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Sari Himanen, T. Vuorinen, T. Tuovinen, J. Holopainen (2005)
Effects of cyclamen mite (Phytonemus pallidus) and leaf beetle (Galerucella tenella) damage on volatile emission from strawberry (Fragaria x ananassa Duch.) plants and orientation of predatory mites (Neoseiulus cucumeris, N. californicus, and Euseius finlandicus).Journal of agricultural and food chemistry, 53 22
D. Gnanvossou, R. Hanna, M. Dicke, S. Yaninek (2001)
Attraction of the predatory mites Typhlodromalus manihoti and Typhlodromalus aripo to cassava plants infested by cassava green miteEntomologia Experimentalis et Applicata, 101
Priscila Strapasson, Delia Pinto-Zevallos, Sandra Gomes, P. Zarbin (2016)
Volatile Organic Compounds Induced by Herbivory of the Soybean Looper Chrysodeixis includens in Transgenic Glyphosate-Resistant Soybean and the Behavioral Effect on the Parasitoid, Meteorus rubensJournal of Chemical Ecology, 42
R. Karban, J. Carey (1984)
Induced Resistance of Cotton Seedlings to MitesScience, 225
M. Dicke (1999)
Are herbivore‐induced plant volatiles reliable indicators of herbivore identity to foraging carnivorous arthropods?Entomologia Experimentalis et Applicata, 91
Casey Delphia, M. Mescher, C. Moraes (2007)
Induction of Plant Volatiles by Herbivores with Different Feeding Habits and the Effects of Induced Defenses on Host-Plant Selection by ThripsJournal of Chemical Ecology, 33
T. Maeda, Yining Liu, Hayato Ishiwari, T. Shimoda (2006)
Conditioned olfactory responses of a predatory mite, Neoseiulus womersleyi, to volatiles from prey‐infested plantsEntomologia Experimentalis et Applicata, 121
J. Mcmurtry, B. Croft (1997)
Life-styles of Phytoseiid mites and their roles in biological control.Annual review of entomology, 42
C. Moraes, W. Lewis, P. Paré, H. Alborn, J. Tumlinson (1998)
Herbivore-infested plants selectively attract parasitoidsNature, 393
L. Schoonhoven, J.J.A. Loon, M. Dicke (1998)
Insect-plant biology
Jinwon Kim, G. Felton (2013)
Priming of antiherbivore defensive responses in plantsInsect Science, 20
J. Boer, M. Dicke (2006)
Olfactory learning by predatory arthropodsAnimal Biology, 56
D. Gnanvossou, R. Hanna, M. Dicke (2003)
Infochemical-mediated intraguild interactions among three predatory mites on cassava plantsOecologia, 135
Jetske Boer, M. Posthumus, M. Dicke (2004)
Identification of Volatiles That Are Used in Discrimination Between Plants Infested with Prey or Nonprey Herbivores by a Predatory MiteJournal of Chemical Ecology, 30
M. Toko, R. O’neil, J. Yaninek (1994)
Effect of cassava exudate and prey densities on the survival and reproduction of Typhlodromalus limonicus (Garman & McGregor) s.l. (Acari: Phytoseiidae), a predator of the cassava green mite, Mononychellus tanajoa (Bondar) (Acari: Tetranychidae)Experimental & Applied Acarology, 18
J. Takabayashi, T. Shimoda, M. Dicke, W. Ashihara, A. Takafuji (2004)
Induced Response of Tomato Plants to Injury by Green and Red Strains of Tetranychus UrticaeExperimental & Applied Acarology, 24
A. Janssen, C. Hofker, A. Braun, N. Mesa, M. Sabelis, A. Bellotti (1990)
Preselecting predatory mites for biological control: the use of an olfactometerBulletin of Entomological Research, 80
M. Pareja, Delia Pinto-Zevallos (2016)
Impacts of Induction of Plant Volatiles by Individual and Multiple Stresses Across Trophic Levels
M. Dicke, J. Takabayashi, M. Posthumus, C. Schütte, O. Krips (1998)
Plant—Phytoseiid Interactions Mediated by Herbivore-Induced Plant Volatiles: Variation in Production of Cues and in Responses of Predatory MitesExperimental & Applied Acarology, 22
I. Kappers, H. Hoogerbrugge, H. Bouwmeester, M. Dicke (2011)
Variation in Herbivory-induced Volatiles Among Cucumber (Cucumis sativus L.) Varieties has Consequences for the Attraction of Carnivorous Natural EnemiesJournal of Chemical Ecology, 37
A. Mccormick, S. Unsicker, J. Gershenzon (2012)
The specificity of herbivore-induced plant volatiles in attracting herbivore enemies.Trends in plant science, 17 5
M. Dicke (2015)
Herbivore-induced plant volatiles as a rich source of information for arthropod predators: fundamental and applied aspectsJournal of the Indian Institute of Science, 95
Ø Hammer, DAT Harper, PD Ryan (2001)
PAST: paleontological statistics software package for education and data analysis palaeontolElectron, 4
N. Dudareva, Antje Klempien, Joëlle Muhlemann, I. Kaplan (2013)
Biosynthesis, function and metabolic engineering of plant volatile organic compounds.The New phytologist, 198 1
M. Bruinsma, M. Posthumus, R. Mumm, Martin Mueller, J. Loon, M. Dicke (2009)
Jasmonic acid-induced volatiles of Brassica oleracea attract parasitoids: effects of time and dose, and comparison with induction by herbivoresJournal of Experimental Botany, 60
Ø. Hammer, D. Harper, P. Ryan (2001)
PAST: PALEONTOLOGICAL STATISTICAL SOFTWARE PACKAGE FOR EDUCATION AND DATA ANALYSISPalaeontologia Electronica, 4
Yongjun Du, G. Poppy, W. Powell, J. Pickett, L. Wadhams, Christine Woodcock (1998)
Identification of Semiochemicals Released During Aphid Feeding That Attract Parasitoid Aphidius erviJournal of Chemical Ecology, 24
JG Ali, AA Agrawal (2012)
Specialist versus generalist insect herbivores and plant defenseTrend Plant Sci, 17
C. Pernet (2013)
CFP: Revisiting the Historical Connections between Agriculture, Nutrition, and Development: The United Nations Food and Agriculture Organization (FAO) in a Global Context - geschichte.transnational / Termine
T. Shimoda, R. Ozawa, K. Sano, E. Yano, J. Takabayashi (2005)
The Involvement of Volatile Infochemicals from Spider Mites and from Food-Plants in Prey Location of the Generalist Predatory Mite Neoseiulus californicusJournal of Chemical Ecology, 31
Pengjun Zhang, C. Broekgaarden, S. Zheng, Tjeerd Snoeren, J. Loon, R. Gols, M. Dicke (2013)
Jasmonate and ethylene signaling mediate whitefly-induced interference with indirect plant defense in Arabidopsis thaliana.The New phytologist, 197 4
F. Hountondji, M. Sabelis, R. Hanna, A. Janssen (2005)
Herbivore-induced Plant Volatiles Trigger Sporulation in Entomopathogenic Fungi: The Case of Neozygites tanajoae Infecting the Cassava Green MiteJournal of Chemical Ecology, 31
R. Adams (2007)
Identification of Essential Oil Components By Gas Chromatography/Mass Spectrometry
D. Gnanvossou, R. Hanna, M. Dicke (2004)
Prey-Related Odor Preference of the Predatory Mites Typhlodromalus Manihoti and Typhlodromalus Aripo (Acari: Phytoseiidae)Experimental & Applied Acarology, 27
C. Flechtmann, Danuta Knihinicki (2002)
New species and new record of Tetranychus Dufour from Australia, with a key to the major groups in this genus based on females (Acari: Prostigmata: Tetranychidae).Australian Journal of Entomology, 41
A. Migeon, Elodie Nouguier, F. Dorkeld (2010)
Spider Mites Web: A comprehensive database for the Tetranychidae
L. Matsiev (2014)
Improving Performance and Versatility of Systems Based on Single-Frequency DFT Detectors Such as AD5933Electronics, 4
TC Turlings, F Wäckers (2004)
Advances in insect chemical ecology
Delia Pinto-Zevallos, M. Pareja, B. Ambrogi (2016)
Current knowledge and future research perspectives on cassava (Manihot esculenta Crantz) chemical defenses: An agroecological view.Phytochemistry, 130
A. Zakir, M. Sadek, M. Bengtsson, B. Hansson, P. Witzgall, P. Anderson (2013)
Herbivore‐induced plant volatiles provide associational resistance against an ovipositing herbivoreJournal of Ecology, 101
J. Yaninek, B. Mégevand, G. Moraes, F. Bakker, A. Braun, H. Herren (1991)
Establishment of the Neotropical predator Amblyseius idaeus (Acari: Phytoseiidae) in Benin, West AfricaBiocontrol Science and Technology, 1
M Pareja, DM Pinto-Zevallos (2016)
Deciphering chemical language of plant communication
J. Ali, A. Agrawal (2012)
Specificity of plant – enemy interactions Specialist versus generalist insect herbivores and plant defense
T. Turlings, J. Ton (2006)
Exploiting scents of distress: the prospect of manipulating herbivore-induced plant odours to enhance the control of agricultural pests.Current opinion in plant biology, 9 4
M. Reichert, M. Toldi, P. Rode, J. Ferla, N. Ferla (2016)
Biological performance of the predatory mite Neoseiulus idaeus (Phytoseiidae): a candidate for the control of tetranychid mites in Brazilian soybean crops.Brazilian journal of biology = Revista brasleira de biologia, 77 2
R. Sarmento, F. Lemos, P. Bleeker, R. Schuurink, A. Pallini, M. Oliveira, E. Lima, M. Kant, M. Sabelis, A. Janssen (2011)
A herbivore that manipulates plant defenceEcology Letters, 14
K. Shiojiri, R. Ozawa, S. Kugimiya, M. Uefune, Michiel Wijk, M. Sabelis, J. Takabayashi (2010)
Herbivore-Specific, Density-Dependent Induction of Plant Volatiles: Honest or “Cry Wolf” Signals?PLoS ONE, 5
Jun-ichiro Horiuchi, G. Arimura, R. Ozawa, T. Shimoda, J. Takabayashi, T. Nishioka (2003)
A comparison of the responses of Tetranychus urticae (Acari : Tetranychidae) and Phytoseiulus persimilis (Acari : Phytoseiidae) to volatiles emitted from lima bean leaves with different levels of damage made by T. urticae or Spodoptera exigua (Lepidoptera : Noctuidae)Applied Entomology and Zoology, 38
B. Drukker, J. Bruin, G. Jacobs, A. Kroon, M. Sabelis (2004)
How Predatory Mites Learn to Cope with Variability in Volatile Plant Signals in the Environment of their Herbivorous PreyExperimental & Applied Acarology, 24
T. Turlings, F. Wäckers (2004)
Recruitment of predators and parasitoids by herbivore-injured plants, 2
R. Girling, A. Stewart‐Jones, Julien Dherbécourt, J. Staley, D. Wright, G. Poppy (2011)
Parasitoids select plants more heavily infested with their caterpillar hosts: a new approach to aid interpretation of plant headspace volatilesProceedings of the Royal Society B: Biological Sciences, 278
M. Sabelis, H. Baan (1983)
LOCATION OF DISTANT SPIDER MITE COLONIES BY PHYTOSEIID PREDATORS: DEMONSTRATION OF SPECIFIC KAIROMONES EMITTED BY TETRANYCHUS URTICAE AND PANONYCHUS ULMIEntomologia Experimentalis et Applicata, 33
Upon damage by herbivores, plants induce an array of volatile organic compounds (VOCs) that mediate ecological interactions involving communication with organisms of the second and third trophic levels. VOC-mediated tritrophic interactions have largely been studied in various systems, including cassava (Manihot esculenta), but little is known about the chemical nature of herbivore-induced VOCs in this crop and the response they evoke in natural enemies. Several tetranychid and predatory mites are associated with cassava. Here, VOC emissions from uninfested plants and plants infested with 200 or 400 Mononychellus tanajoa, a specialist herbivore on cassava, and the generalists Tetranychus urticae and T. gloveri were measured. Dual-choice experiments were also conducted to assess the preference of inexperienced (reared on prey-infested bean plants) and experienced (adapted on prey-infested cassava plants) predatory mites, Neoseiulus idaeus (Phytoseiidae), between odors of uninfested plants versus odors of plants infested with M. tanajoa, T. urticae or T. gloveri. Two hundred individuals significantly increased the emissions of (Z)-3-hexen-1-ol, (E)-β-ocimene, β-caryophyllene, alloaromadendrene and (E)-geranyl acetone in T. urticae-infested plants, and (E)-β-ocimene and methyl salicylate (MeSA) in T. gloveri-infested plants. Four hundred individuals significantly increased the emissions of (Z)-3-hexen-1-ol, MeSA, α-pinene and D-limonene in M. tanajoa-infested plants. In addition, T. urticae at this density induced (E)-β-ocimene, D-limonene, (E)-geranyl acetone and six compounds that were not detected in other treatments. Tetranychus gloveri-infested plants induced the emissions of (E)-2-hexenal and D-limonene. Regardless of the infesting species, inexperienced N. idaeus did not discriminate between uninfested or infested plants. Upon experience, they discriminated between the odors of uninfested and T. urticae-damaged plants. Our findings reveal that mite infestations in cassava result in density-dependent and species-specific emission of VOCs, and that N. idaeus relies on associative learning to forage for its prey.
Experimental and Applied Acarology – Springer Journals
Published: Feb 24, 2018
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