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Journal of Plant Interactions Volume 1, 2005 - Issue 3
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ORIGINAL ARTICLE

The sesquiterpene α-copaene is induced in tomato leaves infected by Botrytis cinerea

John Thelen Departments of System and Control Group, Wageningen, The Netherlands
,
Jeremy Harbinson Horticultural Production Chains Group, Wageningen, The NetherlandsCorrespondence[email protected]
,
Roel Jansen Farm Technology Group, Wageningen, The Netherlands
,
Gerrit Van Straten Departments of System and Control Group, Wageningen, The Netherlands
,
Maarten A. Posthumus Laboratory of Organic Chemistry, Wageningen University, Wageningen, The Netherlands
,
Ernst J. Woltering Agrotechnology & Food Sciences Group, Wageningen University and Research Centre, Wageningen, The Netherlands
&
Harro J. Bouwmeester Plant Research International, Wageningen University and Research Centre, Wageningen, The Netherlands
 show all
Pages 163-170 | Received 13 Jul 2006, Published online: 20 Feb 2007

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Roel M.C. Jansen, Jan W. Hofstee, Jürgen Wildt, Francel W.A. Verstappen, Harro Bouwmeester & Eldert J. van Henten. (2009) Induced plant volatiles allow sensitive monitoring of plant health status in greenhouses. Plant Signaling & Behavior 4:9, pages 824-829.
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Articles from other publishers (16)

Mohannad Mahmoud, Ines BenRejeb, Zamir K. Punja, Liam Buirs & Suha Jabaji. (2023) Understanding bud rot development, caused by Botrytis cinerea , on cannabis ( Cannabis sativa L.) plants grown under greenhouse conditions . Botany 101:7, pages 200-231.
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Jan Pańczak, Paweł Kosakowski & Adam Zakrzewski. (2023) Biomarkers in fossil resins and their palaeoecological significance. Earth-Science Reviews 242, pages 104455.
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Marta Balsells-Llauradó, Gemma Echeverría, Rosario Torres, Núria Vall-llaura, Neus Teixidó & Josep Usall. (2022) Emission of volatile organic compounds during nectarine-Monilinia laxa interaction and its relationship with fruit susceptibility to brown rot. Postharvest Biology and Technology 192, pages 111997.
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Niu Yu, Mingliang Dong, Jinchang Yang & Rongsheng Li. (2022) Age-dependent modulation of oleoresin production in the stem of Sindora glabra . Tree Physiology.
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Annalisa Mentana, Ippolito Camele, Stefania M. Mang, Giuseppe E. De Benedetto, Salvatore Frisullo & Diego Centonze. (2019) Volatolomics approach by HS‐SPME‐GC‐MS and multivariate analysis to discriminate olive tree varieties infected by Xylella fastidiosa . Phytochemical Analysis 30:6, pages 623-634.
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Ramona Makarow, Sara Schäfer, Stephan Albrecht, Simon Robert, Stefan Schütz & Peter Kaul. (2019) Investigation of volatile organic compounds emitted by Anoplophora glabripennis (Moschulsky) using thermal desorption and gas chromatography-mass spectrometry. Microchemical Journal 146, pages 142-148.
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Tina Kasal-Slavik, Julia Eschweiler, Einhard Kleist, Roland Mumm, Heiner E. Goldbach, Alexander Schouten & Jürgen Wildt. (2017) Early biotic stress detection in tomato (Solanum lycopersicum) by BVOC emissions. Phytochemistry 144, pages 180-188.
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Suryendu Dutta, Rakesh C. Mehrotra, Swagata Paul, R. P. Tiwari, Sharmila Bhattacharya, Gaurav Srivastava, V. Z. Ralte & C. Zoramthara. (2017) Remarkable preservation of terpenoids and record of volatile signalling in plant-animal interactions from Miocene amber. Scientific Reports 7:1.
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María Pilar López-Gresa, Purificación Lisón, Laura Campos, Ismael Rodrigo, José Luis Rambla, Antonio Granell, Vicente Conejero & José María Bellés. (2017) A Non-targeted Metabolomics Approach Unravels the VOCs Associated with the Tomato Immune Response against Pseudomonas syringae. Frontiers in Plant Science 8.
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Alexander A. Aksenov, Alberto Pasamontes, Daniel J. Peirano, Weixiang Zhao, Abhaya M. Dandekar, Oliver FiehnReza Ehsani & Cristina E. Davis. (2014) Detection of Huanglongbing Disease Using Differential Mobility Spectrometry. Analytical Chemistry 86:5, pages 2481-2488.
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Simon A. Zebelo, Kenji Matsui, Rika Ozawa & Massimo E. Maffei. (2012) Plasma membrane potential depolarization and cytosolic calcium flux are early events involved in tomato (Solanum lycopersicon) plant-to-plant communication. Plant Science 196, pages 93-100.
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R.M.C. JansenJ. WildtI.F. KappersH.J. BouwmeesterJ.W. HofsteeE.J. van Henten. (2011) Detection of Diseased Plants by Analysis of Volatile Organic Compound Emission. Annual Review of Phytopathology 49:1, pages 157-174.
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R.M.C. Jansen, J.W. Hofstee, J. Wildt, B.H.E. Vanthoor, F.W.A. Verstappen, K. Takayama, H.J. Bouwmeester & E.J. van Henten. (2010) Health monitoring of plants by their emitted volatiles: A model to predict the effect of Botrytis cinerea on the concentration of volatiles in a large-scale greenhouse. Biosystems Engineering 106:1, pages 37-47.
Crossref
R. M. C. Jansen, J. Wildt, J. W. Hofstee, H. J. Bouwmeester & E. J. van Henten. 2010. Plant Communication from an Ecological Perspective. Plant Communication from an Ecological Perspective 229 247 .
R.M.C. Jansen, J.W. Hofstee, J. Wildt, F.W.A. Verstappen, H.J. Bouwmeester, M.A. Posthumus & E.J. Van Henten. (2009) Health monitoring of plants by their emitted volatiles: trichome damage and cell membrane damage are detectable at greenhouse scale. Annals of Applied Biology 154:3, pages 441-452.
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Jullada LaothawornkitkulJason P. MooreJane E. TaylorMalcolm PossellTim D. GibsonC. Nicholas HewittNigel D. Paul. (2008) Discrimination of Plant Volatile Signatures by an Electronic Nose: A Potential Technology for Plant Pest and Disease Monitoring. Environmental Science & Technology 42:22, pages 8433-8439.
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