbivoryTrends Ecol. Evol., 17
A. Hall (1999)
Induced Responses to Herbivory.Plant Pathology, 48
I. Baldwin (1988)
Damage-induced alkaloids in tobacco: Pot-bound plants are not inducibleJournal of Chemical Ecology, 14
R. Karban, A. Agrawal, M. Mangel (1997)
THE BENEFITS OF INDUCED DEFENSES AGAINST HERBIVORESEcology, 78
I. Baldwin, D. Gorham, E. Schmelz, C. Lewandowski, Gladys Lynds (1998)
Allocation of nitrogen to an inducible defense and seed production in Nicotiana attenuataOecologia, 115
J. Bergelson, C. Purrington (1996)
Surveying Patterns in the Cost of Resistance in PlantsThe American Naturalist, 148
W. Whalley (1965)
Methods in Polyphenol Chemistry : Edited by J. B. Pridham. Pergamon Press, Oxford, 1964. 146 pp. 505.Phytochemistry, 4
Mirka Macel, P. Klinkhamer, K. Vrieling, E. Meijden (2002)
Diversity of pyrrolizidine alkaloids in Senecio species does not affect the specialist herbivore Tyria jacobaeaeOecologia, 133
M. Cipollini, Eric Paulk, D. Cipollini (2002)
Effect of Nitrogen and Water Treatment on Leaf Chemistry in Horsenettle (Solanum carolinense), and Relationship to Herbivory by Flea Beetles (Epitrix spp.) and Tobacco Hornworm (Manduca sexta)Journal of Chemical Ecology, 28
M. J. Wise, C. F. Sacchi (1996)
Impact of two specialist insect herbivores of horse nettle, Solanum carolinenseOecologia, 108
M. Hunter, J. Schultz (1995)
Fertilization Mitigates Chemical Induction and Herbivore Responses Within Damaged Oak TreesEcology, 76
T. Swain, W. Hillis (1959)
The phenolic constituents of Prunus domestica. I.—The quantitative analysis of phenolic constituentsJournal of the Science of Food and Agriculture, 10
(1997)
Anitfeedant effects of some novel terpenoids on chrysomelidae beetles
A. Agrawal, J. Conner, Marc Johnson, R. Wallsgrove (2002)
ECOLOGICAL GENETICS OF AN INDUCED PLANT DEFENSE AGAINST HERBIVORES: ADDITIVE GENETIC VARIANCE AND COSTS OF PHENOTYPIC PLASTICITY, 56
A. Agrawal (2000)
BENEFITS AND COSTS OF INDUCED PLANT DEFENSE FOR LEPIDIUM VIRGINICUM (BRASSICACEAE)Ecology, 81
R. Karban (1993)
Costs and Benefits of Induced Resistance and Plant Density for a Native Shrub, Gossypium ThurberiEcology, 74
I. Baldwin, Cynthia Sims, S. Kean (1990)
The Reproductive Consequences Associated with Inducible Alkaloidal Responses in Wild TobaccoEcology, 71
(2001)
Patterns of secondary compound within fleshy fruits: Ecology and phylogeny, pp
D. Levey, W. Silva, M. Galetti (2002)
Seed dispersal and frugivory : ecology, evolution, and conservation
M. Cipollini, D. Levey (1997)
ANTIFUNGAL ACTIVITY OF SOLANUM FRUIT GLYCOALKALOIDS: IMPLICATIONS FOR FRUGIVORY AND SEED DISPERSALEcology, 78
D. Strong, J. Lawton, S. Southwood (1987)
INSECTS ON PLANTS. COMMUNITY PATTERNS AND MECHANISMS.
W. Rice (1989)
ANALYZING TABLES OF STATISTICAL TESTSEvolution, 43
P. Coley, J. Bryant, F. Chapin (1985)
Resource Availability ai Plant Antiherbivore Defen
V. Franceschi, T. Krekling, E. Christiansen (2002)
Application of methyl jasmonate on Picea abies (Pinaceae) stems induces defense-related responses in phloem and xylem.American journal of botany, 89 4
J. Thaler, M. Stout, R. Karban, S. Duffey (1996)
Exogenous jasmonates simulate insect wounding in tomato plants (Lycopersicon esculentum) in the laboratory and fieldJournal of Chemical Ecology, 22
D. Herms, W. Mattson (1992)
The Dilemma of Plants: To Grow or DefendThe Quarterly Review of Biology, 67
T. Givnish (1986)
Economic of Biotic Interactions
J. Maschinski, T. Whitham (1989)
The Continuum of Plant Responses to Herbivory: The Influence of Plant Association, Nutrient Availability, and TimingThe American Naturalist, 134
M. Cipollini, Eric Paulk, K. Mink, K. Vaughn, Tiffanny Fischer (2004)
Defense Tradeoffs in Fleshy Fruits: Effects of Resource Variation on Growth, Reproduction, and Fruit Secondary Chemistry in Solanum carolinenseJournal of Chemical Ecology, 30
H. Appel (1993)
Phenolics in ecological interactions: The importance of oxidationJournal of Chemical Ecology, 19
S. Via, R. Gomulkiewicz, G. Jong, S. Scheiner, C. Schlichting, P. Tienderen (1995)
Adaptive phenotypic plasticity: consensus and controversy.Trends in ecology & evolution, 10 5
P. Coley, J. Bryant, F. Chapin (1985)
Resource Availability and Plant Antiherbivore DefenseScience, 230
F. Adler, R. Karban (1994)
Defended Fortresses or Moving Targets? Another Model of Inducible Defenses Inspired by Military MetaphorsThe American Naturalist, 144
Jeff Murray, Zafeirenia Brokalaki (2019)
ResistanceThe Gentrification of the Internet
D. Siemens, Shannon Garner, T. Mitchell-Olds, R. Callaway (2002)
COST OF DEFENSE IN THE CONTEXT OF PLANT COMPETITION: BRASSICA RAPA MAY GROW AND DEFENDEcology, 83
H. M. Appel (1993)
The role of phenolics in ecological systems: The importance of oxidationJ. Chem. Ecol., 19
D. Kliebenstein, Antje Figuth, T. Mitchell-Olds (2002)
Genetic architecture of plastic methyl jasmonate responses in Arabidopsis thaliana.Genetics, 161 4
We examined the relationship between internal resources (root reserves), external resources (soil fertility), and allocation to defense vs. growth in the clonal, perennial herb Solanum carolinense. In a short-term (9 d) greenhouse experiment, plants were treated once with jasmonic acid (JA) to determine if polyphenols and glycoalkaloids were inducible by simulated herbivory. In a longer-term (4 wk) greenhouse experiment, we measured the cost, in terms of growth, of treatment with JA every 3 d, to determine if the induced response was due more to carbon limitation or nitrogen limitation. We manipulated the resources available to the plants by varying soil fertility and the size of root cuttings from which plants were grown, and assessed how different resource levels affected the growth and production of polyphenols and alkaloids under JA treatment or control conditions. In the short term, JA increased the concentration of polyphenols in both above- and belowground plant parts, as well as alkaloid concentrations in the roots. In the long term, the only significant secondary chemistry response to JA was an increased polyphenol concentration in above ground tissues. The total amount of polyphenols produced was the same for JA and control plants, indicating that the higher concentration was a result of the lower biomass of treated plants. In contrast, alkaloid concentrations in plants treated with JA for 4 wk did not differ from controls, but JA-treated plants contained lower total amounts of alkaloids in above ground tissues, as a result of decreased growth. Fertilizer level and root cutting size had effects on growth and the production of secondary compounds and influenced the cost of induction. Plants grown under high fertility had a greater reduction in growth in response to JA than plants grown under low fertility, indicating a greater trade-off between growth and defense for high fertility plants. Plants from larger root cuttings grew bigger without any reduction in the concentration of polyphenols and alkaloids. We demonstrated that the phenotype of S. carolinense was plastic in response to simulated herbivory, fertility level, and root cutting size, and that there was a significant growth cost to induction that varied with the environment and appears to be due in large part to the allocation of limited carbon reserves.
Journal of Chemical Ecology – Springer Journals
Published: Sep 28, 2005
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.