Foraging in the Dark – Chemically Mediated Host Plant Location by Belowground Insect Herbivores

[1]  F. Grundler,et al.  Cellular and Molecular Aspects of Plant-Nematode Interactions , 2012, Developments in Plant Pathology.

[2]  B. Piechulla,et al.  Volatile Mediated Interactions Between Bacteria and Fungi in the Soil , 2012, Journal of Chemical Ecology.

[3]  A. Hartmann,et al.  Quorum Sensing of Bacteria and Trans-Kingdom Interactions of N-Acyl Homoserine Lactones with Eukaryotes , 2012, Journal of Chemical Ecology.

[4]  M. Pozo,et al.  Mycorrhiza-Induced Resistance and Priming of Plant Defenses , 2012, Journal of Chemical Ecology.

[5]  I. Hiltpold,et al.  Manipulation of Chemically Mediated Interactions in Agricultural Soils to Enhance the Control of Crop Pests and to Improve Crop Yield , 2012, Journal of Chemical Ecology.

[6]  D. Cipollini,et al.  Microbes as Targets and Mediators of Allelopathy in Plants , 2012, Journal of Chemical Ecology.

[7]  S. Rasmann,et al.  Ecology and Evolution of Soil Nematode Chemotaxis , 2012, Journal of Chemical Ecology.

[8]  J. McNicol,et al.  Effects of cultivar and egg density on a colonizing vine weevil (Otiorhynchus sulcatus) population and its impacts on red raspberry growth and yield , 2012 .

[9]  Georg Petschenka,et al.  Coping with toxic plant compounds--the insect's perspective on iridoid glycosides and cardenolides. , 2011, Phytochemistry.

[10]  S. Hartley,et al.  Does mother know best? The preference–performance hypothesis and parent–offspring conflict in aboveground–belowground herbivore life cycles , 2011 .

[11]  Peter J. Gregory,et al.  Elevated atmospheric carbon dioxide impairs the performance of root‐feeding vine weevils by modifying root growth and secondary metabolites , 2011 .

[12]  H. Alborn,et al.  Constitutive and induced subterranean plant volatiles attract both entomopathogenic and plant parasitic nematodes , 2011 .

[13]  Susanne Wurst,et al.  Microorganisms and nematodes increase levels of secondary metabolites in roots and root exudates of Plantago lanceolata , 2010, Plant and Soil.

[14]  B. Piechulla,et al.  Belowground volatiles facilitate interactions between plant roots and soil organisms , 2010, Planta.

[15]  A. Karley,et al.  Reappraising the role of plant nutrients as mediators of interactions between root‐ and foliar‐feeding insects , 2009 .

[16]  D. B. Long HOST PLANT LOCATION BY LARVAE OF THE WHEAT BULB FLY (LEPTOHYLEMYIA COAARCTATA FALLÉN) , 2009 .

[17]  N. V. Dam Belowground Herbivory and Plant Defenses , 2009 .

[18]  Scott N. Johnson,et al.  Root Feeders: An Ecosystem Perspective , 2008 .

[19]  M. Hilker,et al.  Attractiveness of CO2 released by root respiration fades on the background of root exudates , 2008 .

[20]  A. Quiroz,et al.  Identification of volatiles from differently aged red clover (Trifolium pratense) root extracts and behavioural responses of clover root borer (Hylastinus obscurus) (Marsham) (Coleoptera: Scolytidae) to them , 2007 .

[21]  Peter J. Gregory,et al.  A general random walk model for the leptokurtic distribution of organism movement: Theory and application , 2007 .

[22]  Peter J. Gregory,et al.  Effects of carbon dioxide on the searching behaviour of the root-feeding clover weevil Sitona lepidus (Coleoptera: Curculionidae) , 2006, Bulletin of Entomological Research.

[23]  J. Vivanco,et al.  The role of root exudates in rhizosphere interactions with plants and other organisms. , 2006, Annual review of plant biology.

[24]  Peter J. Gregory,et al.  Chemically‐mediated host‐plant location and selection by root‐feeding insects , 2006 .

[25]  Peter J. Gregory,et al.  Modelling the movement and survival of the root-feeding clover weevil, Sitona lepidus, in the root-zone of white clover , 2006 .

[26]  Peter J. Gregory,et al.  Attractive Properties of an Isoflavonoid Found in White Clover Root Nodules on the Clover Root Weevil , 2005, Journal of Chemical Ecology.

[27]  L. Bjostad,et al.  Disruption of host location of western corn rootworm larvae (Coleoptera: Chrysomelidae) with carbon dioxide. , 2004, Journal of economic entomology.

[28]  R. Chapman Contact chemoreception in feeding by phytophagous insects. , 2003, Annual Review of Entomology.

[29]  David J Chitwood,et al.  Phytochemical based strategies for nematode control. , 2003, Annual review of phytopathology.

[30]  T. M. Bezemer,et al.  Soil invertebrate fauna enhances grassland succession and diversity , 2003, Nature.

[31]  D. Horton,et al.  Orientation response of Pacific coast wireworm (Coleoptera: Elateridae) to food baits in laboratory and effectiveness of baits in field , 2002, The Canadian Entomologist.

[32]  T. P. Mack,et al.  Collection and Determination of Lesser Cornstalk Borer (Lepidoptera: Pyralidae) Larval Attractant from Peanut Plants , 2002 .

[33]  L. Dawson,et al.  Impact of root herbivory by insect larvae on soil microbial communities , 2001 .

[34]  T. P. Mack,et al.  Artificial Carbon Dioxide Source to Attract Lesser Cornstalk Borer (Lepidoptera: Pyralidae) Larvae , 2001, Journal of economic entomology.

[35]  P. Gerard Dependence of Sitona lepidus (Coleoptera: Curculionidae) larvae on abundance of white clover Rhizobium nodules , 2001, Bulletin of Entomological Research.

[36]  U. Mathesius Flavonoids induced in cells undergoing nodule organogenesis in white clover are regulators of auxin breakdown by peroxidase. , 2001, Journal of experimental botany.

[37]  M. Hunter Out of sight, out of mind: the impacts of root‐feeding insects in natural and managed systems , 2001 .

[38]  L. Bjostad,et al.  Reinvestigation of Host Location by Western Corn Rootworm Larvae (Coleoptera: Chrysomelidae): CO2 Is the Only Volatile Attractant , 1998 .

[39]  Dominic Wright,et al.  Physiology and Biochemistry of Free-living and Plant-parasitic Nematodes , 1998 .

[40]  L. Bjostad,et al.  Behavioral Responses of First-Instar Western Corn Root worm (Coleoptera: Chrysomeli dae ) to Carbon Dioxide in a Glass Bead Bioassay , 1998 .

[41]  J. Barrett,et al.  Electrophysiological Responses of Male Potato Cyst NematodesGlobodera rostochiensis and G. pallidato Some Chemicals , 1997, Journal of Chemical Ecology.

[42]  M. Barbercheck,et al.  Mexican diabroticite beetles: I. Laboratory test on host breadth of Acalymma and Diabrotica spp. , 1997 .

[43]  L. Bjostad,et al.  Dichloromethane attracts diabroticite larvae in a laboratory behavioral bioassay , 1996, Journal of Chemical Ecology.

[44]  R. Mitchell,et al.  Root to shoot ratio of crops as influenced by CO2 , 1995, Plant and Soil.

[45]  L. Bjostad,et al.  Long-chain free fatty acids: Semiochemicals for host location by western corn rootworm larvae , 1994, Journal of Chemical Ecology.

[46]  E. Bernays,et al.  Host-Plant Selection by Phytophagous Insects , 1994, Contemporary Topics in Entomology.

[47]  G. Nordlander,et al.  Olfactory oriented migration through soil by root‐living Hylobius abietis (L.) larvae (Col., Curculionidae) , 1994 .

[48]  M. Anderson,et al.  Larval responses of three vegetable root fly pests of the genus Delia (Diptera: Anthomyiidae) to plant volatiles , 1992 .

[49]  B. Philogéne,et al.  Behavioral responses of western corn rootworm larvae to naturally occurring and synthetic hydroxamic acids , 1992, Journal of Chemical Ecology.

[50]  L. Bjostad,et al.  6-Methoxy-2-benzoxazolinone: A semiochemical for host location by western corn rootworm larvae , 1992, Journal of Chemical Ecology.

[51]  J. Atkinson,et al.  ROLE OF 2,4-DIHYDROXY-7-METHOXY-1,4-BENZOXAZIN-3-ONE (DIMBOA) IN THE RESISTANCE OF MAIZE TO WESTERN CORN ROOTWORM, DIABROTICA VIRGIFERA VIRGIFERA (LECONTE) (COLEOPTERA: CHRYSOMELIDAE) , 1990, The Canadian Entomologist.

[52]  C. R. Ellis,et al.  Survival time of unfed, first-instar western corn rootworm (Coleoptera: Chrysomelidae) and the effects of soil type, moisture, and compaction on their mobility in soil. , 1990 .

[53]  A. Maki,et al.  Root-mediated effects in carrot resistance to the carrot fly,Psila rosae , 1989, Journal of Chemical Ecology.

[54]  F. Abe,et al.  Isolation, identification, and bioassay of chemicals affecting nonpreference carrot-root resistance to carrot-fly larva , 1989, Journal of Chemical Ecology.

[55]  A. Mochizuki,et al.  Olfactory response of the larvae of the onion fly, Hylemya antiqua MEIGEN (Diptera:Anthomyiidae) to volatile compounds. , 1989 .

[56]  S. Strnad,et al.  Distribution and Orientation of Western Corn Rootworm (Coleoptera: Chrysomelidae) Larvae in Corn Roots , 1987 .

[57]  D. C. Andersen Below-Ground Herbivory in Natural Communities: A Review Emphasizing Fossorial Animals , 1987, The Quarterly Review of Biology.

[58]  S. Strnad,et al.  Movement of First-instar Western Corn Rootworms (Coleoptera: Chrysomelidae) in Soil , 1987 .

[59]  D. B. Dusenbery Theoretical range over which bacteria and nematodes locate plant roots using carbon dioxide , 1987, Journal of Chemical Ecology.

[60]  J. Wolfson Impact of Rhizobium nodules on Sitona hispidulus, the clover root curculio , 1987 .

[61]  S. Strnad,et al.  First-instar western corn rootworm (Coleoptera: chrysomelidae) response to carbon dioxide , 1986 .

[62]  D. J. Donnell,et al.  Isoflavonoid feeding deterrents forCostelytra zealandica Structure — Activity relationships , 1985, Journal of Chemical Ecology.

[63]  P. Guerin,et al.  Relationship between root volatiles of some carrot cultivars and their resistance to the carrot fly, Psila rosae , 1984 .

[64]  J. Kamm,et al.  Root Volatile Components of Red Clover: Identification and Bioassay with the Clover Root Borer (Coleoptera: Scolytidae) , 1984 .

[65]  P. Guerin,et al.  Behavioural responses of the carrot fly larva, Psila rosae, to carrot root volatiles , 1982 .

[66]  E. Bernays,et al.  Plant Phenols Utilized as Nutrients by a Phytophagous Insect , 1982, Science.

[67]  R. Karban Periodical cicada nymphs impose periodical oak tree wood accumulation , 1980, Nature.

[68]  G. Lane,et al.  Insect feeding deterrent activity of phytoalexin isoflavonoids , 1980 .

[69]  O. Jones,et al.  Responses of carrot fly larvae, Psila rosae, to the odorous and contact‐chemostimulatory metabolites of host and non‐host plants , 1979 .

[70]  S. Finch,et al.  Laboratory evaluation of sulphur-bearing chemicals as attractants for larvae of the onion fly, Delia antiqua (Meigen) (Diptera: Anthomyiidae) , 1979 .

[71]  O. Jones,et al.  A BASIS FOR HOST PLANT FINDING IN PHYTOPHAGOUS LARVAE , 1978 .

[72]  O. Jones,et al.  Oriented responses of carrot fly larvae, Psila rosae, to plant odours, carbon dioxide and carrot root volatiles , 1977 .

[73]  J. Golden,et al.  The nature and role of metabolic leakage from root-knot nematode galls and infection by Rhizoctonia solani. , 1977, Journal of nematology.

[74]  R. Haynes,et al.  Effects of the Bi Locus in Cucumber on Reproduction, Attraction, and Response of the Plant to Infection by the Southern Root-knot Nematode1 , 1976, Journal of the American Society for Horticultural Science.

[75]  J. Doane,et al.  THE ORIENTATION RESPONSE OF CTEMCERA DESTRUCTOR AND OTHER WIRE WORMS (COLEOPTERA: ELATERIDAE) TO GERMINATING GRAIN AND TO CARBON DIOXIDE , 1975, The Canadian Entomologist.

[76]  O. Sutherland,et al.  Olfactory response of Costelytra zealandica (Coleoptera: Melolonthinae) to the roots of several pasture plants , 1974 .

[77]  O. Sutherland,et al.  Feeding behaviour of the grass grub Costelytra zealandica (White) (Coleoptera: Melolonthinae) , 1974 .

[78]  G. C. Scott The response of wheat bulb fly larvae to cereal exudates and extracts , 1974 .

[79]  Y. Matsumoto,et al.  Olfactory Response of Larvae of the Onion Maggot, Hylemya antiqua MEIGEN (Dipterea : Anthomyiidae) to Organic Sulfur Compounds , 1968 .

[80]  A. J. Thorsteinson,et al.  Effect of Organic Sulfur Compounds on Oviposition in Onion Maggot, Hylemya antiqua MEIGEN (Diptera : Anthomyiidae) , 1968 .

[81]  J. A. Rudinsky,et al.  OLFACTORY RESPONSES OF HYLASTES NIGRINUS (COLEOPTERA: SCOLYTIDAE) TO VARIOUS HOST MATERIALS , 1967, The Canadian Entomologist.

[82]  D. Randall,et al.  Response of False Wireworm Eleodes suturalis Larvae to Wheat in Olfactometer Tests , 1967 .

[83]  J. Klingler ÜBER DEN SITZ DER CO2‐REZEPTOREN BEI DER LARVE VON OTIORRHYNCHUS SULCATUS , 1966 .

[84]  J. A. Rudinsky Scolytid Beetles Associated with Douglas Fir: Response to Terpenes , 1966, Science.

[85]  B. Stokes A Chemotactic Response in Wheat Bulb Fly Larvæ , 1956, Nature.

[86]  Thorpe Wh,et al.  The behaviour of wireworms in response to chemical stimulation. , 1947 .

[87]  A. D. Lees On the Behaviour of Wireworms of the Genus Agriotes Esch. (Coleoptera, Elateridae) , 1943 .

[88]  S. Crumb,et al.  Notes on the Chemotropic Responses of Certain Insects , 1928 .

[89]  C. C. Hamilton THE BEHAVIOR OF SOME SOIL INSECTS IN GRADIENTS OF EVAPORATING POWER OF AIR, CARBON DIOXIDE AND AMMONIA , 1917 .

[90]  T. Köllner,et al.  A specialist root herbivore exploits defensive metabolites to locate nutritious tissues. , 2012, Ecology letters.

[91]  J. McNicol,et al.  Elevated CO2 and aboveground–belowground herbivory by the clover root weevil , 2009, Oecologia.

[92]  P. Murray,et al.  Root herbivory in agricultural ecosystems. , 2008 .

[93]  P. Murray,et al.  Climate change impacts on root herbivores. , 2008 .

[94]  S. Schütz,et al.  Are different volatile pattern influencing host plant choice of belowground living insects , 2006 .

[95]  Peter J. Gregory,et al.  Plant roots : growth, activity and interaction with soils , 2006 .

[96]  V. Košťál Orientation behavior of newly hatched larvae of the cabbage maggot,Delia radicum (L.) (Diptera: Anthomyiidae), to volatile plant metabolites , 2005, Journal of Insect Behavior.

[97]  S. Saggar,et al.  Increase in 14C-carbon translocation to the soil microbial biomass when five species of plant-parasitic nematodes infect roots of white clover , 1999 .

[98]  Dominic Wright,et al.  Behaviour and sensory responses. , 1998 .

[99]  H. Schnabl,et al.  Allelochemicals in Root Exudates of Maize , 1998 .

[100]  R. Verpoorte,et al.  Phytochemical Signals and Plant-Microbe Interactions , 1998, Recent Advances in Phytochemistry.

[101]  R. Perry Plant Signals in Nematode Hatching and Attraction , 1997 .

[102]  Y. Spiegel,et al.  Attractant-mediated behaviour of mobile stages of Heterodera schachtii , 1994 .

[103]  S V Krupa,et al.  Plant responses to atmospheric CO2 enrichment with emphasis on roots and the rhizosphere. , 1994, Environmental pollution.

[104]  R. Galbreath Orientation of grass grub Costelytra zealandica (Coleoptera:Scarabaeidae) to a carbon dioxide source , 1988 .

[105]  Peter J. Gregory,et al.  The soil atmosphere. , 1988 .

[106]  A. Wild,et al.  Russell's Soil Conditions and Plant Growth , 1988 .

[107]  D. Gaynor,et al.  Measurement of grass grub resistance of bean in a controlled environment , 1986 .

[108]  D. J. Chamberlain,et al.  Phenols as nutrients for a phytophagous insect Anacridium melanorhodon , 1983 .

[109]  O. Sutherland,et al.  Feeding deterrents for black beetle larvae, Heteronychus arator (Scarabaeidae), in Trifolium repens , 1982 .

[110]  T. Ikeshoji,et al.  Attractants against the Onion Maggots and Flies, Hylemya antiqua , in Onions Inoculated with Bacteria , 1980 .

[111]  J. Prot Migration of plant-parasitic nematodes towards plant roots , 1980 .

[112]  Eb Britton A revision of the Australian chafers (Coleoptera : Scarabaeidae : Melolonthinae). Vol 2 Tribe Melolonthini , 1978 .

[113]  O. Sutherland Olfactory responses of Costelytra zealandica (Coleoptera: Melolonthinae) larvae to grass root odours , 1972 .

[114]  Y. Matsumoto VOLATILE ORGANIC SULFUR COMPOUNDS AS INSECT ATTRACTANTS WITH SPECIAL REFERENCE TO HOST SELECTION , 1970 .

[115]  R. Silverstein,et al.  Control of insect behavior by natural products. , 1970 .

[116]  J. Klingler On the Orientation of Plant Nematodes and of Some Other Soil Animals , 1965 .

[117]  A. Bird Orientation of the Larvae of Meloidogyne Javanica Relative To Roots , 1962 .

[118]  J. Klingler Anziehungsversuche Mit Ditylenchus Dipsaci Unter Berücksichtigung Der Wirkung Des Kohlendioxyds, Des Redoxpotentials Und Anderer Faktoren , 1961 .

[119]  J. Klingler Die Bedeutung der Kohlendioxyd-Ausscheidung der Wurzeln für die Orientierung der Larven von Otiorrhynchus sulcatus F. und anderer bodenbewohnender phytophager Insektenarten , 1959 .

[120]  A. Bird The Attractiveness of Roots To the Plant Parasitic Nematodes Meloidogyne Javanica and M. Hapla , 1959 .

[121]  W. Thorpe,et al.  The behaviour of wireworms in response to chemical stimulation. , 1947, The Journal of experimental biology.