SEARCH

SEARCH BY CITATION

References

  • Beard JB (1973) Turfgrass: Science and Culture. Prentice Hall, Englewood Cliffs, NJ, USA.
  • Bezemer TM & van Dam NM (2005) Linking aboveground and belowground interactions via induced plant defenses. Trends in Ecology and Evolution 20: 617624.
  • Bezemer TM, Wagenaar R, van Dam NM & Wäckers FL (2003) Interactions between above- and belowground insect herbivores as mediated by the plant defense system. Oikos 101: 555562.
  • Bezemer TM, Wagenaar R, van Dam NM, van der Putten WH & Wäckers FL (2004) Above- and below-ground terpenoid aldehyde induction in cotton, Gossypium herbaceum, following root and leaf injury. Journal of Chemical Ecology 30: 5367.
  • Birch ANE, Wynne Griffiths D, Hopkins RJ, Macfarlane Smith WH & McKinlay RG (1992) Glucosinolate responses of swede, kale, forage and oilseed rape to root damage by turnip root fly (Delia floralis) larvae. Journal of the Science of Food and Agriculture 60: 19.
  • Cheng AX, Xiang CY, Li JX, Yang CQ, Hu WL et al. (2007) The rice (E)-beta-caryophyllene synthase (OsTPS3) accounts for the major inducible volatile sesquiterpenes. Phytochemistry 68: 16321641.
  • Clausen CP, King JL & Teranishi C (1927) The Parasites of Popillia japonica in Japan and Chosen (Korea), and Their Introduction into the United States. U. S. Department of Agriculture Bulletin 1429, U.S. Dept. of Agriculture, Washington, DC, USA.
  • Cortesero AM, De Moraes CM, Stapel JO, Tumlinson JH & Lewis WJ (1997) Comparisons and contrasts in host-foraging strategies of two larval parasitoids with different degrees of host specificity. Journal of Chemical Ecology 23: 15891606.
  • Dalthorp D, Nyrop J & Villani MG (2000) Spatial ecology of the Japanese beetle, Popillia japonica. Entomologia Experimentalis et Applicata 96: 129139.
  • van Dam NM & Raaijmakers CE (2006) Local and systemic induced responses to cabbage root fly larvae (Delia radicum) in Brassica nigra and B. oleracea. Chemoecology 16: 1724.
  • van Dam NM, Witjes L & Svatoš A (2004) Interactions between aboveground and belowground induction of glucosinolates in two wild Brassica species. New Phytologist 161: 801810.
  • Degen T, Dillmann C, Marion-Poll F & Turlings TCJ (2004) High genetic variability of herbivore-induced volatile emission within a broad range of maize inbred lines. Plant Physiology 135: 19281938.
  • Degenhardt J (2009) Indirect defense responses to herbivory in grasses. Plant Physiology 149: 96102.
  • Dicke M (1994) Local and systemic production of volatile herbivore-induced terpenoids: their role in plant-carnivore mutualism. Journal of Plant Physiology 143: 465472.
  • Dicke M (1999) Are herbivore-induced plant volatiles reliable indicators of herbivore identity to foraging carnivorous arthropods? Entomologia Experimentalis et Applicata 91: 131142.
  • Dicke M, Sabelis MW, Takabayashi J, Bruin J & Posthumus MA (1990) Plant strategies of manipulating predator prey interactions through allelochemicals: prospects for application in pest control. Journal of Chemical Ecology 16: 30913118.
  • Du Y, Poppy GM, Powell W, Pickett JA, Wadhams LJ & Woodcock CM (1998) Identification of semiochemicals released during aphid feeding that attract the parasitoid Aphidius ervi. Journal of Chemical Ecology 24: 13551368.
  • Erb M, Ton J, Degenhardt J & Turlings TCJ (2008) Interactions between arthropod-induced aboveground and belowground defenses in plants. Plant Physiology 146: 867874.
  • Fatouros NE, Bukovinszkine'Kiss G, Kalkers LA, Soler Gamborena R, Dicke M & Hilker M (2005) Oviposition-induced plant cues: do they arrest Trichogramma wasps during host location? Entomologia Experimentalis et Applicata 115: 207215.
  • Geervliet JBF, Posthumus MA, Vet LEM & Dicke M (1997) Comparative analysis of headspace volatiles from different caterpillar-infested or uninfested food plants of Pieris species. Journal of Chemical Ecology 23: 29352954.
  • Gouinguené S, Degen T & Turlings TCJ (2001) Variability in herbivore-induced odour emissions among maize cultivars and their wild ancestors (teosinte). Chemoecology 11: 916.
  • Guerrieri E, Poppy GM, Powell W, Tremblay E & Pennacchio F (1999) Induction and systemic release of herbivore-induced plant volatiles mediating in-flight orientation of Aphidius ervi. Journal of Chemical Ecology 25: 12471261.
  • Gyeltshen J & Hodges A (2005) Japanese Beetle, Popillia japonica Newman (Insecta: Coleoptera: Scarabaeidae): Featured Creatures. Florida Cooperative Extension Service, Entomology and Nematology Department, Institute of Food and Agricultural Sciences, University of Florida, Gainesville, FL, USA.
  • Hanson AA, Juska FV & Burton GW (1969) Species and varieties. Turfgrass Science, Agronomy Monograph 14 (ed. by AA Hanson & EV Juska), pp. 370377. American Society of Agriculture, Madison, WI, USA.
  • Heil M & Ton J (2008) Long-distance signaling in plant defense. Trends in Plant Science 13: 264272.
  • Hol WGH, Macel M, van Veen JA & van der Meijden E (2004) Root damage and aboveground herbivory change concentration and composition of pyrrolizidine alkaloids of Senecio jacobaea. Basic and Applied Ecology 5: 253260.
  • Inoue M & Endo T (2008) Below-ground host location by Campsomeriella annulata (Hymenoptera: Scoliidae), a parasitoid of scarabaeid grubs. Journal of Ethology 26: 4350.
  • Kessler A & Baldwin IT (2001) Defensive function of herbivore-induced plant volatile emissions in nature. Science 291: 21412144.
  • Köllner TG, Schnee C, Gershenzon J & Degenhardt J (2004) The sesquiterpene hydrocarbons of maize (Zea mays) form five groups with distinct developmental and organ-specific distributions. Phytochemistry 65: 18951902.
  • Koppenhöfer AM & Fuzy EM (2008) Early timing and new combinations to increase the efficacy of neonicotinoid-entomopathogenic nematode (Rhabditida: Heterorhabditidae) combinations against white grubs (Coleoptera: Scarabaeidae). Pest Management Science 64: 725735.
  • Lagalante AF & Montgomery ME (2003) Analysis of terpenoids from hemlock (Tsuga) species by solid-phase microextraction/gas chromatography/ion-trap mass spectrometry. Journal of Agricultural and Food Chemistry 51: 21152120.
  • Lavigne G (2004) A Syringeless Injection Device for the Introduction of Solids and Liquids into a Split/Splitless Capillary Injection Port. Pittsburg Conference (PITTCON), Chicago, IL, USA.
  • Lehner PN (1996) Handbook of Ethological Methods. Cambridge University Press, Cambridge, UK.
  • Loughrin JH, Manukian A, Heath RR & Tumlinson JH (1995) Volatiles emitted by different cotton varieties damaged by feeding beet armyworm larvae. Journal of Chemical Ecology 21: 12171227.
  • Masters GJ, Jones TH & Rogers M (2001) Host-plant mediated effects of root herbivory on insect seed predators and their parasitoids. Oecologia 127: 246250.
  • Neveu N, Grandgirard J, Nenon JP & Cortesero AM (2002) Systemic release of herbivore-induced plant volatiles by turnips infested by concealed root-feeding larvae Delia radicum L. Journal of Chemical Ecology 28: 17171732.
  • NIST Mass Spectrometry Data Center (2011) NIST/EPA/NIH Mass Spectral Library (NIST 11), Main EI MS library, 212,961 spectra, NIST Mass Spectral Search Program (Version 2.0g). U.S. Department of Commerce, National Institute of Standards and Technology, Gaithersburg, MD, USA.
  • Obeysekara PT & Legrand A (2011) The ability of tiphiid wasps to detect kairomones and frass from scarabaeid grubs at some distance in the soil. College of Agriculture and Natural Resources 2011 Annual Turfgrass Research Report (ed. by K Guillard), pp. 7274. University of Connecticut, Storrs, CT, USA.
  • Paré PW & Tumlinson JH (1999) Plant volatiles as a defense against insect herbivores. Plant Physiology 121: 325332.
  • Polavarapu S, Wicki M, Vogel K, Lonergan G & Nielsen K (2002) Disruption of sexual communication of oriental beetles (Coleoptera: Scarabaeidae) with a microencapsulated formulation of sex pheromone components in blueberries and ornamental nurseries. Environmental Entomology 31: 12681275.
  • Potter DA & Held DW (2002) Biology and management of the Japanese beetle. Annual Review of Entomology 47: 175205.
  • Potting RPJ, Vet LEM & Dicke M (1995) Host microhabitat location by stem-borer parasitoid Cotesia flavipes: the role of herbivore volatiles and locally and systemically induced plant volatiles. Journal of Chemical Ecology 21: 525539.
  • Potting RPJ, Poppy GM & Schuler TH (1999) The role of volatiles from cruciferous plants and pre-flight experience in the foraging behaviour of the specialist parasitoid Cotesia plutellae. Entomologia Experimentalis et Applicata 93: 8795.
  • Rapusas HR, Bottrell DG & Coll M (1996) Intraspecific variation in chemical attraction of rice to insect predators. Biological Control 6: 394400.
  • Rasmann S & Turlings TCJ (2007) Simultaneous feeding by aboveground and belowground herbivores attenuates plant-mediated attraction of their respective natural enemies. Ecology Letters 10: 926936.
  • Rasmann S, Köllner TG, Degenhardt J, Hiltpold I, Toepfer S et al. (2005) Recruitment of entomopathogenic nematodes by insect-damaged maize roots. Nature 434: 732737.
  • Rodriguez-Saona C, Crafts-Brandner SJ, Paré PW & Henneberry TJ (2001) Exogenous methyl jasmonate induces volatile emissions in cotton plants. Journal of Chemical Ecology 27: 679695.
  • Rogers ME & Potter DA (2002) Kairomones from scarabaeid grubs and their frass as cues in below-ground host location by the parasitoids Tiphia vernalis and Tiphia pygidialis. Entomologia Experimentalis et Applicata 102: 307314.
  • Rogers ME & Potter DA (2004) Preovipositional behaviors of Tiphia pygidialis and Tiphia vernalis (Hymenoptera: Tiphiidae), parasitoids of white grubs (Coleoptera: Scarabaeidae). Annals of the Entomological Society of America 97: 605612.
  • Röse USR, Manukian A, Heath RR & Tumlinson JH (1996) Volatile semiochemicals released from undamaged cotton leaves – a systemic response of living plants to caterpillar damage. Plant Physiology 111: 487495.
  • Röse USR, Lewis WJ & Tumlinson JH (1998) Specificity of systemically released cotton volatiles as attractants for specialist and generalist parasitic wasps. Journal of Chemical Ecology 24: 303319.
  • Soler R, Bezemer TM, van der Putten WH, Vet LEM & Harvey JA (2005) Root herbivore effects on above-ground herbivore, parasitoid and hyperparasitoid performance via changes in plant quality. Journal of Animal Ecology 74: 11211130.
  • Soler R, Harvey JA, Kamp AFD, Vet LEM, van der Putten WH et al. (2007) Root herbivores influence the behaviour of an aboveground parasitoid through changes in plant-volatile signals. Oikos 116: 367376.
  • Takabayashi J, Dicke M, Takahashi S, Posthumus MA & van Beek TA (1994) Leaf age affects composition of herbivore-induced synomones and attraction of predatory mites. Journal of Chemical Ecology 20: 373386.
  • Tholl D, Boland W, Hansel A, Loreto F, Röse USR & Schnitzler JP (2006) Practical approaches to plant volatile analysis. Plant Journal 45: 540560.
  • van Tol RWHM, van der Sommen ATC, Boff MIC, van Bezooijen J, Sabelis MW & Smits PH (2001) Plants protect their roots by alerting the enemies of grubs. Ecology Letters 4: 292294.
  • Turlings TCJ & Tumlinson JH (1992) Systemic release of chemical signals by herbivore-injured corn. Proceedings of the National Academy of Sciences of the USA 89: 83998402.
  • Turlings TCJ, Tumlinson JH & Lewis WJ (1990) Exploitation of herbivore-induced plant odors by host-seeking parasitic wasps. Science 250: 12511253.
  • Turlings TCJ, Tumlinson JH, Eller FJ & Lewis WJ (1991) Larval-damaged plants: source of volatile synomones that guide the parasitoid Cotesia marginiventris to the micro-habitat of its hosts. Entomologia Experimentalis et Applicata 58: 7582.
  • Turlings TCJ, Lengwiler UB, Bernasconi ML & Wechsler D (1998) Timing of induced volatile emissions in maize seedlings. Planta 207: 146152.
  • Vet LEM & Dicke M (1992) Ecology of infochemical use by natural enemies in a tritrophic context. Annual Review of Entomology 37: 141172.
  • Vet LEM, Wäckers FL & Dicke M (1991) How to hunt for hiding hosts: the reliability-detectability problem in foraging parasitoids. Netherlands Journal of Zoology 41: 202213.
  • Vinson SB (1976) Host selection by insect parasitoids. Annual Review of Entomology 21: 109133.
  • Vittum PJ, Villani MG & Tashiro H (1999) Turfgrass Insects of the United States and Canada. Cornell University Press, Ithaca, NY, USA.
  • Wajnberg E & Colazza S (2013) Chemical Ecology of Insect Parasitoids. Wiley-Blackwell, Oxford, UK.
  • Watkins E, Gianfagna TJ, Sun R & Meyer WA (2006) Volatile compounds of tufted hairgrass. Crop Science 46: 25752580.
  • Yan ZG & Wang CZ (2006) Similar attractiveness of maize volatiles induced by Helicoverpa armigera and Pseudaletia separata to the generalist parasitoid Campoletis chlorideae. Entomologia Experimentalis et Applicata 118: 8796.
  • Yuan JS, Köllner TG, Wiggins G, Grant J, Degenhardt J & Chen F (2008) Molecular and genomic basis of volatile-mediated indirect defense against insects in rice. Plant Journal 55: 491503.
  • Yue Q, Wang C, Gianfagna TJ & Meyer WA (2001) Volatile compounds of endophyte-free and infected tall fescue (Festuca arundinacea Schreb.). Phytochemistry 58: 935941.