(en) Margareta Séquin, The Chemistry of Plants and Insects. Plants, Bugs, and Molecules, Royal Society of Chemistry, (lire en ligne), p. 63
(en) Margaret F. Roberts et Michael Wink, Alkaloids : biochemistry, ecology, and medicinal applications, New York, Plenum Press, , 486 p. (ISBN0-306-45465-3, lire en ligne).
(en) C. Michael Smith, Plant Resistance to Arthropods : Molecular and conventional approaches, Berlin, Springer, , 423 p. (ISBN1-4020-3701-5, lire en ligne)
clemson.edu
(en) Karen Russ, « Less toxic insecticides », Clemson University Home & Garden Information Center (consulté le ).
doi.org
dx.doi.org
(en) Rahmatullah Jan, Sajjad Asaf, Muhammad Numan, Lubna, Kyung-Min Kim, « Plant Secondary Metabolite Biosynthesis and Transcriptional Regulation in Response to Biotic and Abiotic Stress Conditions », Agronomy, vol. 11, no 5, , p. 968 (DOI10.3390/agronomy11050968).
(en) Carlos M. Herrera, Pilar Bazaga, « Epigenetic correlates of plant phenotypic plasticity: DNA methylation differs between prickly and nonprickly leaves in heterophyllous Ilex aquifolium (Aquifoliaceae) trees », Botanical Journal of the Linnean Society, vol. 171, no 3, , p. 441–452 (DOI10.1111/boj.12007).
(en) S. Venturi, F.M. Donati, A. Venturi et M. Venturi, « Environmental Iodine Deficiency: A Challenge to the Evolution of Terrestrial Life? », Thyroid, vol. 10, no 8, , p. 727–9 (PMID11014322, DOI10.1089/10507250050137851).
(en) Sebastiano Venturi, « Evolutionary Significance of Iodine », Current Chemical Biology-, vol. 5, no 3, , p. 155–162 (ISSN1872-3136, DOI10.2174/187231311796765012).
(en) Paul R. Ehrlich et Peter H. Raven, « Butterflies and plants: a study of coevolution. », Evolution, Society for the Study of Evolution, vol. 18, no 4, , p. 586–608 (DOI10.2307/2406212, JSTOR2406212).
(en) C.C. Labandeira, D.L. Dilcher, D.R. Davis et D.L. Wagner, « Ninety-seven million years of angiosperm-insect association: paleobiological insights into the meaning of coevolution », Proceedings of the National Academy of Science of the United States of America, vol. 91, no 25, , p. 12278–82 (PMID11607501, PMCID45420, DOI10.1073/pnas.91.25.12278, Bibcode1994PNAS...9112278L, lire en ligne [PDF]).
(en) C. Labandeira, « The origin of herbivory on land: Initial patterns of plant tissue consumption by arthropods », Insect Science, vol. 14, no 4, , p. 259–275 (DOI10.1111/j.1744-7917.2007.00152.x).
(en) Richard Karban et Anurag A. Agrawal, « Herbivore offense », Annual Review of Ecology and Systematics, vol. 33, no 1, , p. 641–664 (DOI10.1146/annurev.ecolsys.33.010802.150443).
(en) Brian D. Farrell et Charles Mitter, « Adaptive Radiation in Insects and Plants: Time and Opportunity », American Zoologist, vol. 34, no 1, , p. 57–69 (DOI10.1093/icb/34.1.57).
(en) Brian M. Traw et Todd E. Dawson, « Differential induction of trichomes by three herbivores of black mustard », Oecologia, vol. 131, no 4, , p. 526–532 (DOI10.1007/s00442-002-0924-6, lire en ligne [PDF], consulté le ).
(en) Richard Karban, Anurag A. Agrawal et Marc Mangel, « The benefits of induced defenses against herbivores », Ecology, Ecological Society of America, vol. 78, no 5, , p. 1351–1355 (DOI10.2307/2266130, JSTOR2266130, lire en ligne [PDF], consulté le ).
(en) A. Mithöfer & W. Boland, « Plant defense against herbivores: chemical aspects », Annual Review of Plant Biology, vol. 63, , p. 431–450 (DOI10.1146/annurev-arplant-042110-103854).
(en) Diego Carmona, Marc J. Lajeunesse et Marc T.J. Johnson, « Plant traits that predict resistance to herbivores », Functional Ecology, vol. 25, no 2, , p. 358–367 (DOI10.1111/j.1365-2435.2010.01794.x, lire en ligne [PDF], consulté le ).
(en) Nina Theis et Manuel Lerdau, « The evolution of function in plant secondary metabolites », International Journal of Plant Science, vol. 164, no 3 Suppl., , S93–S102 (DOI10.1086/374190, lire en ligne [archive] [PDF], consulté le ).
(en) Esha Sharma, Garima Anand, Rupam Kapoor, « Terpenoids in plant and arbuscular mycorrhiza-reinforced defence against herbivorous insects », Annals of Botany, vol. 119, no 5, , p. 791–801 (DOI10.1093/aob/mcw263).
(en) HM Niemeyer, « Hydroxamic acids derived from 2-hydroxy-2H-1,4-benzoxazin-3(4H)-one: key defense chemicals of cereals », J Agric Food Chem, vol. 57, no 5, , p. 1677–1696 (DOI10.1021/jf8034034).
(en) G. Glauser, G. Marti, N. Villard, GA. Doyen, J.-L. Wolfender, TCJ. Turlings et M. Erb, « Induction and detoxification of maize 1,4-benzoxazin-3-ones by insect herbivores », Plant J, vol. 68, no 5, , p. 901–911 (DOI10.1111/j.1365-313X.2011.04740.x).
(en) John W. Hylin, « Toxic peptides and amino acids in foods and feeds », Journal of Agricultural and Food Chemistry, vol. 17, no 3, , p. 492–496 (DOI10.1021/jf60163a003).
(en) Mark V. Barrow, Charles F. Simpson et Edward J. Miller, « Lathyrism: A Review », The Quarterly Review of Biology, vol. 49, no 2, , p. 101–128 (PMID4601279, DOI10.1086/408017, JSTOR2820941).
(en) Donald A. Levin et Dennis R. King, « The Impact of Fluoroacetate-Bearing Vegetation on Native Australian Fauna: A Review », Oikos, Blackwell Publishing, vol. 61, no 3, , p. 412–430 (DOI10.2307/3545249, JSTOR3545249).
(en) Chemical defenses and the susceptibility of tropical marine brown algae to herbivores. Peter D. Steinberg, Oecologia, 1986, volume 69, Number 4, pages 628-630, DOI10.1007/BF00410374.
(en) Martin Heil, Brigitte Fiala, K. Eduard Linsenmair, Thomas Boller, « Reduced Chitinase Activities in Ant Plants of the Genus Macaranga », Naturwissenschaften, vol. 86, no 3, , p. 146–149 (DOI10.1007/s001140050589).
(en) JW Hunt et al, « A novel mechanism by which silica defends grasses against herbivory », Ann Bot, vol. 102, no 4, , p. 653–656 (DOI10.1093/aob/mcn130).
(en) Susan M. Cooper et Norman Owen-Smith, « Effects of plant spinescence on large mammalian herbivores », Oecologia, vol. 68, no 3, , p. 446–455 (DOI10.1007/BF01036753).
(en) W. Bond, W. Lee et J. Craine, « Plant structural defences against browsing birds: a legacy of New Zealand's extinct moas », Oikos, vol. 104, no 3, , p. 500–508 (DOI10.1111/j.0030-1299.2004.12720.x).
(en) Truman P. Young, « Increased thorn length in Acacia drepanolobium- an induced response to browsing », Oecologia, vol. 71, no 3, , p. 436–438. (DOI10.1007/BF00378718).
(en) Truman P. Young et Bell Okello, « Relaxation of an induced defense after exclusion of herbivores: spines on Acacia drepanolobium », Oecologia, vol. 115, no 4, , p. 508–513. (DOI10.1007/s004420050548).
Nicole Benhamou et Patrice Rey, « Stimulateurs des défenses naturelles des plantes : une nouvelle stratégie phytosanitaire dans un contexte d’écoproduction durable », Phytoprotection, vol. 92, no 1, , p. 1-23 (DOI10.7202/1012399ar)
(en) Dieter F. Hochuli, « Insect herbivory and ontogeny: How do growth and development influence feeding behaviour, morphology and host use? », Austral Ecology, vol. 26, no 5, , p. 563-570 (DOI10.1046/j.1442-9993.2001.01135.x).
(en) E. Wassim Chehab Elizabeth Eich Janet Braam, « Thigmomorphogenesis: a complex plant response to mechano-stimulation », Journal of Experimental Botany, vol. 60, no 1, , p. 43–56 (DOI10.1093/jxb/ern315).
(en) Dennis J O'Dowd, « Associations Between Mites and Leaf Domatia », Trends in Ecology & Evolution, vol. 6, no 6, , p. 179–182 (DOI10.1016/0169-5347(91)90209-G.)
(en) Simcha Lev-Yadun, Moshe Inbar, « Defensive ant, aphid and caterpillar mimicry in plants? », Biological Journal of the Linnean Society, vol. 77, no 3, , p. 393–398 (DOI10.1046/j.1095-8312.2002.00132.x, lire en ligne).
(en) Kathy S. Williams et Lawrence E. Gilbert, « Insects as selective agents on plant vegetative morphology: egg mimicry reduces egg-laying by butterflies », Science, vol. 212, no 4493, , p. 467–469 (PMID17802547, DOI10.1126/science.212.4493.467, Bibcode1981Sci...212..467W).
(en) Magnus Augner & Elizabeth A. Bernays, « Plant defence signals and Batesian mimicry », Evolutionary Ecology, vol. 12, , p. 667–679 (DOI10.1023/A:1006581415114)
(en) Marcel Dicke et Joop J.A. van Loon, « Multitrophic effects of herbivore-induced plant volatiles in an evolutionary context », Entomologia Experimentalis et Applicata, vol. 97, no 3, , p. 237–249 (DOI10.1046/j.1570-7458.2000.00736.x).
(en) Meredith C. Schuman, Kathleen Barthel et Ian T. Baldwin, « Herbivory-induced volatiles function as defenses increasing fitness of the native plant Nicotiana attenuata in nature », eLife Sciences, vol. 1, (DOI10.7554/eLife.00007, lire en ligne [PDF]).
(en) Martin Heil, Brigitte Fiala, K. Eduard Linsenmair, Gerhard Zotz et Petra Menke, « Food body production in Macaranga triloba (Euphorbiaceae): A plant investment in anti-herbivore defense via symbiotic ant partners », Journal of Ecology, British Ecological Society, vol. 85, no 6, , p. 847–861 (DOI10.2307/2960606, JSTOR2960606).
(en) Truman P. Young, Cynthia H. Stubblefield et Lynne A. Isbell, « Ants on swollen-thorn acacias: species coexistence in a simple system », Oecologia, vol. 109, no 1, , p. 98–107 (DOI10.1007/s004420050063).
(en) Alan G. Williams et Thomas G. Whitham, « Premature Leaf Abscission: An Induced Plant Defense Against Gall Aphids », Ecology, Ecological Society of America, vol. 67, no 6, , p. 1619–1627 (DOI10.2307/1939093, JSTOR1939093).
(en) Simcha Lev-Yadun, Amots Dafni, Moshe A. Flaishman, Moshe Inbar, Ido Izhaki, Gadi Katzir et Gidi Ne'eman, « Plant coloration undermines herbivorous insect camouflage », BioEssays, vol. 26, no 10, , p. 1126–1130 (PMID15382135, DOI10.1002/bies.20112, lire en ligne [PDF], consulté le ).
(en) M Archetti, M., « The origin of autumn colours by coevolution », J. Theor. Biol., vol. 205, no 4, , p. 625–630 (PMID10931756, DOI10.1006/jtbi.2000.2089).
(en) Nancy Stamp, « Out of the quagmire of plant defense hypotheses », Quarterly Review of Biology, vol. 78, no 1, , p. 23–55 (PMID12661508, DOI10.1086/367580).
(en) Peter Wilf, Conrad C. Labandeira, Kirk R. Johnson, Phyllis D. Coley et Asher D. Cutter, « Insect herbivory, plant defense, and early Cenozoic climate change », Proceedings of the National Academy of Sciences, vol. 98, no 11, , p. 6221–6226 (PMID11353840, PMCID33449, DOI10.1073/pnas.111069498, Bibcode2001PNAS...98.6221W, lire en ligne [PDF], consulté le ).
(en) Arthur R. Zangerl et Claire E. Rutledge, « The probability of attack and patterns of constitutive and induced defense: A test of optimal defense theory », The American Naturalist, vol. 147, no 4, , p. 599–608 (DOI10.1086/285868, JSTOR2463237).
(en) Elisabeth Swain, Chun Ping Li et Jonathan E. Poulton, « Development of the Potential for Cyanogenesis in Maturing Black Cherry (Prunus serotina Ehrh.) Fruits », Plant Physiology, vol. 98, no 4, , p. 1423–1428 (PMID16668810, PMCID1080367, DOI10.1104/pp.98.4.1423).
(en) Steven C. Pennings, Erin L. Siska et Mark D. Bertness, « Latitudinal differences in plant palatability in Atlantic coast salt marshes », Ecology, Ecological Society of America, vol. 82, no 5, , p. 1344–1359 (DOI10.2307/2679994, JSTOR2679994).
(en) John P. Bryant, Stuart Chapin et David R. Klein, « Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory », Oikos, Blackwell Publishing, vol. 40, no 3, , p. 357–368 (DOI10.2307/3544308, JSTOR3544308).
(en) Daniel A. Herms et William J. Mattson, « The dilemma of plants: to grow or defend », Quarterly Review of Biology, vol. 67, no 3, , p. 283–335 (DOI10.1086/417659, JSTOR2830650).
(en) Carolyn Glynn, Daniel A. Herms, Colin M. Orians, Robert C. Hansen, Stig Larsson, « Testing the growth–differentiation balance hypothesis: dynamic responses of willows to nutrient availability », New Phytologist, vol. 176, no 3, , p. 623-634 (DOI10.1111/j.1469-8137.2007.02203.x, lire en ligne).
(en) Roslyn M. Gleadow et Ian E. Woodrow, « Constraints on effectiveness of cyanogenic glycosides in herbivore defense », Journal of Chemical Ecology, vol. 28, no 7, , p. 1301–13 (PMID12199497, DOI10.1023/A:1016298100201).
(en) George Grant, Linda J. More, Norma H. McKenzie et Arpad Pusztai, « The effect of heating on the haemagglutinating activity and nutritional properties of bean (Phaseolus vulgaris) seeds », Journal of the Science of Food and Agriculture, vol. 33, no 12, , p. 1324–6 (PMID7166934, DOI10.1002/jsfa.2740331220).
(en) V. G. Dethier, « Evolution of feeding preferences in phytophagous insects », Evolution, Society for the Study of Evolution, vol. 8, no 1, , p. 33–54 (DOI10.2307/2405664, JSTOR2405664).
(en) Thomas Eisner, « Prospecting for nature's chemical riches », Chemoecology, vol. 1, no 1, , p. 38–40 (DOI10.1007/BF01240585).
elifesciences.org
elife.elifesciences.org
(en) Meredith C. Schuman, Kathleen Barthel et Ian T. Baldwin, « Herbivory-induced volatiles function as defenses increasing fitness of the native plant Nicotiana attenuata in nature », eLife Sciences, vol. 1, (DOI10.7554/eLife.00007, lire en ligne [PDF]).
findarticles.com
(en) Richard Karban, Anurag A. Agrawal et Marc Mangel, « The benefits of induced defenses against herbivores », Ecology, Ecological Society of America, vol. 78, no 5, , p. 1351–1355 (DOI10.2307/2266130, JSTOR2266130, lire en ligne [PDF], consulté le ).
(en) C.C. Labandeira, D.L. Dilcher, D.R. Davis et D.L. Wagner, « Ninety-seven million years of angiosperm-insect association: paleobiological insights into the meaning of coevolution », Proceedings of the National Academy of Science of the United States of America, vol. 91, no 25, , p. 12278–82 (PMID11607501, PMCID45420, DOI10.1073/pnas.91.25.12278, Bibcode1994PNAS...9112278L, lire en ligne [PDF]).
(en) Kathy S. Williams et Lawrence E. Gilbert, « Insects as selective agents on plant vegetative morphology: egg mimicry reduces egg-laying by butterflies », Science, vol. 212, no 4493, , p. 467–469 (PMID17802547, DOI10.1126/science.212.4493.467, Bibcode1981Sci...212..467W).
(en) Peter Wilf, Conrad C. Labandeira, Kirk R. Johnson, Phyllis D. Coley et Asher D. Cutter, « Insect herbivory, plant defense, and early Cenozoic climate change », Proceedings of the National Academy of Sciences, vol. 98, no 11, , p. 6221–6226 (PMID11353840, PMCID33449, DOI10.1073/pnas.111069498, Bibcode2001PNAS...98.6221W, lire en ligne [PDF], consulté le ).
(en) Simcha Lev-Yadun, Amots Dafni, Moshe A. Flaishman, Moshe Inbar, Ido Izhaki, Gadi Katzir et Gidi Ne'eman, « Plant coloration undermines herbivorous insect camouflage », BioEssays, vol. 26, no 10, , p. 1126–1130 (PMID15382135, DOI10.1002/bies.20112, lire en ligne [PDF], consulté le ).
ingentaconnect.com
(en) H.F. van Emden, « Transgenic Host Plant Resistance to Insects—Some Reservations », Annals of the Entomological Society of America, vol. 92, no 6, , p. 788–797 (lire en ligne, consulté le ).
issn.org
portal.issn.org
(en) Sebastiano Venturi, « Evolutionary Significance of Iodine », Current Chemical Biology-, vol. 5, no 3, , p. 155–162 (ISSN1872-3136, DOI10.2174/187231311796765012).
jstor.org
(en) Paul R. Ehrlich et Peter H. Raven, « Butterflies and plants: a study of coevolution. », Evolution, Society for the Study of Evolution, vol. 18, no 4, , p. 586–608 (DOI10.2307/2406212, JSTOR2406212).
(en) Richard Karban, Anurag A. Agrawal et Marc Mangel, « The benefits of induced defenses against herbivores », Ecology, Ecological Society of America, vol. 78, no 5, , p. 1351–1355 (DOI10.2307/2266130, JSTOR2266130, lire en ligne [PDF], consulté le ).
(en) Mark V. Barrow, Charles F. Simpson et Edward J. Miller, « Lathyrism: A Review », The Quarterly Review of Biology, vol. 49, no 2, , p. 101–128 (PMID4601279, DOI10.1086/408017, JSTOR2820941).
(en) Donald A. Levin et Dennis R. King, « The Impact of Fluoroacetate-Bearing Vegetation on Native Australian Fauna: A Review », Oikos, Blackwell Publishing, vol. 61, no 3, , p. 412–430 (DOI10.2307/3545249, JSTOR3545249).
(en) Martin Heil, Brigitte Fiala, K. Eduard Linsenmair, Gerhard Zotz et Petra Menke, « Food body production in Macaranga triloba (Euphorbiaceae): A plant investment in anti-herbivore defense via symbiotic ant partners », Journal of Ecology, British Ecological Society, vol. 85, no 6, , p. 847–861 (DOI10.2307/2960606, JSTOR2960606).
(en) Alan G. Williams et Thomas G. Whitham, « Premature Leaf Abscission: An Induced Plant Defense Against Gall Aphids », Ecology, Ecological Society of America, vol. 67, no 6, , p. 1619–1627 (DOI10.2307/1939093, JSTOR1939093).
(en) Arthur R. Zangerl et Claire E. Rutledge, « The probability of attack and patterns of constitutive and induced defense: A test of optimal defense theory », The American Naturalist, vol. 147, no 4, , p. 599–608 (DOI10.1086/285868, JSTOR2463237).
(en) Steven C. Pennings, Erin L. Siska et Mark D. Bertness, « Latitudinal differences in plant palatability in Atlantic coast salt marshes », Ecology, Ecological Society of America, vol. 82, no 5, , p. 1344–1359 (DOI10.2307/2679994, JSTOR2679994).
(en) John P. Bryant, Stuart Chapin et David R. Klein, « Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory », Oikos, Blackwell Publishing, vol. 40, no 3, , p. 357–368 (DOI10.2307/3544308, JSTOR3544308).
(en) Daniel A. Herms et William J. Mattson, « The dilemma of plants: to grow or defend », Quarterly Review of Biology, vol. 67, no 3, , p. 283–335 (DOI10.1086/417659, JSTOR2830650).
(en) V. G. Dethier, « Evolution of feeding preferences in phytophagous insects », Evolution, Society for the Study of Evolution, vol. 8, no 1, , p. 33–54 (DOI10.2307/2405664, JSTOR2405664).
(en) S. Venturi, F.M. Donati, A. Venturi et M. Venturi, « Environmental Iodine Deficiency: A Challenge to the Evolution of Terrestrial Life? », Thyroid, vol. 10, no 8, , p. 727–9 (PMID11014322, DOI10.1089/10507250050137851).
(en) C.C. Labandeira, D.L. Dilcher, D.R. Davis et D.L. Wagner, « Ninety-seven million years of angiosperm-insect association: paleobiological insights into the meaning of coevolution », Proceedings of the National Academy of Science of the United States of America, vol. 91, no 25, , p. 12278–82 (PMID11607501, PMCID45420, DOI10.1073/pnas.91.25.12278, Bibcode1994PNAS...9112278L, lire en ligne [PDF]).
(en) Mark V. Barrow, Charles F. Simpson et Edward J. Miller, « Lathyrism: A Review », The Quarterly Review of Biology, vol. 49, no 2, , p. 101–128 (PMID4601279, DOI10.1086/408017, JSTOR2820941).
(en) Kathy S. Williams et Lawrence E. Gilbert, « Insects as selective agents on plant vegetative morphology: egg mimicry reduces egg-laying by butterflies », Science, vol. 212, no 4493, , p. 467–469 (PMID17802547, DOI10.1126/science.212.4493.467, Bibcode1981Sci...212..467W).
(en) Simcha Lev-Yadun, Amots Dafni, Moshe A. Flaishman, Moshe Inbar, Ido Izhaki, Gadi Katzir et Gidi Ne'eman, « Plant coloration undermines herbivorous insect camouflage », BioEssays, vol. 26, no 10, , p. 1126–1130 (PMID15382135, DOI10.1002/bies.20112, lire en ligne [PDF], consulté le ).
(en) M Archetti, M., « The origin of autumn colours by coevolution », J. Theor. Biol., vol. 205, no 4, , p. 625–630 (PMID10931756, DOI10.1006/jtbi.2000.2089).
(en) Nancy Stamp, « Out of the quagmire of plant defense hypotheses », Quarterly Review of Biology, vol. 78, no 1, , p. 23–55 (PMID12661508, DOI10.1086/367580).
(en) Peter Wilf, Conrad C. Labandeira, Kirk R. Johnson, Phyllis D. Coley et Asher D. Cutter, « Insect herbivory, plant defense, and early Cenozoic climate change », Proceedings of the National Academy of Sciences, vol. 98, no 11, , p. 6221–6226 (PMID11353840, PMCID33449, DOI10.1073/pnas.111069498, Bibcode2001PNAS...98.6221W, lire en ligne [PDF], consulté le ).
(en) Elisabeth Swain, Chun Ping Li et Jonathan E. Poulton, « Development of the Potential for Cyanogenesis in Maturing Black Cherry (Prunus serotina Ehrh.) Fruits », Plant Physiology, vol. 98, no 4, , p. 1423–1428 (PMID16668810, PMCID1080367, DOI10.1104/pp.98.4.1423).
(en) M.C. Witmer, « Ecological and evolutionary implications of energy and protein requirements of avian frugivores eating sugary diets », Physiological Zoology, vol. 71, no 6, , p. 599–610 (PMID9798248).
(en) Roslyn M. Gleadow et Ian E. Woodrow, « Constraints on effectiveness of cyanogenic glycosides in herbivore defense », Journal of Chemical Ecology, vol. 28, no 7, , p. 1301–13 (PMID12199497, DOI10.1023/A:1016298100201).
(en) George Grant, Linda J. More, Norma H. McKenzie et Arpad Pusztai, « The effect of heating on the haemagglutinating activity and nutritional properties of bean (Phaseolus vulgaris) seeds », Journal of the Science of Food and Agriculture, vol. 33, no 12, , p. 1324–6 (PMID7166934, DOI10.1002/jsfa.2740331220).
(en) B. Ghosh, « Polyamines and plant alkaloids », Indian Journal of Experimental Biology, vol. 38, no 11, , p. 1086–91 (PMID11395950).
pitt.edu
(en) Brian M. Traw et Todd E. Dawson, « Differential induction of trichomes by three herbivores of black mustard », Oecologia, vol. 131, no 4, , p. 526–532 (DOI10.1007/s00442-002-0924-6, lire en ligne [PDF], consulté le ).
pnas.org
(en) C.C. Labandeira, D.L. Dilcher, D.R. Davis et D.L. Wagner, « Ninety-seven million years of angiosperm-insect association: paleobiological insights into the meaning of coevolution », Proceedings of the National Academy of Science of the United States of America, vol. 91, no 25, , p. 12278–82 (PMID11607501, PMCID45420, DOI10.1073/pnas.91.25.12278, Bibcode1994PNAS...9112278L, lire en ligne [PDF]).
(en) Peter Wilf, Conrad C. Labandeira, Kirk R. Johnson, Phyllis D. Coley et Asher D. Cutter, « Insect herbivory, plant defense, and early Cenozoic climate change », Proceedings of the National Academy of Sciences, vol. 98, no 11, , p. 6221–6226 (PMID11353840, PMCID33449, DOI10.1073/pnas.111069498, Bibcode2001PNAS...98.6221W, lire en ligne [PDF], consulté le ).
(en) Simcha Lev-Yadun, Moshe Inbar, « Defensive ant, aphid and caterpillar mimicry in plants? », Biological Journal of the Linnean Society, vol. 77, no 3, , p. 393–398 (DOI10.1046/j.1095-8312.2002.00132.x, lire en ligne).
sunysb.edu
life.bio.sunysb.edu
(en) Nina Theis et Manuel Lerdau, « The evolution of function in plant secondary metabolites », International Journal of Plant Science, vol. 164, no 3 Suppl., , S93–S102 (DOI10.1086/374190, lire en ligne [archive] [PDF], consulté le ).
ufmg.br
icb.ufmg.br
(en) G.W. Fernandes, « Plant mechanical defenses against insect herbivory », Revista Brasileira de Entomologia, vol. 38, no 2, , p. 421–433 (lire en ligne).
(en) Diego Carmona, Marc J. Lajeunesse et Marc T.J. Johnson, « Plant traits that predict resistance to herbivores », Functional Ecology, vol. 25, no 2, , p. 358–367 (DOI10.1111/j.1365-2435.2010.01794.x, lire en ligne [PDF], consulté le ).
(en) Carolyn Glynn, Daniel A. Herms, Colin M. Orians, Robert C. Hansen, Stig Larsson, « Testing the growth–differentiation balance hypothesis: dynamic responses of willows to nutrient availability », New Phytologist, vol. 176, no 3, , p. 623-634 (DOI10.1111/j.1469-8137.2007.02203.x, lire en ligne).
worldcat.org
(en) Reginald Henry Painter, Insect Resistance in Crop Plants, Lawrence, University of Kansas Press, (OCLC443998).
(en) Pavel G. Chesnokov, Methods of Investigating Plant Resistance to Pests, Jérusalem, Israel Program for Scientific Translations, (OCLC3576157).
yeacrops.com
J. Linden, R. Stoner, K. Knutson et C. Gardner-Hughes, « Organic Disease Control Elicitors », Agro Food Industry Hi-Te, octobre 2000), p. 12-15.
18
(en) Nina Theis et Manuel Lerdau, « The evolution of function in plant secondary metabolites », International Journal of Plant Science, vol. 164, no 3 Suppl., , S93–S102 (DOI10.1086/374190, lire en ligne [archive] [PDF], consulté le ).