Sites of synthesis, biochemistry and functional role of plant volatiles

[1]  Vinod Kumar,et al.  Larvicidal and Structure–Activity Studies of Natural Phenylpropanoids and Their Semisynthetic Derivatives against the Tobacco Armyworm Spodoptera litura (Fab.) (Lepidoptera: Noctuidae) , 2010, Chemistry & biodiversity.

[2]  M. Reichelt,et al.  Emission of Volatile Organic Compounds After Herbivory from Trifolium pratense (L.) Under Laboratory and Field Conditions , 2009, Journal of Chemical Ecology.

[3]  D. Hegedus,et al.  Responses of the Crucifer Flea Beetle to Brassica Volatiles in an Olfactometer , 2009, Environmental entomology.

[4]  I. Baldwin,et al.  Herbivory-induced signalling in plants: perception and action. , 2009, Plant, cell & environment.

[5]  Changmann Yoon,et al.  Comparative repellency of essential oils against Culex pipiens pallens (Diptera: Culicidae) , 2009 .

[6]  Petra M. Bleeker,et al.  The Role of Specific Tomato Volatiles in Tomato-Whitefly Interaction1[W][OA] , 2009, Plant Physiology.

[7]  J. Gershenzon,et al.  Restoring a maize root signal that attracts insect-killing nematodes to control a major pest , 2009, Proceedings of the National Academy of Sciences.

[8]  M. Arx,et al.  Host plant volatiles serve to increase the response of male European grape berry moths, Eupoecilia ambiguella, to their sex pheromone , 2009, Journal of Comparative Physiology A.

[9]  G. Arimura,et al.  Chemical and molecular ecology of herbivore-induced plant volatiles: proximate factors and their ultimate functions. , 2009, Plant & cell physiology.

[10]  Miguel Borges,et al.  Attraction of the stink bug egg parasitoid Telenomus podisi to defence signals from soybean activated by treatment with cis‐jasmone , 2009 .

[11]  J. Gershenzon,et al.  Floral and insect-induced volatile formation in Arabidopsis lyrata ssp. petraea, a perennial, outcrossing relative of A. thaliana , 2009, Planta.

[12]  M. Maffei,et al.  Herbivory induces a ROS burst and the release of volatile organic compounds in the fern Pteris vittata L. , 2009 .

[13]  M. Maffei,et al.  Chemical ecology of plant-insect interactions , 2009 .

[14]  A. Vilcinskas,et al.  Pathogen-induced Release of Plant Allomone Manipulates Vector Insect Behavior , 2008, Journal of Chemical Ecology.

[15]  M. Digilio,et al.  Aphid-plant interactions: a review , 2008 .

[16]  J. Parker Molecular Aspects of Plant Disease Resistance , 2008 .

[17]  A. M. Api,et al.  Fragrance material review on vetiverol. , 2008, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[18]  M. Maffei,et al.  The microbial community of Vetiver root and its involvement into essential oil biogenesis. , 2008, Environmental microbiology.

[19]  M. Heil,et al.  Trade‐offs between direct and indirect defences of lima bean (Phaseolus lunatus) , 2008 .

[20]  F. Nazzi,et al.  Repellent effect of sweet basil compounds on Ixodes ricinus ticks , 2008, Experimental and Applied Acarology.

[21]  Hoo Sun Chung,et al.  Jasmonate signaling: a conserved mechanism of hormone sensing. , 2008, Current opinion in plant biology.

[22]  E. Mäntylä,et al.  From Plants to Birds: Higher Avian Predation Rates in Trees Responding to Insect Herbivory , 2008, PloS one.

[23]  A. Vilcinskas,et al.  Phytopathogen Lures Its Insect Vector by Altering Host Plant Odor , 2008, Journal of Chemical Ecology.

[24]  M. Birkett,et al.  Identification of Volatile Compounds Used in Host Location by the Black Bean Aphid, Aphis fabae , 2008, Journal of Chemical Ecology.

[25]  J. Chappell Production platforms for the molecular pharming of alkaloid diversity , 2008, Proceedings of the National Academy of Sciences.

[26]  J. Bohlmann,et al.  Monoterpene-induced molecular responses in Arabidopsis thaliana. , 2008, Phytochemistry.

[27]  T. Meiners,et al.  Foraging behavior of egg parasitoids exploiting chemical information , 2008 .

[28]  W. Boland,et al.  Defense-Inducing Volatiles: In Search of the Active Motif , 2008, Journal of Chemical Ecology.

[29]  Ming-shun Chen Inducible direct plant defense against insect herbivores: A review , 2008 .

[30]  M. Heil Indirect defence via tritrophic interactions. , 2008, The New phytologist.

[31]  E. Pichersky,et al.  Metabolic engineering of plant volatiles. , 2008, Current opinion in biotechnology.

[32]  M. Zeder,et al.  13C-labelling patterns of green leaf volatiles indicating different dynamics of precursors in Brassica leaves. , 2008, Phytochemistry.

[33]  V. Velikova Isoprene as a tool for plant protection against abiotic stresses , 2008 .

[34]  P. Teal,et al.  The Attraction of Spodoptera frugiperda Neonates to Cowpea Seedlings is Mediated by Volatiles Induced by Conspecific Herbivory and the Elicitor Inceptin , 2008, Journal of Chemical Ecology.

[35]  L. Arnaud,et al.  Aphid and Plant Volatiles Induce Oviposition in an Aphidophagous Hoverfly , 2008, Journal of Chemical Ecology.

[36]  G. Arimura,et al.  Effects of Feeding Spodoptera littoralis on Lima Bean Leaves: IV. Diurnal and Nocturnal Damage Differentially Initiate Plant Volatile Emission1[W][OA] , 2007, Plant Physiology.

[37]  C. Kost,et al.  The Defensive Role of Volatile Emission and Extrafloral Nectar Secretion for Lima Bean in Nature , 2007, Journal of Chemical Ecology.

[38]  J. Holopainen,et al.  Emission of herbivore‐induced volatile terpenoids from two hybrid aspen (Populus tremula×tremuloides) clones under ambient and elevated ozone concentrations in the field , 2007 .

[39]  L. Cseke,et al.  The Biology of Essential Oils in the Pollination of Flowers , 2007 .

[40]  Axel Mithöfer,et al.  Insects feeding on plants: rapid signals and responses preceding the induction of phytochemical release. , 2007, Phytochemistry.

[41]  M. Petersen Current status of metabolic phytochemistry. , 2007, Phytochemistry.

[42]  J. Holopainen,et al.  The Role of Ozone-reactive Compounds, Terpenes, and Green Leaf Volatiles (GLVs), in the Orientation of Cotesia plutellae , 2007, Journal of Chemical Ecology.

[43]  G. Arimura,et al.  Herbivore-induced terpenoid emission in Medicago truncatula: concerted action of jasmonate, ethylene and calcium signaling , 2007, Planta.

[44]  T. Sharkey,et al.  Isoprene emission from plants: why and how. , 2007, Annals of botany.

[45]  Dhirendra Kumar,et al.  Methyl Salicylate Is a Critical Mobile Signal for Plant Systemic Acquired Resistance , 2007, Science.

[46]  C. Wasternack,et al.  Jasmonates: an update on biosynthesis, signal transduction and action in plant stress response, growth and development. , 2007, Annals of botany.

[47]  Sergio Rasmann,et al.  Simultaneous feeding by aboveground and belowground herbivores attenuates plant-mediated attraction of their respective natural enemies. , 2007, Ecology letters.

[48]  Petri Peltonen,et al.  Epirrita autumnata induced VOC emission of silver birch differ from emission induced by leaf fungal pathogen , 2007, Arthropod-Plant Interactions.

[49]  E. Guerrieri,et al.  Host-locating response by the aphid parasitoid Aphidius ervi to tomato plant volatiles , 2007 .

[50]  Axel Mithöfer,et al.  Before gene expression: early events in plant-insect interaction. , 2007, Trends in plant science.

[51]  J. Bohlmann,et al.  Transgenic, non-isoprene emitting poplars don't like it hot. , 2007, The Plant journal : for cell and molecular biology.

[52]  T. Maeda,et al.  Genetic variations in a population of herbivorous mites Tetranychus urticae in the production of the induced volatiles by kidney bean plants , 2007 .

[53]  A. Bakhrouf,et al.  The chemical composition and biological activity of clove essential oil, Eugenia caryophyllata (Syzigium aromaticum L. Myrtaceae): a short review , 2007, Phytotherapy research : PTR.

[54]  M. Haring,et al.  Tomato linalool synthase is induced in trichomes by jasmonic acid , 2007, Plant Molecular Biology.

[55]  J. Peñuelas,et al.  Volatile organic compounds in the roots and rhizosphere of Pinus spp. , 2007 .

[56]  F. A. Macias,et al.  Allelopathy--a natural alternative for weed control. , 2007, Pest management science.

[57]  M. Mescher,et al.  Induction of Plant Volatiles by Herbivores with Different Feeding Habits and the Effects of Induced Defenses on Host-Plant Selection by Thrips , 2007, Journal of Chemical Ecology.

[58]  M. Heil,et al.  Within-plant signaling by volatiles leads to induction and priming of an indirect plant defense in nature , 2007, Proceedings of the National Academy of Sciences.

[59]  T. M. Bezemer,et al.  Impact of foliar herbivory on the development of a root-feeding insect and its parasitoid , 2007, Oecologia.

[60]  T. Ashman,et al.  Flower color-flower scent associations in polymorphic Hesperis matronalis (Brassicaceae). , 2007, Phytochemistry.

[61]  T. M. Bezemer,et al.  Root herbivores influence the behaviour of an aboveground parasitoid through changes in plant‐volatile signals , 2007 .

[62]  J. Holopainen,et al.  Ozone Degrades Common Herbivore-Induced Plant Volatiles: Does This Affect Herbivore Prey Location by Predators and Parasitoids? , 2007, Journal of Chemical Ecology.

[63]  M. Dicke,et al.  Ecogenomic approach to the role of herbivore‐induced plant volatiles in community ecology , 2007 .

[64]  C. Smith,et al.  The molecular bases of plant resistance and defense responses to aphid feeding: current status , 2007 .

[65]  M. Held,et al.  Priming by airborne signals boosts direct and indirect resistance in maize. , 2006, The Plant journal : for cell and molecular biology.

[66]  T. Nishioka,et al.  Changing green leaf volatile biosynthesis in plants: An approach for improving plant resistance against both herbivores and pathogens , 2006, Proceedings of the National Academy of Sciences.

[67]  N. Dudareva,et al.  Plant Volatiles: Recent Advances and Future Perspectives , 2006 .

[68]  Gerd Gleixner,et al.  Dynamic pathway allocation in early terpenoid biosynthesis of stress-induced lima bean leaves. , 2006, Phytochemistry.

[69]  J. Ton,et al.  Exploiting scents of distress: the prospect of manipulating herbivore-induced plant odours to enhance the control of agricultural pests. , 2006, Current opinion in plant biology.

[70]  L. Davin,et al.  Chavicol formation in sweet basil (Ocimum basilicum): cleavage of an esterified C9 hydroxyl group with NAD(P)H-dependent reduction. , 2006, Organic & biomolecular chemistry.

[71]  J. Noel,et al.  Eugenol and isoeugenol, characteristic aromatic constituents of spices, are biosynthesized via reduction of a coniferyl alcohol ester. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[72]  P. Chourey,et al.  Fragments of ATP synthase mediate plant perception of insect attack. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[73]  D. Tholl Terpene synthases and the regulation, diversity and biological roles of terpene metabolism. , 2006, Current opinion in plant biology.

[74]  Monika Hilker,et al.  Early Herbivore Alert: Insect Eggs Induce Plant Defense , 2006, Journal of Chemical Ecology.

[75]  C. Kost,et al.  Herbivore‐induced plant volatiles induce an indirect defence in neighbouring plants , 2006 .

[76]  L. Tian,et al.  Induction of Volatile Organic Compounds of Lycopersicon esculentum Mill. and Its Resistance to Botrytis cinerea Pers. by Burdock Oligosaccharide , 2006 .

[77]  S. Schütz,et al.  Linalool and lilac aldehyde/alcohol in flower scents. Electrophysiological detection of lilac aldehyde stereoisomers by a moth. , 2006, Journal of chromatography. A.

[78]  H. Bouwmeester,et al.  Isoprenoid biosynthesis in Artemisia annua: cloning and heterologous expression of a germacrene A synthase from a glandular trichome cDNA library. , 2006, Archives of biochemistry and biophysics.

[79]  J. Gershenzon,et al.  Diversity and distribution of floral scent , 2006, The Botanical Review.

[80]  J. Noel,et al.  Biosynthesis of Plant Volatiles: Nature's Diversity and Ingenuity , 2006, Science.

[81]  Ian T. Baldwin,et al.  Volatile Signaling in Plant-Plant Interactions: "Talking Trees" in the Genomics Era , 2006, Science.

[82]  I. Baldwin,et al.  Priming of plant defense responses in nature by airborne signaling between Artemisia tridentata and Nicotiana attenuata , 2006, Oecologia.

[83]  Jörg-Peter Schnitzler,et al.  Practical approaches to plant volatile analysis. , 2006, The Plant journal : for cell and molecular biology.

[84]  A. Aharoni,et al.  Volatile science? Metabolic engineering of terpenoids in plants. , 2005, Trends in plant science.

[85]  T. M. Bezemer,et al.  Linking aboveground and belowground interactions via induced plant defenses. , 2005, Trends in ecology & evolution.

[86]  A. Aharoni,et al.  Genetic Engineering of Terpenoid Metabolism Attracts Bodyguards to Arabidopsis , 2005, Science.

[87]  J. Peñuelas,et al.  Opportunistic emissions of volatile isoprenoids. , 2005, Trends in plant science.

[88]  K. Park,et al.  Methyl Salicylate, a Soybean Aphid-Induced Plant Volatile Attractive to the Predator Coccinella septempunctata , 2005, Journal of Chemical Ecology.

[89]  Armelle Vallat,et al.  How rainfall, relative humidity and temperature influence volatile emissions from apple trees in situ. , 2005, Phytochemistry.

[90]  Wolfgang W. Weisser,et al.  Alarm pheromone mediates production of winged dispersal morphs in aphids , 2005 .

[91]  P. Padhy,et al.  Emission of volatile organic compounds (VOC) from tropical plant species in India. , 2005, Chemosphere.

[92]  Christine Woodcock,et al.  Insect host location: a volatile situation. , 2005, Trends in plant science.

[93]  C. Kost,et al.  Herbivore-induced, indirect plant defences. , 2005, Biochimica et biophysica acta.

[94]  Ted C. J. Turlings,et al.  Recruitment of entomopathogenic nematodes by insect-damaged maize roots , 2005, Nature.

[95]  B. Camara,et al.  Oxidative tailoring of carotenoids: a prospect towards novel functions in plants. , 2005, Trends in plant science.

[96]  M. Farag,et al.  (Z)-3-Hexenol induces defense genes and downstream metabolites in maize , 2005, Planta.

[97]  W. Boland,et al.  Effects of Feeding Spodoptera littoralis on Lima Bean Leaves. II. Continuous Mechanical Wounding Resembling Insect Feeding Is Sufficient to Elicit Herbivory-Related Volatile Emission , 2005, Plant Physiology.

[98]  J. Holopainen,et al.  Emission of volatile organic compounds from two silver birch (Betula pendula Roth) clones grown under ambient and elevated CO2 and different O3 concentrations , 2005 .

[99]  J. Kesselmeier,et al.  Strong correlation between isoprene emission and gross photosynthetic capacity during leaf phenology of the tropical tree species Hymenaea courbaril with fundamental changes in volatile organic compounds emission composition during early leaf development , 2004 .

[100]  J. Holopainen,et al.  Multiple functions of inducible plant volatiles. , 2004, Trends in plant science.

[101]  C. Pieterse,et al.  Jasmonates - Signals in Plant-Microbe Interactions , 2004, Journal of Plant Growth Regulation.

[102]  J. Bohlmann,et al.  Herbivore-Induced Defense Response in a Model Legume. Two-Spotted Spider Mites Induce Emission of (E)-β-Ocimene and Transcript Accumulation of (E)-β-Ocimene Synthase in Lotus japonicus1 , 2004, Plant Physiology.

[103]  J. Peñuelas,et al.  Plant VOC emissions: making use of the unavoidable. , 2004, Trends in ecology & evolution.

[104]  F. Marion-Poll,et al.  High Genetic Variability of Herbivore-Induced Volatile Emission within a Broad Range of Maize Inbred Lines1 , 2004, Plant Physiology.

[105]  D. G. James,et al.  Field-Testing of Methyl Salicylate for Recruitment and Retention of Beneficial Insects in Grapes and Hops , 2004, Journal of Chemical Ecology.

[106]  M. Anstett,et al.  Localization of production and emission of pollinator attractant on whole leaves of Chamaerops humilis (Arecaceae). , 2004, American journal of botany.

[107]  K. Linsenmair,et al.  Evolutionary change from induced to constitutive expression of an indirect plant resistance , 2004, Nature.

[108]  M. Dicke,et al.  Indirect defence of plants against herbivores: using Arabidopsis thaliana as a model plant. , 2004, Plant biology.

[109]  M. Heil Direct Defense or Ecological Costs: Responses of Herbivorous Beetles to Volatiles Released by Wild Lima Bean (Phaseolus lunatus) , 2004, Journal of Chemical Ecology.

[110]  M. Heil,et al.  Induction of two indirect defences benefits Lima bean (Phaseolus lunatus, Fabaceae) in nature , 2004 .

[111]  M. Reichstein,et al.  Physiological and physicochemical controls on foliar volatile organic compound emissions. , 2004, Trends in plant science.

[112]  C. N. Hewitt,et al.  Impact of rising CO2 on emissions of volatile organic compounds: isoprene emission from Phragmites australis growing at elevated CO2 in a natural carbon dioxide spring† , 2004 .

[113]  C. L. Truitt,et al.  In situ translocation of volicitin by beet armyworm larvae to maize and systemic immobility of the herbivore elicitor in planta , 2004, Planta.

[114]  J. Tumlinson,et al.  Airborne signals prime plants against insect herbivore attack. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[115]  G. Reddy,et al.  Monoterpene and herbivore-induced emissions from cabbage plants grown at elevated atmospheric CO2 concentration , 2004 .

[116]  Kenneth F. Raffa,et al.  FEEDBACK BETWEEN INDIVIDUAL HOST SELECTION BEHAVIOR AND POPULATION DYNAMICS IN AN ERUPTIVE HERBIVORE , 2004 .

[117]  C. L. Truitt,et al.  A Plasma Membrane Protein from Zea mays Binds with the Herbivore Elicitor Volicitin , 2004, The Plant Cell Online.

[118]  H. E. Dobson,et al.  Antennal Responses to Floral Scents in the Butterfly Heliconius melpomene , 2003, Journal of Chemical Ecology.

[119]  J. Tumlinson,et al.  Nitrogen Deficiency Increases Volicitin-Induced Volatile Emission, Jasmonic Acid Accumulation, and Ethylene Sensitivity in Maize1 , 2003, Plant Physiology.

[120]  Jörg Bohlmann,et al.  Induction of Volatile Terpene Biosynthesis and Diurnal Emission by Methyl Jasmonate in Foliage of Norway Spruce1 , 2003, Plant Physiology.

[121]  R. Raguso,et al.  Fragrance chemistry, nocturnal rhythms and pollination "syndromes" in Nicotiana. , 2003, Phytochemistry.

[122]  A. Borg-Karlson,et al.  Identification of plant odours activating receptor neurones in the weevil Pissodes notatus F. (Coleoptera, Curculionidae) , 2003, Journal of Comparative Physiology A.

[123]  J. Cape Effects of airborne volatile organic compounds on plants. , 2003, Environmental pollution.

[124]  Junji Takabayashi,et al.  Functional identification of AtTPS03 as (E)-β-ocimene synthase: a monoterpene synthase catalyzing jasmonate- and wound-induced volatile formation in Arabidopsis thaliana , 2003, Planta.

[125]  T. Barkman Evidence for positive selection on the floral scent gene isoeugenol-O-methyltransferase. , 2003, Molecular biology and evolution.

[126]  Pavel Kabat,et al.  Volatile organic compound emissions in relation to plant carbon fixation and the terrestrial carbon budget , 2002 .

[127]  J. Gatehouse Plant resistance towards insect herbivores: a dynamic interaction. , 2002, The New phytologist.

[128]  E. Pichersky,et al.  Characterization of an Acyltransferase Capable of Synthesizing Benzylbenzoate and Other Volatile Esters in Flowers and Damaged Leaves of Clarkia breweri 1 , 2002, Plant Physiology.

[129]  T. Meiners,et al.  Induction of plant responses to oviposition and feeding by herbivorous arthropods: a comparison , 2002 .

[130]  T. C. Turlings,et al.  The Effects of Abiotic Factors on Induced Volatile Emissions in Corn Plants1 , 2002, Plant Physiology.

[131]  Eran Pichersky,et al.  The formation and function of plant volatiles: perfumes for pollinator attraction and defense. , 2002, Current opinion in plant biology.

[132]  Anthony L. Schilmiller,et al.  Oxylipin metabolism in response to stress. , 2002, Current opinion in plant biology.

[133]  Jennifer A. Rudgers,et al.  Direct and ecological costs of resistance to herbivory , 2002 .

[134]  M. Hossaert-McKey,et al.  Specific Attraction of Fig-Pollinating Wasps: Role of Volatile Compounds Released by Tropical Figs , 2002, Journal of Chemical Ecology.

[135]  E. Woltering,et al.  Enhanced fumigant toxicity of p-cymene against Frankliniella occidentalis by simultaneous application of elevated levels of carbon dioxide. , 2002, Pest management science.

[136]  M. Maffei Vetiveria: the genus Vetiveria. , 2002 .

[137]  T. Tscharntke,et al.  Herbivory, induced resistance, and interplant signal transfer in Alnus glutinosa , 2001 .

[138]  C. N. Hewitt,et al.  Volatile organic compounds (VOCs) emitted from 40 Mediterranean plant species : VOC speciation and extrapolation to habitat scale , 2001 .

[139]  G. Powell,et al.  The chemical ecology of aphid host alternation: How do return migrants find the primary host plant? , 2001 .

[140]  F. Chen,et al.  Evaluation of Vetiver Oil and Seven Insect-Active Essential Oils Against the Formosan Subterranean Termite , 2001, Journal of Chemical Ecology.

[141]  J. Kesselmeier Exchange of Short-Chain Oxygenated Volatile Organic Compounds (VOCs) between Plants and the Atmosphere: A Compilation of Field and Laboratory Studies , 2001 .

[142]  N. Dudareva,et al.  Cellular and subcellular localization of S-adenosyl-L-methionine:benzoic acid carboxyl methyltransferase, the enzyme responsible for biosynthesis of the volatile ester methylbenzoate in snapdragon flowers. , 2001, Plant physiology.

[143]  J. Mastelić,et al.  Composition of Free and Glycosidically Bound Volatiles of Mentha aquatica L. , 2001 .

[144]  T. Sharkey,et al.  Isoprene increases thermotolerance of fosmidomycin-fed leaves. , 2001, Plant physiology.

[145]  J. Simon,et al.  An investigation of the storage and biosynthesis of phenylpropenes in sweet basil. , 2001, Plant physiology.

[146]  J. Tumlinson,et al.  An herbivore elicitor activates the gene for indole emission in maize. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[147]  M. Dicke,et al.  Multitrophic effects of herbivore‐induced plant volatiles in an evolutionary context , 2000 .

[148]  J. Gershenzon,et al.  Distribution of peltate glandular trichomes on developing leaves of peppermint. , 2000, Plant physiology.

[149]  P. Crutzen,et al.  Emissions of volatile organic compounds from Quercus ilex L. measured by Proton Transfer Reaction Mass Spectrometry under different environmental conditions , 2000 .

[150]  Junji Takabayashi,et al.  Herbivory-induced volatiles elicit defence genes in lima bean leaves , 2000, Nature.

[151]  T. Sharkey,et al.  The effects of high temperature on isoprene synthesis in oak leaves , 2000 .

[152]  L. Walling,et al.  The Myriad Plant Responses to Herbivores , 2000, Journal of Plant Growth Regulation.

[153]  J. Gershenzon,et al.  Demonstration and characterization of (E)-nerolidol synthase from maize: a herbivore-inducible terpene synthase participating in (3E)-4,8-dimethyl-1,3,7-nonatriene biosynthesis , 2000, Planta.

[154]  H. Jactel,et al.  Terpene Attractant Candidates of Dioryctria sylvestrella in Maritime Pine (Pinus pinaster) Oleoresin, Needles, Liber, and Headspace Samples , 1999, Journal of Chemical Ecology.

[155]  J. Gershenzon,et al.  Limonene synthase, the enzyme responsible for monoterpene biosynthesis in peppermint, is localized to leucoplasts of oil gland secretory cells , 1999, Plant physiology.

[156]  L. Jahodář,et al.  Toxicity with Respect to Pharmaceutically Important Species in the Family Asteraceae , 1999 .

[157]  J. Kesselmeier,et al.  Biogenic Volatile Organic Compounds (VOC): An Overview on Emission, Physiology and Ecology , 1999 .

[158]  M. Hasegawa,et al.  Intraindividual variations of volatile terpene contents in Pinus caribaea needles and its possible relationship to Atta laevigata herbivory , 1997 .

[159]  L. B. Thien,et al.  Distribution and Differential Expression of (E)-4,8-Dimethyl-1,3,7-Nonatriene in Leaf and Floral Volatiles of Magnolia and Liriodendron Taxa , 1997, Journal of Chemical Ecology.

[160]  J. Tumlinson,et al.  De Novo Biosynthesis of Volatiles Induced by Insect Herbivory in Cotton Plants , 1997, Plant physiology.

[161]  R. Monson,et al.  Plant Production and Emission of Volatile Organic Compounds , 1997 .

[162]  Joy Bergelson,et al.  Surveying Patterns in the Cost of Resistance in Plants , 1996, The American Naturalist.

[163]  James H. Tumlinson,et al.  Plant Volatile Signals in Response to Herbivore Feeding , 1996 .

[164]  C. N. Hewitt,et al.  A global model of natural volatile organic compound emissions , 1995 .

[165]  J. Mattheis,et al.  Drought stress of apple trees alters leaf emissions of volatile compounds , 1995 .

[166]  John H. Loughrin,et al.  Diurnal cycle of emission of induced volatile terpenoids by herbivore-injured cotton plant. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[167]  J. H. Langenheim Higher plant terpenoids: A phytocentric overview of their ecological roles , 1994, Journal of Chemical Ecology.

[168]  G. Berta,et al.  Nuclear morphology and DNA content in the glandular trichomes of peppermint (Mentha×piperita L.) , 1993, Protoplasma.

[169]  W. Lewis,et al.  Exploitation of Herbivore-Induced Plant Odors by Host-Seeking Parasitic Wasps , 1990, Science.

[170]  M. Maffei,et al.  Glandular trichomes and essential oils in developing peppermint leaves: I. Variation of peltate trichome number and terpene distribution within leaves. , 1989, The New phytologist.

[171]  A. Fahn Secretory tissues in vascular plants. , 1988, The New phytologist.

[172]  M. Maffei,et al.  Glandular Trichomes and Essential Oils of Developing Leaves in Mentha viridis lavanduliodora , 1986 .

[173]  W. L. Stern,et al.  Ultrastructure of osmophores in Restrepia (Orchidaceae) , 1983 .

[174]  J. Müller,et al.  Variation in biogenic volatile organic compound emission pattern of Fagus sylvatica L. due to aphid infection. , 2010 .

[175]  M. Hossaert-McKey,et al.  Signalling receptivity: Comparison of the emission of volatile compounds by figs of Ficus hispida before, during and after the phase of receptivity to pollinators , 2008 .

[176]  G. Poppy,et al.  The influence of different nutrient levels on insect-induced plant volatiles in Bt and conventional oilseed rape plants. , 2008, Plant biology.

[177]  H. Rennenberg,et al.  VOC emissions of Grey poplar leaves as affected by salt stress and different N sources. , 2008, Plant biology.

[178]  J. Gershenzon,et al.  Characterization of a BAHD acyltransferase responsible for producing the green leaf volatile (Z)-3-hexen-1-yl acetate in Arabidopsis thaliana. , 2007, The Plant journal : for cell and molecular biology.

[179]  X. Fauvergue,et al.  Herbivore-induced plant volatiles as cues for habitat assessment by a foraging parasitoid. , 2007, The Journal of animal ecology.

[180]  Z. Chilmonczyk,et al.  Volatile organic compounds : components, sources, determination. A review , 2007 .

[181]  P. Damos,et al.  Bioactivity of five monoterpenoid vapours to Tribolium confusum (du Val) (Coleoptera: Tenebrionidae) , 2007 .

[182]  G. Powell,et al.  Host plant selection by aphids: behavioral, evolutionary, and applied perspectives. , 2006, Annual review of entomology.

[183]  Gert Stange,et al.  Volatile organic compounds as signals in a plant-herbivore system: electrophysiological responses in olfactory sensilla of the moth Cactoblastis cactorum. , 2005, Chemical senses.

[184]  F. Erler,et al.  Repellency and repellent stability of essential oil constituents against Tribolium confusum , 2003 .

[185]  Y. Ahn,et al.  Insecticidal activities of constituents identified in the essential oil from leaves of Chamaecyparis obtusa against Callosobruchus chinensis (L.) and Sitophilus oryzae (L.) , 2003 .

[186]  I. Baldwin,et al.  Plant responses to insect herbivory: the emerging molecular analysis. , 2002, Annual review of plant biology.

[187]  S. H. Ho,et al.  Insecticidal properties of eugenol, isoeugenol and methyleugenol and their effects on nutrition of Sitophilus zeamais Motsch. (Coleoptera: Curculionidae) and Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) , 2002 .

[188]  W. Boland,et al.  Ion channel-forming alamethicin is a potent elicitor of volatile biosynthesis and tendril coiling. Cross talk between jasmonate and salicylate signaling in lima bean. , 2001, Plant physiology.

[189]  E. Swiezewska,et al.  Isoprenoid biosynthesis via 1-deoxy-D-xylulose 5-phosphate/2-C-methyl-D-erythritol 4-phosphate (DOXP/MEP) pathway. , 2001, Acta biochimica Polonica.

[190]  S. Duke,et al.  Current and potential exploitation of plant glandular trichome productivity , 2000 .

[191]  H. Rennenberg,et al.  Diurnal pattern of acetaldehyde emission by flooded poplar trees , 2000 .

[192]  J. Gershenzon,et al.  Regulation of monoterpene accumulation in leaves of peppermint. , 2000, Plant physiology.

[193]  L. Jahodář,et al.  TOXICITA HVEZDNICOVITYCH S PRIHLEDNUTIM K FARMACEUTICKY VYZNAMNYM DRUHUM , 1999 .

[194]  J. Tumlinson,et al.  Induced synthesis of plant volatiles , 1997, Nature.

[195]  C. N. Hewitt,et al.  Screening of 18 Mediterranean plant species for volatile organic compound emissions , 1997 .

[196]  Y. Cohen,et al.  Local and systemic protection against Phytophthora infestans induced in potato and tomato plants by jasmonic acid and jasmonic methyl ester , 1993 .

[197]  J. Viano,et al.  Sur la présence de bactéries intracellulaires dans les racines du Vetiveria zizanioides (L.) Stapf , 1991 .

[198]  J. Smadja,et al.  Ultrastructure des racines de Vetiveria zizanioides (L.) Stapf (Gramineae) , 1991 .

[199]  R. H. Adrian Electrophysiological Methods , 1970, Nature.

[200]  Richard M. Caprioli,et al.  Defensive Function of Herbivore-Induced Plant Volatile Emissions in Nature , 2022 .