Ecology References: Chemicals Produced by Animals

[General], [Habitats], [Animals], [Fungi], [Plants], [Diseases and Parasites], [Decomposition], Chemicals Produced
Animals, [Fungi], [Plants]


General

Bell, W.J. & Cardé, R.T. (eds, 1984) Chemical Ecology of Insects. Sunderland: Sinauer.

Birch, M.C. (eds, 1974) Pheromones. Amsterdam: North-Holland.

Harborne, J.B. (1993, 4th edn) Introduction to Ecological Biochemistry. London: Academic Press.

Kövics, G.J. (2003) Proceedings of the Third International Plant Protection Symposium Debrecen University, Hungary.

Labeyrie, V., Fabres, G., & Lachaise, D. (eds, 1987) Insects - Plants. Dordrecht: W. Junk.

Regnier, F.E. & Law, J.H. (1968) "Insect pheromones." Journal of Lipid Research 9: 541-551.

Rosenthal, G.A. & Berenbaum, M.R. (1991, 2nd edn) Herbivores. Their Interactions with Secondary Plant Metabolites. Vol. I The Chemical Participants. San Diego: Academic Press.

Slansky, F., & Rodriguez, J.G. (1987) Nutritional Ecology of Insects, Mites, Spiders, and Related Invertebrates. New York: John Wiley.

Sondheimer, E. & Simeone, J.B. (eds, 1970) Chemical Ecology. New York: Academic Press.

Szentesi, A. & Jermy, T. (1991) Insects-Plants '89. Budapest: Akadémiai Kiadó.

Torssell, K.B.G. (1997) Natural Product Chemistry. A Mechanistic Biosyntetic and Ecological Approach. Stockholm: Apotekarsocieteten.

Wallace, J.W. & Mansell, R.L. (1976) Biochemical Interaction between Plants and Insects. New York: Plenum.

Coleoptera

Abjörnsson, K., Wagner, B.M.A., Axelsson, A., Bjerselius, R., & Olsén, K.H. (1997) "Responses of Acilius sulcatus (Coleoptera: Dytiscidae) to chemical cues from perch (Perca fluviatilis)." Oecologia 111: 166-171.*

Al Abassi, S., Birkett, M.A., Pettersson, J., Pickett, J.A., Wadhams, L.J., & Woodcock, C.M. (2000) "Response of the Seven-spot Ladybird to an aphid alarm pheromone and an alarm pheromone inhibitor is mediated by paired olfactory cells." Journal of Chemical Ecology 26: 1765-1771.*

Al Abassi, S., Birkett, M.A., Pettersson, J., Pickett, J.A., Wadhams, L.J., & Woodcock, C.M. (2001) "Response of the ladybird parasitoid Dinocampus coccinellae to toxic alkaloids from the Seven-spot Ladybird, Coccinella septempunctata." Journal of Chemical Ecology 27: 33-43.*

Altieri, M.A. & Schmidt, L.L. (1986) "Population trends and feeding preferences of flea beetles (Phyllotreta cruciferae Goeze) in collard-wild mustard mixtures." Crop Protection 5: 170-175.*

Ambrosi, P., Arnone, A., Bravo, P., Bruché, L., De Cristofaro, A., Francardi, V., Frigerio, M., Gatti, E., Germinara, G.S., Panzeri, W., Pennacchio, F., Pesenti, C., Rotundo, G., Roversi, P.F., Salvadori, C., Viani, F., & Zanda, M. (2001) "Stereoselective synthesis of trifluoro- and monofluoro-analogues of frontalin and evaluation of their biological activity." Journal of Organic Chemistry 66: 8336-8343.*

Bakke, A. (1981) "Inhibition of the response in Ips typographus to the aggregation pheromone; field evaluation of verbenone and ipsenol." Zeitschrift für Angewandte Entomologie 92: 172-177.*

Bakke, A., Frøyen, P., & Skattebøl, L. (1977) "Field response to a new pheromonal compound isolated from Ips typographus." Naturwissenschaften 64: 98-99.*

Bakke, A. & Kvamme, T. (1981) "Kairomone response in Thanasimus predators to pheromone components of Ips typographus." Journal of Chemical Ecology 7: 305-312.*

Bichao, H., Borg-Karlson, A.K., Wibe, A., Araújo, J., & Mustaparta, H. (2005) "Molecular receptive ranges of olfactory receptor neurones responding selectively to terpenoids, aliphatic green leaf volatiles and aromatic compounds, in the strawberry blossom weevil Anthonomus rubi." Chemoecology 15: 211-226.*

Bichao, H., Borg-Karlson, A.K., Araújo, J., & Mustaparta, H. (2005) "Five types of olfactory receptor neurons in the Strawberry Blossom Weevil Anthonomus rubi: selective responses to inducible host-plant volatiles." Chemical Senses 30: 153-170.

Birgersson, G., Schlyter, F., Bergström, G., & Löfqvist, J. (1988) "Individual variation in aggregation pheromone content of the bark beetle, Ips typographus." Journal of Chemical Ecology 14: 1737-1761.*

Blight, M.M., Pickett, J.A., Smith, M.C., & Wadhams, L.J. (1984) "An aggregation pheromone of Sitona lineatus." Naturwissenschaften 71: 480.*

Blight, M.M. & Wadhams, L.J. (1987) "Male-produced aggregation pheromone in pea and bean weevil, Sitona lineatus (L.)." Journal of Chemical Ecology 13: 733-739.*

Bodnaryk, R.P. (1992) "Leaf epicuticular wax, an antixenotic factor in Brassicaceae that affects the rate and pattern of feeding of flea beetles, Phyllotreta cruciferae (Goeze)." Canadian Journal of Plant Science 72: 1295-1303.*

Bodnaryk, R.P. & Palaniswamy, P. (1990) Glucosinolate levels in cotyledons of mustard, Brassica juncea L. and rape, B. napus L. do not determine feeding rates of flea beetle, Phyllotreta cruciferae (Goeze)." Journal of Chemical Ecology 16: 2735-2746.*

Borden, J.H., Chong, L.J., Savoie, A., & Wilson, I.M. (1997) Responses to green leaf volatiles in two biogeoclimatic zones by Striped Ambrosia Beetle, Trypodendron lineatum." Journal of Chemical Ecology 23: 2479-2491.*

Borden, J.H., Oehlschlager, A.C., Slessor, K.N., Chong, L., & Pierce, H.D. (1980) "Field tests of isomers of lineatin, the aggregation pheromone of Trypodendron lineatum (Coleoptera: Scolytidae)." Canadian Entomologist 112: 107-109.*

Borden, J.H. & Slater, C.E. (1969) "Sex pheromone of Trypodendron lineatum: production in the female hindgut-malpighian tubule region." Annals of the Entomological Society of America 62: 454-455.*

Borg-Karlson, A.K., Ågren, L., Dobson, H., & Bergström, G. (1988) "Identification and electroantennographic activity of sex-specific geranyl esters in an abdominal gland of female Agriotes obscurus (L.) and A. lineatus (L.) (Coleoptera, Elateridae)." Cellular and Molecular Life Sciences 44: 531-534.*

Bowers, W.W., Gries, G., Borden, J.H., & Pierce, H.D. (1991) "3-methyl-3-buten-1-ol: an aggregation pheromone of the four-eyed spruce bark beetle, Polygraphus rufipennis (Kirby) (Coleoptera: Scolytidae)." Journal of Chemical Ecology 17: 1989-2002.*

Brignolas, F., Lieutier, F., Sauvard, E., Christiansen, E., & Berryman, A.A. (1998) "Phenolic predictors for Norway spruce resistance to the bark beetle Ips typographus (Coleoptera: Scolytidae) and an associated fungus, Ceratocystis polonica." Canadian Journal of Forest Research 28: 720-728.*

Brilli, F., Ciccioli, P., Frattoni, M., Prestininzi, M., Spanedda, A.F., & Loreto, F. (2009) "Constitutive and herbivore-induced monoterpenes emitted by Populus x euroamericana leaves are key volatiles that orient Chrysomela populi beetles." Plant, Cell & Environment 32: 542-552.*

Britton, G., Goodwin, T.W., Harriman, G.E., & Lockley, W.J.S. (1977) "Carotenoids of the ladybird beetle, Coccinella septempunctata." Insect Biochemistry 7: 337-345.*

Britton, G., Lockley, W.J.S., Harriman, G.A., & Goodwin, T.W. (1977) "Pigmentation of the ladybird beetle Coccinella septempunctata by carotenoids not of plant origin." Nature 266: 50.*

Brückmann, M., Termonia, A., Pasteels, J.M., & Hartmann, T. (2002) "Characterization of an extracellular salicyl alcohol oxidase from larval defensive secretions of Chrysomela populi and Phratora vitellinae (Chrysomelina)." Insect Biochemistry and Molecular Biology 32: 1517-1523.*

Bünnig, M. & Hilker, M. (1999) "Larval exocrine glands in the galerucine Agelastica alni L. (Coleoptera: Chrysomelidae): their morphology and possible functions." Chemoecology 9: 55-62.

Byers, J.A. (1992) "Attraction of bark beetles, Tomicus piniperda, Hylurgops palliatus , and Trypodendron domesticum and other insects to short-chain alcohols and monoterpenes." Journal of Chemical Ecology 18: 2385-2402.

Byers, J.A. (1993) "Avoidance of competition by spruce bark beetles, Ips typographus and Pityogenes chalcographus." Experientia 49: 272-275.

Byers, J.A., Birgersson, G., Lofqvist, J., Appelgren, M., & Bergstrom, G. (1990) "Isolation of pheromone synergists of bark beetle, Pityogenes chalcographus, from complex insect-plant odors by fractionation and subtractive-combination bioassay." Journal of Chemical Ecology.* 16: 861-876.

Byers, J.A., Birgersson, G., Lofqvist, J., & Bergstrom, G. (1988) "Synergistic pheromones and monoterpenes enable aggregation and host recognition by a bark beetle." Naturwissenschaften 75, 153-155.

Byers, J.A., Hogberg, H.E., Unelius, C.R., Birgersson, G., & Lofqvist, J. (1989) "Structure-activity studies on aggregation pheromone components of Pityogenes chalcographus (Coleoptera: Scolytidae). All stereoisomers of chalcogran and methyl 2,4-decadienoate." Journal of Chemical Ecology 15: 685-695.

Cagán, L., Tóth, P., & Tóthová, M. (2006) "Population dynamics of Chaetocnema tibialis Illiger and Phyllotreta vittula (Redtenbacher) on the weed Amaranthus retroflexus L. and cultivated Amaranthus caudatus L." Plant Protection Science 42: 73-80.

Chandra, G., Mandal, S.K., Ghosh, A.K., Das, D., Banerjee, S.S., & Chakraborty, S. (2008) "Biocontrol of larval mosquitoes by Acilius sulcatus (Coleoptera: Dytiscidae)." BMC Infectious Diseases 8: 138.

Chapman, J.C., Lockley, W.J.S., Rees, H.W., Goodwin, T.W. (1977) "Stereochemistry of olefinic bond formation in defensive steroids of Acilius sulcatus (Dytiscidae)." European Journal of Biochemistry 81: 293-298.*

Daloze, D. & Pasteels, J.M. (1979) "Production of cardiac glycosides by chrysomelid beetles and larvae." Journal of Chemical Ecology 5: 63-77.*

Daloze, D. & Pasteels, J.M. (1994) "Isolation of 8-hydroxygeraniol-8-O-beta-d -glucoside, a probable intermediate in biosynthesis of iridoid monoterpenes, from defensive secretions of Plagiodera versicolora and Gastrophysa viridula (Coleoptera: Chrysomelidae)." Journal of Chemical Ecology 20: 2089-2097.*

De Jong, P.W., Holloway, G.J., Brakefield, P.M., & de Vos, H. (1991) "Chemical defence in ladybird beetles (Coccinellidae). II. Amount of reflex fluid, the alkaloid adaline and individual variation in defence in 2-spot ladybirds (Adalia bipunctata)." Chemoecology 2: 15-19.*

Dickens, J.C. (1981) "Behavioural and electrophysiological responses of the bark beetle, Ips typographus, to potential pheromone components." Physiological Entomology 6: 251-261.*

Dolch, R. & Tscharntke, T. (2000) "Defoliation of alders (Alnus glutinosa) affects herbivory by leaf beetles on undamaged neighbours." Oecologia 125: 504-511.*

Feeny, P., Paauwe, K.L., & Demong, N.J. (1970) "Flea beetles and mustard oils: host plant specificity of Phyllotreta cruciferae and P. striolata adults (Coleoptera: Chrysomelidae)." Annals of the Entomological Society of America 63: 832-841.*

Feld, B.K., Pasteels, J.M., & Boland, W. (2001) "Phaedon cochleariae and Gastrophysa viridula (Coleoptera: Chrysomelidae) produce defensive iridoid monoterpenes de novo and are able to sequester glycosidically bound terpenoid precursors." Chemoecology 11: 191-198.*

Fietz, O., Dettner, K., Görls, H., Klemm, K., & Boland, W. (2002) "(R)-(+)-palasonin, a cantharidin-related plant toxin, also occurs in insect hemolymph and tissues." Journal of Chemical Ecology 28: 1315-1327.*

Francis, F., Lognay, G., & Haubruge, E. (2004) "Olfactory responses to aphid and host plant volatile releases: (E)-beta-farnesene an effective kairomone for the predator Adalia bipunctata." Journal of Chemical Ecology, 30: 741-755.

Francis, F., Lognay, G., Wathelet, J.P., & Haubruge, E. (2001) "Effects of allelochemicals from first (Brassicaceae) and second (Myzus persicae and Brevicoryne brassicae) trophic levels on Adalia bipunctata." Journal of Chemical Ecology 27: 243-256.

Francke, W., Heemann, V., Gerken, B., Renwick, J.A.A., & Vité, J.P. (1977) "2-Ethyl-1,6-dioxaspiro[4.4]nonane, principal aggregation pheromone of Pityogenes chalcographus (L.)." Naturwissenschaften 64: 590-591.*

Francke, W. & Vité, J.P. (1983) "Oxygenated terpenes in pheromone systems of bark beetles." Zeitschrift für Angewandte Entomologie 96: 146-156.*

Gerard, P.J., Crush, J.R., & Hackell, D.L. (2005) "Interaction between Sitona lepidus and red clover lines selected for formononetin content." Annals of Applied Biology 147: 173-181.*

Grégoire, J.C., Baisier, M., Drumont, A., Dahlsten, D.L., Meyer, H., & Francke , W. (1991) "Volatile compounds in the larval frass of Dendroctonus valens and Dendroctonus micans (Coleoptera: Scolytidae) in relation to oviposition by the predator, Rhizophagus grandis (Coleoptera: Rhizophagidae)." Journal of Chemical Ecology 17: 2003-2019.*

Gross, J. & Hilker, M. (1995) "Chemoecological studies of the exocrine glandular larval secretions of two chrysomelid species (Coleoptera): Phaedon cochleariae and Chrysomela lapponica." Chemoecology 5-6: 185-189.*

Gross, J., Müller, C., Vilcinskas, A., & Hilker, M. (1998) "Antimicrobial activity of exocrine glandular secretions, hemolymph, and larval regurgitate of the Mustard Leaf Beetle Phaedon cochleariae." Journal of Invertebrate Pathology 72: 296-303.*

Hansen, K. (1983) "Reception of bark beetle pheromone in the predaceous clerid beetle, Thanasimus formicarius (Coleoptera: Cleridae)." Journal of Comparative Physiology A 150: 371-378.*

Hartmann, T., Theuring, C., Schmidt, J., Rahier, M., & Pasteels, J.M. (1999) "Biochemical strategy of sequestration of pyrrolizidine alkaloids by adults and larvae of chrysomelid leaf beetles." Journal of Insect Physiology 45: 1085-1095.

Hautier, L., Grégoire, J.C., de Schauwers, J., San Martin, G., Callier, P., Jansen, J.P., & de Biseau, J.C. (2008) "Intraguild predation by Harmonia axyridis on coccinellids revealed by exogenous alkaloid sequestration." Chemoecology 18: 191-196.

Hemptinne, J.L., Lognay, G., Doumbia, M., & Dixon, A.F.G. (2001) "Chemical nature and persistence of the oviposition deterring pheromone in the tracks of the larvae of the Two Spot Ladybird, Adalia bipunctata (Coleoptera: Coccinellidae)." Chemoecology 11: 43-47.

Hicks, K.L. (1974) "Mustard oil glucosides: feeding stimulants for adult Cabbage Flea Beetles, Phyllotreta cruciferae (Coleoptera: Chrysomelidae)." Annals of the Entomological Society of America 67: 261-264.*

Hilker, M. (1989) "Intra- and interspecific effects of larval secretions in some chrysomelids (Coleoptera)." Entomologia Experimentalis et Applicata 53: 2237-245.*

Hilker, M., Eschbach, U., & Dettner, K. (1992) "Occurrence of anthraquinones in eggs and larvae of several galerucinae (Coleoptera: Chrysomelidae)." Naturwissenschaften 79: 271-274.*

Holloway, G.J., de Jong, P.W., Brakefield, P.M., & de Vos, H. (1991) "Chemical defence in ladybird beetles (Coccinellidae). I. Distribution of coccinelline and individual variation in defence in 7-spot ladybirds (Coccinella septempunctata)." Chemoecology 2: 7-14.

Holloway, G.H., de Jong, P.W., & Ottenheim, M. (1993) "The genetics and cost of chemical defense in the Two-Spot Ladybird (Adalia bipunctata L.)." Evolution 47: 1229-1239.*

Ikonen, A., Tahvanainen, J., & Roininen, H. (2001) "Chlorogenic acid as an antiherbivore defence of willows against leaf beetles." Entomologia Experimentalis et Applicata 99: 47-54.*

Ikonen, A., Tahvanainen, J., & Roininen, H. (2002) "Phenolic secondary compounds as determinants of the host plant preferences of the leaf beetle Agelastica alni." Chemoecology 12: 125-131.*

Innocenzi, P.J., Hall,, D.R., & Cross, J.V. (2001) "Components of male aggregation pheromone of Strawberry Blossom Weevil, Anthonomus rubi Herbst. (Coleoptera: Curculionidae)." Journal of Chemical Ecology 27: 1203-1218.*

Ivarsson, P., Henrikson, B.I., & Stenson, J.A.E. (1996) "Volatile substances in the pygidial secretion of gyrinid beetles (Coleoptera: Gyrinidae)." Chemoecology 7: 191-193.*

Kalinová, B., Podskalská, H., Ruzicka, J., & Hoskovec, M. (2009) "Irresistible bouquet of death - how are burying beetles (Coleoptera: Silphidae: Nicrophorus) attracted by carcasses." Naturwissenschaften 96: 889-899.*

Karlsson, A.K.B., Henrikson, B.I., Härlin, C., Ivarsson, P., Stenson, J.A.E., & Svensson, B.W. (1999) "The possible role of volatile secretions as intra- and interspecific alarm signals in gyrinus species." Oikos 87: 220-227.*

Kirsch, R., Vogel, H., Muck, A., Vilcinskas, A., Pasteels, J.M., & Boland, W. (2011) "To be or not to be convergent in salicin-based defence in chrysomeline leaf beetle larvae: evidence from Phratora vitellinae salicyl alcohol oxidase." Proceedings of the Royal Society B 278: 3225-3232.

Kohnle, U., Francke, W., & Bakke, A. (1985) "Polygraphus poligraphus (L.): response to enantiomers of beetle specific terpene alcohols and a bicyclic ketal." Zeitschrift für Angewandte Entomologie 100: 5-8.*

Kohnle, U., Vité, J.P., Baader, E.J., Meyer, H., & Francke, W. (1991) "Chirality of ipsdienol and ipsenol indicates a frass pheromone system in the epruce engraver, Ips typographus." Naturwissenschaften 78: 136-138.*

Kolehmainen, J., Julkunen-Tiitto, R., Roininen, H., & Tahvanainen, J. (1995) "Phenolic glucosides as feeding cues for willow-feeding leaf beetles." Entomologia Experimentalis et Applicata 74: 235-243.*

Kopf, A., Rank, N.E., Roininen, H., Julkunen-Tiitto, R., Pasteels, J.M., & Tahvanainen, J. (1998) "The evolution of host-plant use and sequestration in the leaf beetle genus Phratora (Coleoptera: Chrysomelidae)." Evolution 52: 517-528.

Landon, F., Ferary, S., Pierre, D., Auger, J., Biemont, J.C., Levieux, J., & Pouzat , J. (1997) "Sitona lineatus host-plant odors and their components: effect on locomotor behavior and peripheral sensitivity variations." Journal of Chemical Ecology 23: 2161-2173.*

Laurent, P., Braekman, J.C., Daloze, D., & Pasteels, J.M. (2002) "Chilocorine D, a novel heptacyclic alkaloid from a coccinellid beetle (Chilocorus renipustulatus)." Tetrahedron Letters 43: 7465-7467.*

Lebrun, B., Braekman, J.C., Daloze, D., Pasteels, J.M. (1997) "2-Dehydrococcinelline, a new defensive alkaloid from the ladybird beetle Anatis ocellata (Coccinellidae)." Journal of Natural Products 60: 1148-1149.*

Lincoln, D.C.R. (1971) "The oxygen and water requirements of the egg of Ocypus olens Müller (Staphylinidae, Coleoptera)." Journal of Insect Physiology 7: 265-272.*

Lognay, G., Hemptinne, J.L., Chan, F.Y., Gaspar, C., & Marlier, M. (1996) "Adalinine, a new piperidine alkaloid from the ladybird beetles Adalia bipunctata and Adalia decempunctata." Journal of Natural Products 59: 510-511.*

Macconnell, J.G., Borden, J.H., Silverstein, R.M., & Stokkink, E. (1977) "Isolation and tentative identification of lineatin, a pheromone from the frass of Trypodendron lineatum (Coleoptera: Scolytidae)." Journal of Chemical Ecology 3: 549-561.*

Moeck, H.A. (1970) "Ethanol as the primary attractant for the ambrosia beetle Trypodendron lineatum (Coleoptera : Scolytidae)." Canadian Entomologist 102: 985-995.*

Mori, K. & Sasaki, M. (1980) "Synthesis of racemic and optically active forms of lineatin, the unique tricyclic pheromone of Trypodendron lineatum (Olivier)." Tetrahedron 36: 2197-2208.*

Nakamuta, K. (1991) "Aphid alarm pheromone component, (E)-beta-farnesene, and local search by a predatory lady beetle, Coccinella septempunctata bruckii Mulsant (Coleoptera: Coccinellidae)." Applied Entomology and Zoology 26: 1-7.*

Nakashima, Y., Birkett, M.A., Pye, B.J., Pickett, J.A., & Powell, W. (2004) "The role of semiochemicals in the avoidance of the seven-spot ladybird, Coccinella septempunctata, by the aphid parasitoid, Aphidius ervi." Journal of Chemical Ecology 30: 1103-1116.

Nield, C.E. (1976) "Aspects of the biology of Staphylinus olens (Müller), Britain's largest Staphylinid beetle." Ecological Entomology 1: 117-126.*

Nikolova, N., Rezanka, T., & Nikolova-Damyanova, B. (2000) "Fatty acid profiles of main lipid classes in adult Chrysomela vigintipunctata (Scopoli) (Coleoptera:Chrysomelidae)." Zeitschrift für Naturforschung C 55: 661-666.

Nikolova, N., Rezanka, T., Nikolova-Damyanova, B., & Kalushkov, P. (1999) "Hydrocarbons in adult Chrysomela vigintipunctata (Scopoli) (Coleoptera: Chrysomelidae)." Comparative Biochemistry and Physiology B 123: 67-77.*

Oldham, N.J., Boland, M..V.W., & Dettner, K. (1996) "Iridoid monoterpene biosynthesis in insects: Evidence for a de novo pathway occurring in the defensive glands of Phaedon armoraciae (Chrysomelidae) leaf beetle larvae." Naturwissenschaften 83: 470-473.*

Orth, R.E., Moore, I., Fisher, T.W., & Legner, E.F. (1975) "Biological notes on Ocypus olens, a predator of Brown Garden Snail, with descriptions of the larva and pupa (Coleoptera : Staphylinidae)." Psyche 82: 292-298.

Palaniswamy. P. & Bodnaryk, R.P. (1994) "A wild brassica from Sicily provides trichome-based resistance against flea beetles, Phyllotreta cruciferae (Goeze) (Coleoptera: Chrysomelidae)." Canadian Entomologist 126: 1119-1130.*

Palaniswamy, P. & Lamb, R.J. (1992) "Host preferences of the flea beetles Phyllotreta cruciferae and P. striolata (Coleoptera: Chrysomelidae) for crucifer seedlings." Journal of Economic Entomology 85: 743-752.*

Pasteels, J.M., Rowell-Rahier, M., Braekman, J.C., & Dupont, A. (1983) "Salicin from host plant as precursor of salicylaldehyde in defensive secretion of Chrysomeline larvae." Physiological Entomology 8: 307-314.

Pasteels, J.M., Rowell-Rahier, M., Braekman, J.C., & Daloze, D. (1984) "Chemical defences in leaf beetles and their larvae: The ecological, evolutionary and taxonomic significance." Biochemical Systematics and Ecology 12: 395-406.

Peng, C. & Weiss, M.J. (1992) "Evidence of an aggregation pheromone in the flea beetle, Phyllotreta Cruciferae (Goeze) (Coleoptera: Chrysomelidae)." Journal of Chemical Ecology 18: 875-884.*

Randoux, T., Braekman, J.C., Daloze, D., & Pasteels,, J.M. (1991) "De novo biosynthesis of Delta3-Isoxazolin-5-one and 3-Nitropropanoic acid derivatives in Chrysomela tremulae." Naturwissenschaften 78: 313-314.*

Rank, N.E., Köpf, A., Julkunen-Tiitto, R., & Tahvanainen, J. (1998) "Host preference and larval performance of the salicylate-using leaf beetle Phratora vitellinae." Ecology 79: 618-631.*

Reinecke, A., Ruther, J., & Hilker, M. (2002) "The scent of food and defence: green leaf volatiles and toluquinone as sex attractant mediate mate finding in the European cockchafer Melolontha melolontha." Ecology Letters 5: 257-263.*

Reinecke, A., Ruther, J., & Hilker, M. (2005) "Electrophysiological and behavioural responses of Melolontha melolontha to saturated and unsaturated aliphatic alcohols." Entomologia Experimentalis et Applicata 115: 33-40.*

Rowell-Rahier, M. (1984) "The food plant preferences of Phratora vitellinae (Coleoptera: Chrysomelinae). B. A laboratory comparison of geographically isolated populations and experiments on conditioning." Oecologia 64: 369-374.*

Rudinsky, J.A. & Daterman, G.E. (1964) "Response of the ambrosia beetle Trypodendron lineatum (Oliv.) to a female-produced pheromone." Zeitschrift für Angewandte Entomologie 54: 300-303.*

Rudinsky, J.A., Novák, V., & Svihra, P. (1971) "Attraction of the bark beetle Ips typographus L. to terpenes and a male-produced pheromone." Zeitschrift für Angewandte Entomologie 67: 179-188.*

Ruther, J., Reinecke, A., Tolasch, T., & Hilkera, M. (2002) "Phenol - another cockchafer attractant shared by Melolontha hippocastani Fabr. and M. melolontha L." Zeitschrift für Naturforschung C 57: 910-913.

Schlyter, F., Birgersson,, G., Byers,, J.A., Lofqvist, J., & Bergstrom, G. (1987) "Field response of Spruce Bark Beetle, Ips typographus, to aggregation pheromone candidates." Journal of Chemical Ecology 13: 701-716.

Schlyter, F., Lofqvist, J., & Byers, J.A. (1987) "Behavioural sequence in the attraction of the bark beetle Ips typographus to pheromone sources." Physiological Entomology >12: 185-196.

Schöne, H. (1951) "Die Lichtorientierung der Larven von Acilius sulcatus L. und Dytiscus marginalis L." Journal of Comparative Physiology A 33: 63-98.*

Schröder, F.C. & Tolasch, T. (1998) "Psylloborine A, a new dimeric alkaloid from a ladybird beetle." Tetrahedron 54: 12243-12248.*

Schroeder, L.M. (1999) "Prolonged development time of the bark beetle predator Thanasimus formicarius (Col.: Cleridae) in relation to its prey species Tomicus piniperda (L.) and Ips typographus (L.) (Col.: Scolytidae)." Agricultural and Forest Entomology 1: 127-135.*

Schroeder, L.M. (2003) "Differences in responses to alpha-pinene and ethanol, and flight periods between the bark beetle predators Thanasimus femoralis and T. formicarius (Col.: Cleridae)." Forest Ecology and Management 177: 301-311.*

Schroeder, L.M. & Lindelöw, A. (1989) "Attraction of scolytids and associated beetles by different absolute amounts and proportions of alpha-pinene and ethanol." Journal of Chemical Ecology 15: 807-817.*

Schurig, V., Leyrer, U., & Kohnle, U. (1985) "Enantiomer composition and absolute configuration of terpinene-4-ol from the bark beetle Polygraphus poligraphus." Naturwissenschaften 72: 211.*

Soetens, P., Pasteels, J.M., Daloze, D., & Kaisin, M. (1998) "Host plant influence on the composition of the defensive secretion of Chrysomela vigintipunctata larvae (Coleoptera: Chrysomelidae)." Biochemical Systematics and Ecology 26: 703-712.*

Tahvanainen, J., Julkunen-Tiitto, R., & Kettunen , J. (1985) "Phenolic glycosides govern the food selection pattern of willow feeding leaf beetles." Oecologia 67: 52-56.*

Tavares, R., Randoux, T., Braekman, J.C., & Daloze, D. (1993) "Hemisynthesis of (20S,24R)-20,24-epoxy-3beta,16beta,25-trihydroxy-6-oxo-5alpha-cholestane 16-acetate from diosgenin." Tetrahedron 49: 5079-5090.*

Tømmerås, B.A. (1985) "Specialization of the olfactory receptor cells in the bark beetle Ips typographus and its predator Thanasimus formicarius to bark beetle pheromones and host tree volatiles." Journal of Comparative Physiology A 157: 335-341.*

Tømmerås, B.A. (1988) "The clerid beetle, Thanasimus formicarius, is attracted to the pheromone of the ambrosia beetle, Trypodendron lineatum." Cellular and Molecular Life Sciences 44: 536-537.*

Tømmerås, B.A. & Mustaparta, H. (1985) "Olfactory receptor cells of Thanasimus formicarius specialized to single prey pheromone compounds." Naturwissenschaften 72: 604-606.*

Tømmerås, B.A,, Mustaparta, M., & Gregoire, J.C. (1984) "Receptor cells in Ips typographus and Dendroctonus micans specific to pheromones of the reciprocal genus." Journal of Chemical Ecology 10: 759-769.*

Toth, M., Csonka, É., Bartelt, R.J., Cossé, A.A., Zilkowski, B..W., Muto, S.E., & Mori, K. (2005) "Pheromonal activity of compounds identified from male Phyllotreta cruciferae: field tests of racemic mixtures, pure enantiomers, and combinations with allyl isothiocyanate." Journal of Chemical Ecology 31: 2705-2720.

Urban, J. (2008) "Occurrence, development and economic importance of Phratora (= Phyllodecta) vitellinae (L.) (Coleoptera, Chrysomelidae)." Journal of Forest Science 52: 357-385.

Van Oycke, S., Braekman, J.C., Daloze, D., & Pasteels, J.M. (1987) "Cardenolide biosynthesis in chrysomelid beetles." Cellular and Molecular Life Sciences 43: 460-462.*

Van Oycke, S., Randoux, T., Braekman, J.C., Daloze, D., & Pasteels, J.M. (1988) "New cardenolide glycosides from the defence glands of chrysolinina beetles (Coleoptera: Chrysomelidae)." Bulletin des Sociétés chimiques belges 97: 297-312.*

Veith, M., Dettner, K., & Boland, W. (1996) "Stereochemistry of an alcohol oxidase from the defensive secretion of larvae of the leaf beetle Phaedon armoraciae (Coleoptera: Chrysomelidae)." Tetrahedron 52: 6601-6612.*

Veith, M., Oldham, N.J., Dettner, K., Pasteels, J.M., & Boland, W. (1997) "Biosynthesis of defensive allomones in leaf beetle larvae: stereochemistry of salicylalcohol oxidation in Phratora vitellinae and comparison of enzyme substrate and stereospecificity with alcohol oxidases from several iridoid producing leaf beetles." Journal of Chemical Ecology 23: 429-443.*

Vrkocová, P., Kalinová, B., Valterová, I., & Koutek, B. (2003) "Analysis of European oak bark beetle (Scolytus intricatus) extracts using hyphenated and chiral chromatography techniques." Talanta 59: 107-114.*

Vrkocová, P., Valterová, I., Vrkoc, J., & Koutek, B. (2000) "Volatiles released from oak, a host tree for the bark beetle Scolytus intricatus." Biochemical Systematics and Ecology 28: 933-947.*

Vuts, J., Imrei, Z., & Tóth, M. (2010) "New co-attractants synergizing attraction of Cetonia aurata aurata and Potosia cuprea to the known floral attractant." Journal of Applied Entomology 134: 9-15.

Wainhouse, D., Cross, D.J., & Howell, R.S. (1990) "The role of lignin as a defence against the spruce bark beetle Dendroctonus micans: effect on larvae and adults." Oecologia 85: 257-265.*

Young, (1967) "Predation in the larvae of Dytiscus marginalis Linnaeus (Coleoptera: Dytiscidae)." Pan-Pacific Entomologist 43: 113.*

Zhang, Q.H. & Schlyter, F. (2003) "Redundancy, synergism, and active inhibitory range of non-host volatiles in reducing pheromone attraction in European spruce bark beetle Ips typographus." Oikos 101: 299-310.*

Zhang, Q.H., Schlyter, F., & Anderson, P. (1999) "Green leaf volatiles interrupt pheromon response of Spruce Bark Beetle, Ips typographius." Journal of Chemical Ecology 25: 2847-2861.

Zhang, Q.H., Schlyter, F., & Birgersson, G. (2000) "Bark volatiles from nonhost angiosperm trees of spruce bark beetle, Ips typographus (L.) (Coleoptera: Scolytidae): chemical and electrophysiological analysis." Chemoecology 10: 69-80.*

Zhu, J. & Park, K.C. (2005) "Methyl salicylate, a soybean aphid-induced plant volatile attractive to the predator Coccinella septempunctata." Journal of Chemical Ecology 31: 1733-1746.*

Diptera

Baur, R., Städler, E., Monde, K., & Takasugi, M. (1998) "Phytoalexins from Brassica (Cruciferae) as oviposition stimulants for the cabbage root fly, Delia radicum." Chemoecology 8: 163-168.*

Birch, A.N.E., Griffiths, D.W., Hopkins, R.J., & Smith, W.H. (1996) "A time-course study of chemical and physiological responses in Brassicas induced by turnip root fly (Delia floralis) larval feeding." Entomologia Experimentalis et Applicata80: 221-223.*

Birch, A.N.E., Griffiths, D.W., Hopkins, R.J., Smith, W.H.M., & McKinlay, R.G. (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: 1-9.*

Birch, A.N.E., Griffiths, D.W., & Smith, W.H.M. (1990) "Changes in forage and oilseed rape (Brassica napus) root glucosinolates in response to attack by turnip root fly (Delia floralis)." Journal of the Science of Food and Agriculture 51: 309-320.*

Blaney, W.M. & Simmonds, M.S.J. (1994) "Effect of age on the responsiveness of peripheral chemosensory sensilla of the turnip root fly (Delia floralis)." Entomologia Experimentalis et Applicata 70: 253-262.*

Francis, F., Martin, T., Lognay, G., & Haubruge, E. (2005) "Role of (E)-beta-farnesene in systematic aphid prey location by Episyrphus balteatus larvae (Diptera: Syrphidae)." European Journal of Entomology 102: 431-436.

Grandgirard, J. (2003) Localisation et Exploitation des Patches d'Hôtes chez le Parasitoïde Trybliographa rapae W. (Hymenoptera: Figitidae) : Approche théorique et Application à la Lutte biologique contre la Mouche du Chou Delia radicum L. (Diptera : Anthomyiidae). Université de Rennes Thesis.

Griffiths, D.W., Birch, A.N.E., & Macfarlane-Smith, W.H. (1994) "Induced changes in the indole glucosinolate content of oilseed and forage rape (Brassica napus) plants in response to either turnip root fly (Delia floralis) larval feeding or artificial root damage." Journal of the Science of Food and Agriculture 65: 171-178.*

Harmel, N., Almohamad, R., Fauconnier, M.L., Du Jardin, P., Verheggen, F., Marlier, M., Haubruge, E., & Francis, F. (2007). "Role of terpenes from aphid-infested potato on searching and oviposition behavior of Episyrphus balteatus." Insect Science 14: 57-63.

Havukkala, I. (1987) "Odour source finding behaviour of the turnip root fly, Delia floralis (Fall.) (Dipt., Anthomyiidae) in the field." Journal of Applied Entomology 104: 105-110.*

Havukkala, I. & Virtanen, M. (1985) "Behavioural sequence of host selection and oviposition in the turnip root fly Delia floralis (Fall.) (Anthomyiidae)." Zeitschrift für Angewandte Entomologie 100: 39-47.*

Hopkins, R.J., Birch, A.N.E., Griffiths, D.W., Baur, R., Städler, E., & McKinlay, R.G. (1997) "Leaf surface compounds and oviposition preference of Turnip Root Fly Delia floralis: the role of glucosinolate and nonglucosinolate compounds." Journal of Chemical Ecology 23: 629-643.*

Hopkins, R.J., Griffiths, D.W., Birch, A.N.E., McKinlay, R.G., & Hall, J.E. (1993) "Relationships between turnip root fly (Delia floralis) larval development and the sugar content of swede (Brassica napus ssp. rapifera) roots." Annals of Applied Biology 122: 405-415.*

Hopkins, R.J., Wright, F., McKinlay, R.G., & Birch, A.N.E. ( (1996) "Analysis of sequential behaviour patterns: the oviposition decision of the turnip root fly, Delia floralis." Entomologia Experimentalis et Applicata 80: 93-96.*

Neveu, N., Grandgirard, J., Nénon, J.P., & Cortesero, A.M. (2002) "Systemic release of herbivore-induced plant volatiles by turnips infested by concealed root-feeding larvae Delia radicum L." Journal of Chemical Ecology 28: 1717-1732.

Nottingham, S.F. (1988) "Host-plant finding for oviposition by adult cabbage root fly, Delia radicum." Journal of Insect Physiology 34: 227-234.*

Nottingham, S.F. & Coaker, T.H. (1985) "The olfactory response of cabbage root fly Delia radicum to the host plant volatile allylisothiocyanate." Entomologia Experimentalis et Applicata 39: 307-316.*

Roessingh, P., Städler, E., Baur, R., Hurter, J., & Ramp, T. (1997) "Tarsal chemoreceptors and oviposition behaviour of the cabbage root fly (Delia radicum) sensitive to fractions and new compounds of host-leaf surface extracts." Physiological Entomology 22: 140-148.*

Simmonds, M.S.J., Blaney, W.M., Mithen, R., Birch, A.N.E., & Lewis, J. (1994) "Behavioural and chemosensory responses of the turnip root fly (Delia floralis) to glucosinolates." Entomologia Experimentalis et Applicata 71: 41-57.*

Städler, E. & Schöni, R. (1990) "Oviposition behavior of the cabbage root fly, Delia radicum (L.), influenced by host plant extracts." Journal of Insect Behavior 3: 195-209.*

Tuttle, A.F., Ferro, D.N., & Idoine, K. (1988) "Role of visual and olfactory stimuli in host finding of adult cabbage root flies, Delia radicum." Entomologia Experimentalis et Applicata 47: 37-44.*

Uebel, E.G., Sonnet, P.E., Miller, R.W., & Beroza, M. (1975) Sex pheromone of the face fly, Musca autumnalis De Geer (Diptera: Muscidae). Journal of Chemical Ecology 1: 195-202.*

Vanhaelen, N., Gaspar, C., & Francis, F. (2002). "Influence of prey host plant on a generalist aphidophagous predator: Episyrphus balteatus (Diptera: Syrphidae). European Journal of Entomology 99: 561-564.

Vanhaelen, N., Haubruge, E., Gaspar, C., & Francis, F. (2001) "Oviposition preferences of Episyrphus balteatus." Mededelingen van de Faculteit Landbouwkundige en Toegepaste Biologische Wetenschappen 66: 269-275.*

Hemiptera

Chernysh, S., Cociancich, S., Briand, J.P., Hetru, C., & Bulet, P. (1996) "The inducible antibacterial peptides of the hemipteran insect Palomena prasina: identification of a unique family of prolinerich peptides and of a novel insect defensin." Journal of Insect Physiology 42: 81-89.*

Drijfhout, F.P. & Groot, A.T. (2001) "Close-range attraction in Lygocoris pabulinus L.)." Journal of Chemical Ecology 27: 1133-1149.*

Groot, A.T., Drijfhout, F.P., Heijboer, A., Van Beek, T.A., & Visser, J.H. (2001) "Disruption of sexual communication in the mirid bug Lygocoris pabulinus by hexyl butanoate." Agricultural and Forest Entomology 3:49-55.*

Hanssen, H.P & Jacob, J. (1983) "Sex-dependent monoterpene formation in Harpocera thoracica (Hemiptera)." Naturwissenschaften 70: 622-623.*

Hardie, J., Isaacs, R., Pickett, J.A., Wadhams, L.J., & Woodcock, C.M. (1996) "Methyl salicylate and (-)-(1R,5S)-myrtenal are plant-derived repellents for black bean aphid, Aphis fabae Scop. (Homoptera: Aphididae)." Journal of Chemical Ecology 20: 2847-2855.*

Wink, M., Hartmann, T., Witte, L., & Rheinheimer, J. (1982). "Interrelationship between quinolizidine alkaloid producing legumes and infesting insects: exploitation of the alkaloid-containing phloem sap of Cytisus scoparius by the broom aphid Aphis cytisorum." Zeitschrift für Naturforschung 37: 1081-1086.

Hymenoptera

Barker, A.M., Molotsane, R., Müller, C., Schaffner, U., & Städler, E. (2006) "Chemosensory and behavioural responses of the turnip sawfly, Athalia rosae, to glucosinolates and isothiocyanates." Chemoecology 16: 209-218.*

Dötterl, S., Füssel, U., Jürgens, A., & Aas, G. (2005) "1,4-dimethoxybenzene, a floral scent compound in willows that attracts an oligolectic bee." Journal of Chemical Ecology 31: 2993-2998.*

Francke, W., Krohn, S., & Tengö, J. (1991) "Identification of new sesquiterpenoids in cephalic secretion of cuckoo bee, Nomada lathburiana (Apoidea, Anthophoridae)." Journal of Chemical Ecology 17: 557-566.*

Führer, E. & Willers, D. (1986) "The anal secretion of the endoparasitic larva Pimpla turionellae: Sites of production and effects." Journal of Insect Physiology 32: 361-367.*

Geervliet, J.B., Vet, L.E., & Dicke, M. (1996) "Innate responses of the parasitoids Cotesia glomerata and C. rubecula (Hymenoptera: Braconidae) to volatiles from different plant-herbivore complexes." Journal of Insect Behavior 9: 525-538.

Horikoshi, M., Takabayashi, J., Yano, S., Yamaoka, R., Ohsaki, N., & Sato, Y. (1997) "Cotesia glomerata female wasps use fatty acids from plant-herbivore complex in host searching." Journal of Chemical Ecology 23: 1505-1515.*

Luxová, A., Urbanova, K., Valterova, I., Terzo, M., & Borg-Karlson, A.K. (2004) "Absolute configuration of chiral terpenes in marking pheromones of bumblebees and cuckoo bumblebees." Chirality 16: 228-233.

Müller, C. (2009) "Interactions between glucosinolate- and myrosinasecontaining plants and the sawfly Athalia rosae." Phytochemical Review 8: 121-134.

Müller, C., Agerbirk, N., Olsen, C.E., Boevé, J.L., Schaffner, U.R.S., & Brakefield, P.M. (2001) "Sequestration of host plant glucosinolates in the defensive hemolymph of the sawfly Athalia rosae." Journal of Chemical Ecology 27: 2505-2516.*

Müller, C., Boevé, J.L., & Brakefield, P.M. (2002) "Host plant derived feeding deterrence towards ants in the turnip sawfly Athalia rosae." Entomologia Experimentalis et Applicata 104: 153-157.*

Müller, C., & Wittstock, U. (2005) "Uptake and turn-over of glucosinolates sequestered in the sawfly Athalia rosae." Insect Biochemistry and Molecular Biology 35: 1189-1198.*

Nishida, R., Kawai, K., Amano, T., & Kuwahara, Y. (2004) "Pharmacophagous feeding stimulant activity of neo-clerodane diterpenoids for the turnip sawfly, Athalia rosae ruficornis." Biochemical Systematics and Ecology >32: 15-25.*

Opitz, S.E., Jensen, S.R., & Müller, C. (2010) "Sequestration of glucosinolates and iridoid glucosides in sawfly species of the genus Athalia and their role in defense against ants." Journal of Chemical Ecololgy 36: 148-157.*

Parkinson, N., Richards, E.H., Conyers, C., Smith, I., & Edwards, J.P. (2002) "Analysis of venom constituents from the parasitoid wasp Pimpla hypochondriaca and cloning of a cDNA encoding a venom protein." Insect Biochemistry and Molecular Biology 32: 729-735.*

Schiestl, F.P. & Ayasse, M. (2000) "Post-mating odor in females of the solitary bee, Andrena nigroaenea (Apoidea, Andrenidae), inhibits male mating behavior." Behavioral Ecology and Sociobiology 48: 303-307.*

Tengö, J. & Bergström, G. (1975) "All-trans-farnesyl hexanoate and geranyl octanoate in the dufour gland secretion of Andrena (Hymenoptera: Apidae)." Journal of Chemical Ecology 1: 253-268.

Tengö, J. & Bergström, G. (1976) "Odor correspondence between Melitta females and males of their nest parasite Nomada flavopicta K. (Hymenoptera: Apoidea)." Journal of Chemical Ecology 2: 57-65.*

Tengö, J. & Bergström, G. (1977) "Cleptoparasitism and odor mimetism in bees: do Nomada males imitate the odor of Andrena females?" Science 196: 1117-1119.*

Tengö, J. & Bergström, G. (1977) "Comparative analyses of complex secretions from heads of Andrena bees (Hym., Apoidea)." Comparative Biochemistry and Physiology B 57: 197-202.*

Uçkan, F., Ssnan, S., Savasçi, S., & Ergin, E. (2004) "Determination of venom components from the endoparasitoid wasp Pimpla turionellae L. (Hymenoptera: Ichneumonidae)." Annals of the Entomological Society of America 97: 775-780.*

Vernède, R. & Pak, G.A. (1994) "Olfactory preferences of Cotesia glomerata (L.) (Hym., Braconidae) to volatiles from the plant-host complex in a flight tunnel." Journal of Applied Entomology 117: 278-286.*

Willers, D., Lehmann-Danzinger, H., & Führer, E. (1982) "Antibacterial and antimycotic effect of a newly discovered secretion from larvae of an endoparasitic insect, Pimpla turionellae L. (Hym.)." Archives of Microbiology 133: 225-229.*

Lepidoptera

Ding, B.J., Hofvander, P., Wang, H.L., Durrett, T.P., Stymne, S., & Löfstedt, C. (2014). "A plant factory for moth pheromone production." Nature Communications 5: 3353.

Edgar, J.A., Culvenor, C.C.J., Cockrum, P.A., Smith, L.W., & Rothschild, M. (1980) "Callimorphine: identification and synthesis of the cinnabar moth 'metabolite'." Tetrahedron Letters 21: 1383-1384.*

Eisner, T. & Meinwald, Y.C. (1965) "Defensive secretion of a caterpillar (Papilio)." Science 150: 1733-1735.*

Eisner, T., Pliske, T.E., Ikeda, M., Owen, D.F., Vázquez, L., Pérez, H., Franclemont, J.G., & Meinwald, J. (1970) "Defense mechanisms of arthropods. XXVII. Osmeterial secretions of papilionid caterpillars (Baronia, Papilio, Eurytides)." Annals of the Entomological Society of America 63: 914-915.*

Hendrikse, A. (1979) "Activity patterns and sex pheromone specificity as isolating mechanisms in eight species of Yponomeuta (Lepidoptera: Yponomeutidae)." Entomologia Experimentalis et Applicata 25: 172-180.*

Hendrikse, A. (1986). "Intra- and interspecific sex-pheromone communication in the genus Yponomeuta." Physiological Entomology 11: 159-169.*

Hendrikse, A. (1988) "Hybridization and sex-pheromone responses among members of the Yponomeuta padellus-complex." Entomologia Experimentalis et Applicata 48: 213-223.*

Hendrikse, A. & Vos-Bünnemeyer, E. (1987). "Role of host-plant stimuli in sexual behaviour of small ermine moths (Yponomeuta)." Ecological Entomology 12: 363-371.*

Löfstedt, C. & van der Pers, J.N. (1985). "Sex pheromones and reproductive isolation in four European small ermine moths." Journal of Chemical Ecology 11: 649-666.*

Van der Pers, J.N.C., Thomas, G., & Den Otter, C.J. (1980) "Interactions between plant odours and pheromone reception in small ermine moths (Lepidoptera: Yponomeutidae)." Chemical Senses 5: 367-371.

*Abstract only.


[General], [Habitats], [Animals], [Fungi], [Plants], [Diseases and Parasites], [Decomposition], Chemicals Produced
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