Abedon, S. T., Herschler, T. D., Stopar, D. (2001). Bacteriophage latent – period evolution as a response to resource Availability. Am. Appl. and Env. Micr. 67, 4233-4241.

Adams, J. B. and Wade, C. V. (1976). Aphid behavior and host-plant preference demonstrated by electronic patterns of probing and feeding. Am. Pot. J. 53, 261.

Adler, L. S., Schmitt, J. and Bowers, M. D. (1995). Genetic variation in defensive chemistry in Plantago lanceolata (Plantaginaceae) and its effect on the specialist herbivore Junonia coenia (Nymphalidae). Oecologia 101, 75-85.

Agrawal, A. A. (1998). Induced responses to herbivory and increased plant performance. Science 279, 1201-1202.

Agrawal, A. A. and Karban, R. (1999). Why induced defenses may be favored over constitutive strategies in plants. In: Tollrian, R. and Harvell, C. D. (Eds), The Ecology and Evolution of Inducible Defenses. Princeton Univ. Press.

Agrawal, A. A. (2000). Specificity of induced resistance in wild radish: causes and consequences for two specialist and two generalist caterpillars. OIKOS 89, 493-500.

Akey, D. H. and Beck, S. D. (1971). Continuous rearing of the pea aphid, Acyrthosiphon pisum, on a holoidic diet. Ann. of Ent. Soc. of Am. 64, 353-356.

Al-Mousawi, A. H., Richardson, P. E., Burton, R., L. (1983 ). Ultrastructural studies of greenbug (Hemiptera: Aphididae) feeding damage to susceptible and resistant wheat cultivars. Ann. Ent. Soc. Am. 76, 964-971.

Alstroem, S. (1991). Induction of disease resistance in common bean susceptible to halo blight bacterial pathogen after seed bacterization with rhizosphere pseudomonads. J. Gen. Appl. Microbiol. 37, 495-501.

Asaka, O. and Shoda, M. (1996). Biocontrol of Rhizoctonia solani damping- off of tomato with Bacillus subtilis RB 14. Appl. Environ. Microbiol. 62, 4039-4043.

Asaka, O., Ano, T., Shoda, M. (1996). Persistence of Bacillus subtilis RB14 and its derivate strains in soil with respect to the Ipa-14 gene. J. Fermentation Bioengineering 81, 1-6.

Ashman, K. and Bosserhoff, A. (1985). Amino acid analysis by high performance liquid chromatography and pre-column derivatization. In: Modern Methods in Protein Chemistry 2, (Eds.) Walter de Gruyter, Berlin.

Auclair, J. L. and Cartier, J. J. (1963). Pea aphid: rearing on chemically defined diet. Science 142, 1068-1069.

Baker, C. J., Staveley, J. R., Thomas, C. A., Sasser, M., MacFall, J. S. (1983). Inhibitory effect of Bacillus subtilis on Uromyces phaseoli and on development on rust pustules on bean leaves. Phytopathology 73, 1148-1152.

Baker, C. J., Staveley, J. R., Mock, N. (1985). Biocontrol of bean rust by Bacillus subtilis field conditions. Plant disease 69, 770-772.

Baldwin, I. T., Zhang, Z. P., Diab, N., Ohnmeiss, T. E., McCloud E. S., Lynds, G. Y., Schmelz, E. A. (1997). Quantification, correlations and manipulations of wound-induced changes in jasmonic acid and nicotine in Nicotiana sylvestris. Planta 201, 397-404.

Bargmann, C. and Schönbeck, F. (1992). Acremonium kiliense as inducer of resistance to wilt diseases on tomatoes. Z. Pflkrankh. Pflschutz 99, 266-272.

Beck, S. D. (1965). Resistance of plants to insects. Ann. Rev. Entomol. 10, 207-232.

Beckmann, M. (1995 ). Untersuchungen über den Einfluß von Bacillus subtilis FZB C-Kulturfiltraten auf Wurzelgallenälchen. Diplomarbeit, Humboldt - Uni. Berlin, Landwirtschaftlich-Gärtnerische Fakultät.

Beauverie, J. (1901). Essais d’immunisation des végétaux contre des maladies cryptogamiques. Comptes rendues de l’academie des sciences, serie III 133, 209-220.

Besson, F., Peypoux, F., Michel, G., Delcambe, L. (1978 ). Identification of iturin group in various strains of Bacillus subtilis. J. Antibiotics 31, 284-288.

Bettiol, W., Brandao, M. S. B., Saito, M. L. (1992 ). Control of bean rust with extracts and wettable powder of Bacillus subtilis. Summa Phytopathologie 18, 153-159.

Birch, N., Wratten, S. D. (1984). Patterns of resistance in genus Vicia. Ann. Appl. Biol. 104, 327-338.

Bochow, H. (1992). Phytosanitary effects of Bacillus subtilis as biocontrol agent. International Symposium over Fytofarmacie en Fytiatrie (Belgium). Rijksuniversiteit Faculteit Landbouwwetenschappen, Gent. 44, 387-397.

Bochow, H. (1995). Mode of action and practical use of Bacillus subtilis as complex acting bioproduct. In: Environmental Biotic Factors in Integrated plant Disease Control. Manka, M. (Ed.). The Polish Phytopathology Soc., Poznan, 97-104.

Bochow, H., Gantcheva, K. (1995). Soil introductions of Bacillus subtilis as biological agent and its population and activity dynamic. Acta Horticulturae 382, 164-172.

Bochow, H., Ahmed, E. (1996). Einfluß einer Substratanreicherung mit Bacillus subtilis auf die Wirt- Parasit- Entwicklung Tomate-Meloidogyne arenaria. Mittlg. DPG, Phytomedizin 1, 37-38.

Bochow, H. (1998). Persönliche Mitteilungen, FG Phytomedizin, Landwirtschaftlich-Gärntnerische Fakultät der Humboldt-Universität Berlin.

Boller, T., Gehri, A., Mauch, F., Voegli, U. (1983). Chitinase in bean leaves: induction by ethylene, purification, properties and possible function. Planta 157, 22-31.

Bowers, M. D. (1992). Iridoid glycosides. In: Rosenthal, G. A. and Berenbaum, M. R. (Eds.), Herbivores: Their Interactions with Secondary Plant Metabolites, 2 nd Ed., Vol. I. The Participants. Academic Press.

Bowles, D. J. (1990). “Defense- Related Proteins in higher plants. Ann. Rev. Biochem. 59, 873-907

Bramstedt, F. (1948). Über die Verdaungsphysiologie der Aphiden. Z. Naturforsch. 36, 14-.24.

Broadbent, P., Baker, K. F. and Waterworth, Y. (1971). Bacteria and actinomycetes antagonistic to fungal root pathogens in Australian soils. Austr. J. Biol. Sc. 24, 925-944.

Buehl, A., and Zoefel, P. (1998). SPSS für windows version 7.5: Praxisorientierte Einführung in die moderne Datenanalyse. Addison Wesley Longman Verlag GmbH.

Campbell, B. C., McLean, D. L., Kinsey, M. G., Jones, K. C. and Dreyer, D. L. (1982). Probing behavior of the greenbug (Schizaphis graminum, biotype C) on resistant and susceptible varieties of sorghum. Entomol. Exp. Appl., 31, 140.

Carroll, C. R. and Hoffman, C. A. (1980). Chemical feeding deterrent mobilized in response to insect herbivory and counteradaptation by Epilachna tredecimnonata. Science 209, 414-416.

Carter, N., McLean, I. F. G., Watt, A. D. and Dixon, A. F. G. (1980 ). Cereal aphids: a case study and review. Applied Biology 5, 271-348.

Casseretto, J. A., Corcuera, L. J. (1998). Proteinase inhibitor accumulation in aphid infested barley leaves. Phytochemistry 49, 2279-2286.

Chaudhary, R. C., Schwarzbach, E. and Fishbeck, G. (1983). Quantitative studies of resistance induced by avirulent cultures of Erysiphe graminis f.sp. hordei in barley.Phytopathology Z. 108, 80.

Chatters, R. M. and Schlehuber, A. M. (1951). Mechanics of feeding of the greenbug (Toxoptera graminium Rond.) on Hordeum, Avena and Triticum. Oklahoma Agriculture Experiment Station Technical Bulletin. No T-41.

Chessin, M. and Zipf, A. E. (1990). Alarm systems in higher plants. The Botanical Review 56, 193-235.

Chester, K. S. (1933). The problem of acquired physiological immunity in plants. The Quart. Rev. Biol. 8, 129-154, 275-324.

Clarke, D. D. (1984). Tolerance of parasitic infection in plants. In: Wood, R. K. S. and Jellis, G. J., (Eds.). Plant diseases: Infection, damage and loss. Blackwell scientific publications, Oxford.

Cohn, F. (1872). Untersuchungen über Bakterien. Beiträge zur Biologie der Pflanzen. Bd. 1, (1875).

Cole, R. A. (1994). Isolation of a chitin binding lectin, with insecticidal activity in cabbage aphid Brevicoryne brassicae. Entomol. Exp. Appl. 72, 181-187.

Collinge, D. B., Gregersen, P. L. and Thordal-Christensen, H. (1993). The induction of gene expression in response to pathogenic microbes. In: Mechanisms of Plant Growth and Improved Productivity: Modern Approaches and Perspective, Basra A. S., Dekker, M. (Eds.), pp. 391-433.

Collinge, D. B., Kragh, K. M., Mikkelsen, J. D., Nielsen, K. K., Rasmussen, U., Vad, K. (1993). Plant chitinases. The Plant Journal 3, 31-40.

Collinge, D., B., Borch, J., Madriz-Ordenana, K. and Newmann, M., A. (2001).The response of plants to pathogens, in: Hawkesford M. J. and Buchner, P. (Eds), Molecular Tools for the Assessment of Plant Adaptation to the Environment. Kluwer, Dordrecht, pp 131-158.

Conti, G. G., Pianezzola, A., Arnoldi, A., Violini, G. and Maffi, D. (1996). Possible involvement of salicylic acid in systemic acquired resistance of Cucumis sativus against fuliginea. Eur. J. Plant Pathol. 102, 537-544.

Cooper, R. (1959). Bacterial fertilizers in the Soviet Union. Soil Fertility 22, 327-331.

Corcuera, L. J. (1990). Plant chemicals and resistance of cereals to aphids. Ambio 19, 365-367.

Dadd, R. H. and Krieger, D. L. (1968). Dietary amino acid requirements of the aphid Myzus persicae. J. Insect Physiol. 14, 741-764.

Dadd, R. H. (1985). Nutrition: Organisms. In: Kerkut, G.A., Gilbert, L. I. (Eds.), Comprehensive Insect Physiology, Biochemistry and Pharmacology, vol. 4. Pergamon Press, Oxford, 313-390.

Dassi, B., Dumas-Gaudot, E., Asselin, A., Richard, C. and Gianinazzi, S. (1996). Chitinase and β-1,3-glucanase isoforms expressed in pea roots inoculated with arbuscular mycorrhizae or pathogenic fungi. Eur. J. of Plant Pathology 102, 105-108.

Dean, R. A. and Kuc, J. (1986). Induced systemic protection in cucumber. Effects of inoculum density on symptom development caused by Colletotrichum lagenarium in previously infected and uninfected plants. Phytopathology 76, 186-189.

Defago, G. and Keel, C. (1995). Pseudomonads as biocontrol agents of diseases caused by soil-borne pathogens. Biological Control: Benefits and Risks. Plant and Microbial Biotechnology Research Series 4, 137-148.

von Dehn, M. (1961). Untersuchungen zur Ernährungsphysiologie der Aphiden. Die Aminosäuren und Zucker im Siebröhrensaft einiger Krautgewächsarten und im Honigtau ihrer Schmarotzer. Z. vergl. Physiol. 45, 88-108.

Devonshire, A. L. (1989). Resistance of aphids to insecticides. In world crop pests: Aphids. Vol. 2C., Minks, A. K. and Harrewijn P. (Eds.), Elsevier, Science Publishers, Amsterdam, pp. 123-139.

Dixon, A. F. G. and Wratten, S. D. (1971). Laboratory studies on aggregation, size and fecundity in the black bean aphid, Aphis fabae Scop. Bull. Ent. Res. 61, 97-312.

Dixon, A. F. G. (1975 ). Aphids and translocation. In: Zimmermann, M.H. and Milburn, J. A. (Eds): Transport in plants. I. Phloem transport. Springer Verlag, Berlin, Heidelberg, pp. 154-170.

Dixon, A. F. G. (1978). Biology of Aphids. Edward Arnold (Publishers) Ltd, London.

Dixon, A. F. G. and Dharma, T. R. (1980a). Number of ovarioles and fecundity in the black bean aphid, Aphis fabae. Entomol. Exp. Appl. 28, 1-14.

Dixon, A. F. G. and Dharma, T. R. (1980a). “Spreading of risk” in development mortality: size, fecundity and reproduction rate in the black bean aphid. Entomol. Exp. Appl. 28, 301-312.

Dixon, A. F. G. (1985). Aphid Ecology. Blackie and Son (Publishers) Ltd, London, 136 pages.

Dixon, A. F. G. (1987). Cereal aphids as an applied problem. Agr. Zool. Rev. 2, 1-57.

Dixon, A. F. G. (1987).Parthenogenetic reproduction and the rate of increase in Aphids. In: Minks A. K. and Marrewijn P. (Eds.), Aphids Their Biology, Natural Enemies and Control. Elsevier Science Publishers B. V. Amsterdam, pp. 269-287.

Dixon, A. F. G. (1990). Ecological interactions of aphids and their host plants. In: Aphid - plant genotype interactions. Ed. By Campbell, R. K., Eikenbary, R. D., (Eds), Amsterdam, Elsevier, 378 pages.

Dixon, R. A. and Harrison, M. (1990). Activation, structure and organisation of genes involved in microbial defense in plants. Adv. Genet. 28, 165-234.

Doley, S. (1998). Effects of metabolites from the rhizobacterium Bacillus subtilis (Ehrenberg) Cohn in the pathosystem tomato (Lycopersicon esculentum Mill.)- Fusarium oxysporium f.sp. radicis-lycopersici Jarvis and Shoemaker. Diss. Humboldt- Univ. Berlin, Landwirtschaftlich-Gärtnerische Fakultät, 144 pages.

Dowd, P. F., and Lagrimini, L. M. (1997). Examination of different tobacco (Nicotianna spp.) types under and overproducing tobacco anionic peroxidase for their leaf resistance to Helicoverpa zea. J. Chem. Ecol. 23, 2357-2370.

Dreyer, D. L. and Campbell, B. C. (1987). Chemical basis of host –plant resistance to aphids. Plant Cell Environ. 10, 353-361.

Dunleavy, J. (1955). Control of damping-off of sugar beet by Bacillus subtilis. Phytopathology 45, 252-257.

Ehrenberg, C. G. (1835 ). Dritter Beitrag zur Erkenntnis großer in der Richtung des kleinsten Raumes. Abh. Preuss. Akad. Wiss. Phys. Kl. In: Sneath, P. H. A.; Nicholas, S. M.; Shape, M. E.; Holt, G. J. (Eds.) (1986): Bergey’s Manual of Systemic Bacteriology. Williams and Wilkins, Baltimore, pp. 134-336.

van Emden, H. F. (1972). Aphids as phytochemists. In: Harbourne JB (Ed.) Phytochemical Ecology, Academic Press, London, pp. 25-43.

van Emden, F. F. (1969). Plant resistance to Mysus persicae induced by a plant regulator and measured by aphid relative growth rate. Entomol. Exp. Appl. 12, 125-131.

Enyedi, A. J., Yalpani, N., Paul, S., Raskin, I. (1992). Signal molecules in systemic plant resistance to pathogens and pests. Cell 70, 879-886.

Epple, P., Apel, K., Bohlman, H. (1995). An Arabidopsis thaliana thionin gene is inducible via a signal transduction pathway different from that for pathogenesis-related proteins. Plant Physiol. 109, 813-820.

Eschrich, W., Heyser, W. (1975).Biochemistry of phloem constituents. In: Zimmermann, M. H. and Milburn, J. A. (Eds.). Transport in Plants I. Phloem Transport. Springer – Verlag, Berlin Heidelberg New York, pp. 595-602.

Esnault, R., and Chibbar, R. N. (1997). Peroxidases and plant defence. Plant peroxidase. Newsletter 10, 34-41.

Farmer, E. E. and Ryan, C. A. (1990). Interplant communication: Airborne methyl jasmonate induces synthesis of proteinase inhibitors in plants leaves. Proc. Natl. Acad. Sci. USA 87, 7713-7716.

Fey, H. (1996). Untersuchungen zum Einsatz phytosanitär wirksamer Bacillus spp. zur Saatgutbehandlung beim Mais. Mitt. a. d. Biol. Bundesanst. f. Land - und Forstwirtschaft H. 321 , 470.

Forslund, K. (2000). Plant-Aphid interactions: Studies of cyanogenic glucosides and aphid-.induced responses in Hordeum vulgare. Diss., Swedish University of Agricultural Sciences, Uppsala, 2000, 112 pages.

Fouché, A., Verhoeven, R. L., Hewitt, P. H., Walter, M. C., Kriel, C. F., and DeJager, J. (1984). Russian aphid (Diuraphis noxia) feeding damage on wheat, related cereals and a Bromus grass species . In: Walters, M. C. (Ed.). Progress in Russian Wheat Aphid (Diuraphis noxia Mordw.) Research in the Republic of South Africa. Tech. Commun. Dep. Agric. Repub. S. Afr. 191, 22-23.

Fracheboud, Y. (1999). Cold adaptation of photosynthetic apparatus of Maize by growth at sub optimal temperature. In: Crop Development for Cool and Wet Regions of Europe. Office for the Official Publications of the European Communities, Brussels, pp.88-98.

Frazer, B. D. (1972 ). Life tables and intrinsic rates of increase of apterous black bean aphids and pea aphids on broad bean (Homoptera: Aphididae). Canadian Entomology 104, 1717-22.

Gaeumann, E. (1951). Pflanzliche Infektionslehre. Verlag Birkhäuser, Basel, 681 pages.

Galler, M., Witmann, J., Poehling, H. M. (1998). Induced tolerance and induced resistance against biotrophic pathogens and cereal aphids in wheat. Bulletin, OILB/ SROP. 21, 193-198.

Galler, M. (2001).Zum Einfluß von Induktoren auf die Toleranz – und Resistenzeigenschaften von Weizenpflanzen gegenüber der Getreideblattlaus Sitobion avenae F. Diss. Fachbereich Biologie der Univ. Hannover, 183 pages.

Gaspar, T., Penel, C., Thorpe, T., and Greppin, H. (1982). Peroxidases. 1970-1980, Univ. Geneva,.Geneva, pp. 60-121.

Giebel, J. (1982). Mechanisms of resistance to plant nematodes. Ann. Rev. Phytopathol. 20, 275-279.

Givovich, A., Morse, S., Cerda, H., Niemeyer, H. M., Wratten, S. D., and Edwards, P. J. (1992). Hydroxamics acid glucosides in honeydew of aphids feeding on wheat. J. Chem. Ecol. 18, 841-846.

Godel, H. Graser, T., Foeldi, P., Pfaender, P. and Fuerst, P. (1984). Measurements of free amino acids in human biological fluids by high – performance liquid chromatography. J. Chrom. 297, 49-61.

Guldemond, J. A., van den Brink, W. J. and den Belder, E. (1998 ). Methods of assessing population increase in aphids and the effects of growth stage of the host plant on population growth rates. Entomol. Exp. Appl. 86, 163-173

Gupta, V. K. and Utkhede, R. S. (1986). Factors affecting the production of antifungal compounds by enterobacter aerogenes and Bacillus subtilis, antagonists of phytophtora cactorum. J. Phytopath. 117, 9-16.

Green, T. R. and Ryan, C. A. (1972). Wound induced proteinase inhibitor in plant leaves: A possible defense mechanism against insects. Science 175, 776-777.

Griffiths, D. C., Greeway, A. R. and Lloyd, S. L. (1975). An artificial diet with improved acceptability to three strains of Myzus persicae (Sulz.) (Hemiptera, Aphididae). Bull. Ent. Res. 65, 349-358.

Grosch, R. und Junge, H. (1996). Wirkungen verschiedener Bacillus subtilis -Stämme gegen Pythium aphanidermatum an Gurke und Tomate in hydroponischer Kultur. Mitt. a.d. Biol. Bundesanstalt f. Land- und Forstwirtschaft H.321, 469.

Haniotakis, G. E. and Lange, W. H. (1974). Beet yellow virus resistance in sugar beets, mechanisms of resistance. J. Econ. Entomol. 67, 25.

Hbid, C., Jacques, P., Razafindralambo, H., Mpoyo, M. K., Meurice, E., Paquot, M., and Thonart, P. (1996). Influence of the production of two lipopeptides, iturin A, and surfactin S1, on oxygen transfer during Bacillus subtilis fermentation. Appl. Bioch. Biol. 57 , 571-579.

Hawkins, C. D. B., Whitecross M. I. and Aston, M. J. (1987). The effect of short- term aphid .feeding on the partitioning of 14CO2 photoassimilate in three legume species. Physiol. Plant. 71, 379-383.

Herger, G., Klingauf, F. M. D., Pommer E. H and Scherer, M. (1988). Die Wirkung von Auszügen aus dem Sachalin-Staudenknöterich, Reynoutria sachalinensis (Schmidt, F.) Nakai, gegen Pilzkrankheiten, insbesondere Echte Mehltaupilze. Nachrichtenbl. Dtsch. .Pflanzenschutzd. 40, 56-60.

Hildebrand, D. F., Brown, G. C., Jackson, D. M. and Hamilton-Kemp, T. R. (1993). Effects of some leaf-emitted volatile compounds on aphid population increase. J. Chem. Ecol. 19, 1875-1887.

Hilder, V. A., Gatehouse, A. M. R., Sheerman, S. E., Barker, R. F., and Boulter, D. (1987 ). A novel mechanism of insect resistance engineered into tobacco. Nature 330, 160-163.

Hilton, M. D., Alaeddinoglu, N. G., and Demain, A. L. (1988). Synthesis of bacilysin by Bacillus subtilis branches from prephenate of the aromatic amino acid pathway. Bacteriology 170, 482-484.

Hiraoka, H., Asaka, O., Ano, T. and Shoda, M. (1992 ). Characteristics of Bacillus subtilis RB14, coproducer of peptide antibiotics iturin and surfactin. J. Gen. Appl. Microbiol. 38, 635-640.

Holt, J. and Birch A. N. E. (1984). Taxonomy, evolution and domestication of Vicia in relation to aphid resistance. Ann. of Appl. Biol. 105, 547-556.

Huber, J., Bochow, H. and Junge, H. (1987). Selektion und biotechnische Herstellung von Kulturlösungen mikrobieller Antagonisten zur Unterdrükung phytopathogener Bodenpilze. J. Basic Microbiol. 27, 497-503.

Idris, E., Makaewicz, O., Farouk, A., Rosner, K., Greiner, R., Bochow, H., Richter, T. and Borriss, R. (2002). Extracellular phytase activity of Bacillus amyloliquefaciens FZB45 contributes to its plant - growth - promoting effect. Microbiology 148, 2097-2109.

Idris, E. (2002). Investigations on the Genetics of Plant – Growth – Promoting Substances Synthesis by Bacillus subtilis / amyloliquefaciens Strains FZB. Diss. Humboldt- Univ. Berlin, Landwirtschaftlich-Gärtnerische Fakultät, 136 pages.

Irving, H. R., Kuc, J. (1990). Local and systemic induction of peroxidase, chitinase and resistance in cucumber plants by K2HPO4. Physiol. and Mol. Plant Pathol. 37, 355-366.

Jach, G., Goernhardt, B., Mundy, J., Logemann, J., Pinsdorf, E., Leah, R., Schell, J.,.and Maas, C. (1995). Enhanced quantitative resistance against fungal disease by combinatorial expression of different barley antifungal proteins in transgenic tobacco. Plant J. 8, 97-109.

Jacob, F., Jaeger, E., J., Ohmann, E. (1981). Kompendium der Botanik. Gustav Fischer Verlag, Jena.

Janzen, D. H. (1980). When is it coevolution? Evolution, 34, 611-612.

Ji, C., and Kuc, J. (1995). Purification and characterization of an acidic ß-1,3 glucanase from cucumber and its relationship to systemic disease resistance induced by colletotrichum lagenarium and tobacco necrosis virus. Molecular plant - Microbe Interactions 8, 899-905.

Johnson, R., Narvez, G. and Ryan, C. A. (1989). Expression of proteinase inhibitors I and II mRNAs in transgenic tobacco plants: Effects on natural defense against Manduca sexta larvae. Proc. Natl. Acad. Sci. USA, 86, 9871-9875.

Jongsma, M. A. and Botler, C. (1997). The adaptation of insects to plant protease inhibitors. J. Insect Physiol. 43, 885-895.

Kanehisa, K. Tsumuki, H. Kawada, K. and Rustamani, M. A. (1990). Relations of gramine contents and aphid populations on barley lines. Appl. Ent. Zool. 25, 251-259.

Karban, R. (1986). Induced resistance against spider mites in cotton, field verification.Entomol. Exp. Appl. 42, 239-242.

Karban, R., Baldwin, I. T. (1997). Induced responses to herbivory. The University of Chicago Press, Chicago and London, 319 pages.

Kehlenbeck, H., Krone, C., Oerke, E. C. and Schönbeck, F. (1994). The effectiveness of induced resistance on yield of mildewed barley. J. Plant Dis. Prot. 101, 11-21.

Kempton, R. A., Lowe, H. J. B., and Bintcliffe, E. J. B. (1980). The relationship between fecundity and adult weight in Myzus persicae. J. Anim. Ecol. 49, 917-926.

Kennedy, G. G., McLean, D. L. and Kinsey, M. G. (1978 ). Probing behavior of Aphis gossypii on resistant and susceptible muskmelon. J. Econ. Entomol. 71, 13.

Klingauf, F. A. (1987). Host plant finding and acceptance. In: Minks A. K. and Marrewijn P. (Eds.), Aphids Their Biology, Natural Enemies and Control. Elsevier Science Publishers B. V., Amsterdam, pp. 360.

Kloepper, J. W., Tuzun, S., Liu, L. and Wei., G. (1993). Plant growth- promoting rhizobacteria as inducers of systemic disease resistance. In: Lumsden, R. D and Vaughn J. L. (Eds), Pest Management: Biologically based Technologies, American Chemical Society Books, Washington, DC, pp. 156-165.

Koehler, W., G., Schachtel and Voleske, P. (1984). Biometrie: Einführung in die Statistik für Biologen und Agrarwissenschaftler. Springer Verlag, Berlin, 285 pages.

Kogan, M., and Ortman, F. F. (1978). Antixenosis- a new term proposed to define Painter’s non-preference modality of resistance. Bul. Entomol. Soc. Am. 24, 175-176.

Koiwa, H., Bressan, R. A., and Hasegawa, P. M. (1997). Regulation of protease inhibitors and plant defense. Trends plant Sci. 2, 397-384.

Koumoutsi, A., Chen, X. H., Henne, A., Liesegang, H., Hitzeroth, G., Franke, P., Vater, J. and Borriss R. (2004). Structural and Functional Characterization of Gene Clusters Directing Nonribosomal Synthesis of Bioactive Cyclic Lipopeptides in Bacillus amyloliquefaciens Strain FZB42, J. of Bact., 186 1084-1096.

Kuc, J., Shockley G. and Kearney, K. (1975). Protection of cucumber against Colletotrichum lagenarium by Colletotrichum lagenarium. Pysiol. Plant Path. 7, 195-199.

Kraska, T. and Schönbeck, F. (1993 ). About changes in the chromatin structure after resistance induction in Hordeum vulgare L. J. Phytopathology 137, 10-14.

Krezel, Z. and Leszczynska, D. (1978). Antibiotic activity of Bacillus subtilis 93 to some of phytopathogenic microorganisms. Mededelingen Rijksfakulteit Landbouwwetenschappen, Gent 43, 859- 865.

Leather, S. R., Dixon, A. F. G. (1984). Aphids' growth and reproductive rates. Entomol. Exp. Appl. 35, 137-140.

Leckstein, P. M. and Llewellyn, M. (1993 ). Effect of dietary amino acids on the size and alary polymorphism of Aphis fabae. J. of Insect Physiology 19, 973-980.

Leeman, M., van Pelt, J. A., Den Ouden, F. M., Heinsbroek, M., Bakker, P. A. H. M., and Schippers, B. (1995). Induction of systemic resistance against Fusarium wilt of radish by lipopolysaccharides of Pseudomonas fluorescens. Phytopathology, 85, 1021-1027.

Leszczynski, B., Wright, L. C. and Bakowski, T. (1989). Effect of secondary plant substances on winter wheat resistance to grain aphid. Entomol. Exp. Appl. 52, 135-.139.

Loebenstein, G. (1972). Localization and induced resistance in virus- infected plants. Ann. Rev. Phytopath. 10, 177-206.

Loeffler, W., Kratzer, W., Kremer, S., Kugler, M., Petersen, F., Jung, G., Rapp, C., and Tschen J. S. M. (1990). Gegen Pilze wirksame Antibiotika der Bacillus subtilis - Gruppe. Forum Mikrobiologie 3, 156-163.

van Loon, L. C., Pierpoin, W. C., Boller, T., and Conejero, V. (1994). Recommendations for naming plant pathogenesis-related proteins. Plant Mol. Biol. Reporter 12, 245-264.

van Loon, L. C. (1995). Disease- suppressive actions of pseudomonas bacteria: Induced resistance. In: Alabovette, C. (Eds.), Biological and Integrated Control of Root Ddiseases in Soilless Cultures. IOBC/ WPRS Bulletin 19, 53-61.

van Loon, L. C., and van Strien, E. A. (1999). The families of pathogenesis-related proteins, their activities, and comparative analysis of PR-1 type proteins. Physiol. Mol. Pathol. 55, 85-97.

Lowe, H. J. B. (1967). Interspecific differences in the biology of aphids (Homoptera, Aphididae) on leaves of Vicia faba. I. Feeding behaviour. Entomol. Exp. Appl. 10, 347.

Lucas, J. A. (1999). Plant immunisation: from myth to SAR. Pesticide Sci. 55, 193-196.

Lusso, M., and Kuc, J. (1996). The effect of sense and antisense expression of the PR-N gene for ß-1,3-glucanase on disease resistance of tobacco to fungi and viruses. Physio. Mol. Plant Pathol. 49, 267-283.

Madigan, M. T., Martinko, J. M. and Parker, J. (1997). Biology of Microorganisms, 8th edition. Prentice Hall. Upper Saddle River, NJ., 986 pages.

Maiss, E. (1987). Einsatz einer Resistenzinduktion durch Kulturfiltrate von Stachybotris chartarum (Ehrenb.) Hughes und Bacillus subtilis (Ehrenberg) Cohn gegen Virosen unter praxisüblichen Anbaubedingungen. Arch. Phytopathol. Pflanzensch. 23, 275-283.

Malamy, J., Carr, J., Klessig, D. and Raskin, I. (1990). Salicylic acid: a likely endogenous signal in the resistance response of tobacco to viral infection. Science 250, 1002-1004.

Mallott, P. G. and Davy, A. J. (1978). Analysis of effects of the bird cherry- oat aphid on the growth of barley: Unrestricted infestation. New Phytol. 80, 209-218.

Mauch, F., Mauch-Mani, B., and Boller, T. (1988). Antifungal hydrolases in pea tissue. Plant Physiol. 88 , 936-942.

McIntyre, J. L., Dodds, J. A., and Hare, J. D. (1980). Induced resistance in plants may protect from insects and pathogens. Frontiers of Plant Science 33, 4-5.

McKeen, C. D., Reilly, C. C., and Pusey, P. L. (1986). Production and partial characterization of antifungal substances antagonistic to Monilinia fructicola from Bacillus subtilis.Phytopathology 76, 136-139.

Metraux, J. P., and Boller, T. (1986). Local and systemic induction of chitinase in cucumber plants in response to viral, bacterial and fungal infections. Physiol. and Mol. Plant Pathol. 28, 161-169.

Metraux, J. P., Burkhart, W., Moyer, M., Dincher, S., Middlesteadt, W., Williams, S., Payne, G., Garnes, M., and Ryals, J. (1989). Isolation of a complementary DAN encoding a chitinase with structural homology to a bifunctional lysozyme/chitinase. In: PNAS, USA 86, 896-900.

Metraux, J., Signer, H., Ryals, J., Ward, E., Wyss-Benz, M., Gaudin, J., Raschdorf, K., Schmid, E., Blum, W. and Inverardi, B. (1990). Increase in salicylic acid at the onset of systemic acquired resistance in cucumber. Science 250, 1004-1006.

Metraux, J., Ahl Goy, P., Staub, T., Speich, J., Steinemann, A., Ryals, J., and Ward, E. (1991). Induced systemic resistance in cucumber in response to 2,6-dichloroisonicotinic acid and pathogens. In: Hennecke, H. and Verma, D.P.S (Eds), Advances in Molecular Genetics of Plant-Microbe Interactions. Kluwer Academic Publishers, Dordrecht , pp. 432-439.

Mhammedi, A., Peypoux, F., Besson, F., and Michel, G. (1982). Bacllomycin F, a new antibiotic of iturin group: Isolation and characterization. J. Antibiotics 35, 306-312.

Mittler, T. E. and Dadd R. H. (1962). Artificial feeding and rearing of the aphid, Myzus persicae (Sulzer), on a completely defined synthetic diet. Nature, London, 195, 404.

Mizubuti, E. S. G., Maffia, L. A., Muchovej, J. J., Romeiro, R. S., Batista, U. G. (1995). Epidemiological aspects of Uromyces appendiculatus on dry bean (Phaseolus vulgaris) after treatment with Bacillus subtilis. J. Phytopathology 143, 689-691.

Mueller, G. (1965). Bodenbiologie. Gustav Fischer Verlag, Jena.

Mueller, M. J., Brodschlem, W., Spannagel, E. and Zenk, M. H. (1993 ). Signalling in the elicitation process is mediated through the octadecanoid pathway leading to jasmonic acid. In: PNAS, USA 90, 7490-7494.

Moerschalbacher, B. M., (1992). Plant peroxidases: involvement in response to pathogens. In: Penel, C. Gsapar, T., Greppin, H. (Eds). Plant peroxidases. 1980-1990. Topics and detailed literature on Molecular, Biochemical, and Physiological aspects, Univ. Geneva, Geneva, 578 pages.

Montllor, C. B., Campbell, B. C. and Mittler, T. E. (1990 ). Responses of Schizaphis graminium (Homoptera, Aphididae) to leaf excision in resistant and susceptible sorghum. Ann. Appl. Biol. 16, 189.

Montllor, L. B. (1991). The influence of plant chemistry on aphids feeding behaviour. In: Bernays, E. (Eds). Insect Plant Interactions Vol. 3, CRC press, London, pp. 125-173.

Nakazawa, K., Tanaka, H. and Arima, M. (1982). Rapid, simultaneous and sensitive determination of free hydroxyproline and proline in human serum by high-performance liquid chromatography. J. Chrom. 233, 313-316.

Nielson, M. W. and Don, H. (1974). Probing behaviour of biotypes of the spotted alfalfa aphid on resistant and susceptible alfalfa clones. Entomol. Exp. Appl. 17, 447-486.

Niemeyer, H. M. (1988). Hydroxamic acids (4-hydroxy-1,4-benzoxazin-3-ones), defence chemicals in the graminae. Phytochemistry 27, 3349-3358.

Noble, M. D. (1958). A simplified clip cage for aphid investigations. Canadian Entomology 90, 760.

Ohno, A., Ano, T. and Shoda, M. (1995). Effect of temperature on production of lipopeptide antibiotics, iturin A and surfactin by a dual producer, Bacillus subtilis RB14, in solid-state fermentation. J. Fermentation and Bioengineering80, 517-519.

Omer, A. D., Thaler, J. S., Granett, J., and Karban, R. (2000). Jasmonic acid induced resistance in grapevines to root and leaf feeder. J. of Econ. Entomol. 93, 840-845.

OMS. (1991). L’utilisation des pesticides en agriculture et ses consequences pour la santé publique. Geneve, Suisse.

Orihara, N., Ano, T. and Shoda, M. (1995). Biocontrol of damping-off of tomato by Bacillus subtilis NB22. Eur. J. Plant Pathol. XIII Int. Plant Protection Congress, the Hague, the Netherlands, Kluwer Academic Publishers, Abstract No. 66.

Painter, R. H. (1958). Resistance of plants to insects. Ann. Rev. Ent. 3, 267-290.

Painter, R. H. (1951). Insect Resistance in Crop Plants. New York, Macmillan, 152 pages.

van Peer, R., Niemann, G. J. and Schippers, B. (1991). Induced resistance and phytoalexin accumulation in biological control of Fusarium wilt of carnation by Pseudomonas sp. strain WCS417r. Phytopathology 81, 728-733.

Peng, J. H., Black, L. L. (1976). Increased proteinase inhibitor activity in response to infection of resistant tomato plants by Phytophthora infestans. Phytopathology 66, 958-963.

Pickett, J. A., Wadhams, L. J. and Woodcock, C. M. (1992). The chemical ecology of aphids. Ann. Rev. of Entomol. 37, 67-90.

Peypoux, F., Besson, F., Michel, G., Lenzen, C., Dierickx, L., Delcambre, L. (1980). Characterization of a new antibiotic of iturin group: Bacillomycin. D., J. Antibiotics 33, 1146-1149.

Poehling, H. M. and Morvan, Y. (1984). Untersuchungen zur Entwicklung von Aphis fabae an resistenten und anfaelligen Sorten von Vicia faba. Mededelingen Rijksfaculteit Landbouwwetenschappen, Gent 49, 793-802.

Poehling, H. M., and Doerfer, K. (1984). Uptake and utilisation of proteins, peptides and amino acids by Aphis fabae. Abstracts XVII International Congress of Entomology, Hamburg, 143. Proc. Of the sixth international symposium of scale insect.

Press, C. M., Wilson, M. and Kloepper, J. W. (1996 ). Salicylic acid production by PGPR strain 90-166 and its role in induced systemic disease resistance. Phytopathology 86 , 82.

Priest, F. G., Goodfellow, M., Shute, L. A. and Berkeley, R. C. W. (1987). Bacillus amyloliquefaciens sp. nov., nom. Rev. Int. J. Syst. Bacteriol. 37, 69-71.

Radford, P. J. (1967). Growth analysis formulation – their use and abuse. Crop Sci. 7, 171-175.

Rahbé, Y. and Febvay, G. (1993). Influence of secondary compounds in the phloem sap of cassava on expression of antibiosis towards the mealybug Phenaccus manihoti. Entomol. Exp. Appl. 72, 47-57.

Rahbé, Y., Sauvion, N., Febvay, G., Peumans, W. J. and Gatehouse, A. M. R. (1995). Toxicity of lectins and processing of ingested proteins in the pea aphid Acyrthosiphon pisum. Entomol. Exp. Appl. 76, 143-155

Ramade, F. (1982). Eléments d’écologie. Ecologie appliquée. McGraw-Hill (Eds.), Paris.

Raskin, I. (1992). Role of salicylic acid in plants. Ann. Review of plant Physiology and Plant Molecular Biology 43, 439-463.

Raupach, G. S. and Kloepper, J. W. (1996). Biologische Bekämpfung von Cucumber Mosaic Cucumovirus (CMV) in Cucumis sativus L. durch PGPR- vermittelte induzierte systemische Resistenz. Mitt. a.d Biol. Bundesanstalt f. Land- und Forstwirtschaft. 321, 292.

Ray, J. (1901). Les maladies cryptogamiques des végétaux. Revue génerale de botanique 13, 145-151.

Retnakaran, A. and Beck, S. D. (1968). Amino acid requirements and sulfur amino .metabolism in pea aphid, Acyrtosiphon pisum (Harris). Comp. Biochem. Physiol. 24, 611-.619.

Roby, C. A., Martin, J. B., Bligny, R., Douce, R. (1987). Biological change during sucrose deprivation in higher plant cells. Phosphorus-31 nuclear magnetic resonance studies. J. Bio. Chem. 262, 5000-5007.

Ross, A. F. (1961). Systemic acquired resistance induced by localized virus infections in plants. Virology. 14, 340-358.

Rustamani, M. A., Kanehisa, K., Tsumuki, H. and Shiraga, T. (1992). Additional observations on aphid densities and gramine contents in barley lines. Appl. Entomol. Zool. 27, 151-153.

Roth, M. (1971). Fluorescence reaction for amino acids. Anal. Chem. 43, 880-882.

Ryan, C. A. (1978 ). Proteinase inhibitor in plant leaves: A biochemical model for pest induced natural plant protection. TIBS 3, 7, 148-150.

Ryan, C. A. (1990 ). Protease inhibitors in plants: genes for improving defenses against insects and pathogens. Annu. Rev. Phytopathol. 28, 425-449.

Ryals, J. A., Neuenschwander, U. H., Willits, M. G., Molina, A., Steiner, H. Y. and Hunt, M. D. (1996). Systemic acquired resistance. Plant Journal 8, 1809-1819.

Sandström. J. (1994). High variation in host adaptation among clones of the pea aphid, Acyrthosiphum pisum on peas, Pisum sativum. Entomol. Exp. Appl. 71, 245-256.

Sandström. J. and Pettersson, J. (1994). Amino acid composition of phloem sap and the relation to intraspecific variation in pea aphid (Acyrthosiphon pisum) performance. J. Insect Physiol. 40, 947-955.

Sandström. J., Telang, A., and Moran, N. A. (2000). Nutritional enhancement of host plants by aphids - a comparison of three aphid species on grasses. J. Insect Physiol. 46, 33-40.

Schaller, A., Ryan, C. A. (1995). Systemin, a polypeptide defense signal in plants. Bio Essays 18, 27-33.

Sembdner, G. and Parthier, B. (1993 ). The biochemistry and the physiological and molecular actions of jasmonates. Ann. Rev. Plant Physiol. Mol. Biol. 44, 569-589.

Shanks, C. H. Jr. and Chase, D. (1976). Electrical measurement of feeding by the strawberry aphid on susceptible and resistant strawberries and non – host plants. Ann. Entomol. Soc. Am. 69, 784.

Scheffer, R. J. (1983). Biological control of Dutch elm disease by Pseudomonas species. Ann. of Appl. Biol. 103, 21-26.

Schippers, G., Bakker, A. W. and Bakker, P. A. H. M. (1987). Interactions of deleterious and beneficial rhizospehere microorganisms and the effect on cropping practices. Ann. Rev. Phytopatol. 25, 339-358.

Schlegel, H. G. (1992). Allgemeine Mikrobiologie. Georg Thieme Verlag, Stuttgart.

Schlumbaum, A., Mauch, F., Voegli, U., and Boller, T. (1986 ). Plant chitinases are potent inhibitors of fungal growth. Nature 324, 365-367.

Schmiedeknecht, G. (1993). Biologische Bekämpfung von Rhizoctonia solani KÜHN an Kartoffeln durch mikrobielle Antagonisten. Arch. Phytopathol. Pflanzensch. 28, 311-320.

Schmiedeknecht, G., Bochow, H. and Junge, H. (1994). Biologische Bekämpfung bodenbürtiger Schaderreger bei Kartoffel. Mitt. a. d. Biol. Bundesanstalt f. Land- und Forstwirtschaft. 301, 371.

Schmiedeknecht, G., Junge, H. and Bochow, H. (1995). Biologische Bekämpfung bakterieller und pilzlicher Erkrankungen bei Kartoffeln. Mitt. der DPG, Phytomedizin 25, 32-33.

Schmiedeknecht, G., Bochow, H. and Junge, H. (1996). Biologischer Pflanzenschutz bei Kartoffeln. Mitt. a. d. Biol. Bundesanstalt f. Land- und Forstwirtschaft. 321, 467.

Schönbeck, F. and Kreutzer, W. A. (1971). Nullification of antagonism of phoma betae by Bacillus subtilis var. Nigerin soil and in a simulated rhizosphere. Phytopathology 61, 1447-1450.

Schönbeck, F., and Dehne, H. W. (1979). Untersuchungen zum Einfluß der Endotrophen Mykorrhiza auf Pflanzenkrankheiten. Z. PflKrankh. PflSchutz. 86, 103-112.

Schönbeck, F., Dehne, H. W. and Balder, H. (1982). Zur Wirksamkeit induzierter Resistenz .....unter praktischen Anbaubedingungen. I. Echter Mehltau an Reben, Gurken und Weizen. J. Plant Dis. Prot. 89, 177-184.

Schönbeck, F., Steiner, U., and Kraska, T. (1993). Induzierte Resistenz: Kriterien, Mechanismen, Anwendung und Bewertung. Z. PflKrankh. PflSchutz. 100, 541-557.

Schwarz, D. M. (1985). The fertile aphids: pests that begets with a vengeance. Smithsonian 16, 68-74.

Sinclair, J. B. (1989). Bacillus subtilis as a biocontrol agent for plant diseases. In: Agrihotri, V. P., Singh, N., Chaube, H. S., Sinh, U. S. and Dwivedi, T. S. (Eds.), Perspectives in Plant Pathology. Today and Tomorrow’s Printers and Publishers, New Delhi, 367-374.

Squeira, L. and Hill, L. M. (1974). Induced resistance in tobacco leaves. The growth of Pseudomonas solanacearum in protected tissue. Physiol. Plant Path. 4, 447-455.

Soraka, J. J. and Mackay, P. A. (1991). Antibiosis and antixenosis to pea aphid (Homoptera: Aphididae) in cultivars of field peas. J. Econ. Entomol. 84, 1951-1956.

Sotherton, N. W. and van Emden, H. F. (1982). Laboratory assessments of the aphids Sitobion avenae and Metopolophium dirhodum in three Triticum species and two modern wheat cultivars. Ann. Appl. Biol. 101, 99-107.

Srivastava P. N. and Auclair J. L. (1963). Characteristics and nature of proteases from the alimentary canal of the pea aphid, Acyrthosiphum pisum (Harris) (Homoptera, Aphididae). J. Insect Physiol. 9, 469-474.

Srivastava, P. N., Gao, Y., Levesque, J. and Auclair, J. L. (1984). Differences in amino acid requirements between two biotypes of the pea aphid, Acyrthosiphum pisum. Canadian J. of Zoology 63, 603-606.

Srivastava, P. N. (1987). Nutritional physiology. In: Minsk A. K. and Marrewijn P. (Eds.), Aphids Their Biology, Natural Enemies and Control. Elsevier Science Publishers B. V. Amsterdam, 99-129.

Staub, T., Ahl Goy, P. and Kessmann, H. (1992). Chemically induced disease resistance in plants. In: Lyer H. and Polter C. (Eds). Proceedings of the 10th International Symposium of Systemic Fungicides and Antifungal Compounds, pp. 239-249.

Steiner, U. (1990). Charakterisierung der biologisch aktiven Komponenten des Resistenz induzierenden Kulturfiltrates von Bacillus subtilis. Mitt. a. d. Biol. Bundesanstalt f. Land- und Forstwirtschaft. 266, 292.

Steiner, U. and Schönbeck, F. (1995). Induced resistance against biotrophic fungi. In: Lyr, H., Russel, P. E. and Sisler, H. D. (Eds.), Modern Fungicides and Antifungal Compounds, Intercept, Andover, 511-517.

Stout, M. J., Workman, K. V., Workman, J. S., and Duffey, S. S. (1996). Temporal and ontogenetic aspects of protein induction in foliage of the tomato, Lycopersicon esculentum. .Biochemical Ecology and Systematics 24, 611-625.

Stout, M. J., Workman, K. V., Bostock, R. M., Duffey, S. S. (1998 ). Specificity of induced resistance in tomato, Lycopersicon esculentum. Oecologia 113, 74-81.

Swinburne, T. R., Barr, J., G. and Brown, A. E. (1975). Production of antibiotics by Bacillus subtilis and their effect on fungal colonists of apple leaf scars. Trans. Br. Mycol. Soc. 65 (2), 211-217.

Tamas, L., Huttova, J. (1996 ). Accumulation of pathogenesis- related proteins in barley induced by phosphate and salicylic acid. Biol. Bratislava 51, 479-484.

Taylor, L. R. (1975). Longevity, fecundity and size: control of reproductive potential in polymorphic migrant, Aphis fabae Scop. J. Anim. Ecol. 44, 135-159.

Thieron, M., Reisener, H. J. and Scheinpflug, H. (1995). Systemic acquired resistance in rice: Regulation of host defense reactions. In: Lyr, H., Russel, P. E. and Sisler, H. D. (Eds), Modern Fungicides and Antifungal Compounds, Intercept, Andover, 493-502.

Thimann, K. V. (1964). Das Leben der Bakterien. Gustav Fischer Verlag, Jena, 875 pages.

Thonart, Ph., Heuze, V., Destain, J., Meurisse, E., Jacques, Ph., Hbid, C., Lepoivre, H., Razafindralambo, H. and Paquot, M. (1994). Bacillus subtilis as a biopesticide: biochemical and technological aspects. In: Alberghina, L., Frontali, L., Sensi, P. (Eds). ECB6, Proceedings of the 6th European Congress on Biotechnology.

Tran, P., Cheesbrough, T. M., and Keickhefer, R. W. (1997). Plant proteinase inhibitors are .potential anticereal aphid compounds. J. Econ. Entomol. 90, 1672-1677.

Tschen, J. S. M. and Kuo, W. L. (1985). Antibiotic inhibition and control of Rhizoctonia solani by Bacillus subtilis. Plant Prot. Bull. (Taiwan, R. O. C), 95-103.

Tsumuki, H., Kanehisa, K., Kawada, K. and Shiraga T. (1987). Character of barley resistance to cereal aphids. Nogaku Kenkyu 61, 149-159.

Turner, R. B. (1971). Dietary amino acid requirements of the cotton aphid, Aphis gossypii; the sulfur-containing amino acids. J. Insect Physiol. 17, 2451-2456.

Urwin, P. E., Atkinson, H. J., Waller, D. A. and McPherson, M. J. (1995). Engineered oryzacystatin-I expressed in transgenic hairy roots confers resistance to Globodera pallida, Plant J. 8, 121-131.

Utkhede, R. S. (1984). Antagonism of isolates of Bacillus subtilis to Phytophthora cactorum. Can. J. Bot. 62, 1032-1035.

Villich, M. V. and Weltzien, H. C. (1990 ). Resistenzinduktion in Gerste und Hafer durch Vorinokulation mit Apathogenen - ein befallsmindernder Mechanismus in gemischten Getreidebeständen. Z. Pflkrank. PflSchutz 97, 532.

Voisard, C., Keel, C., Haas, D. and Défago, G. (1989). Cyanide production by Pseudomonas fluorescens helps suppress black root rot of tobacco under gnotobiotic conditions. EMBO 8, 351-358.

Walker, J. E., Abraham, E. P. (1970). The structure of bacilysin and other products of Bacillus subtilis. Biochem. J. 118, 563-570.

Wang, T., Quisenberry, S. S., Sharon, S., Ni, X., and Tolmay, V. (2004). Aphid Resistance in Wheat Near-Isogenic Lines. Journal of Economic Entomology 97, 646-653.

Ward, E. R., Uknes, S., Williams, S. C., Dincher, S. S., Wiederhold, D. L., Alexander, D., Métraux, J. P., and Ryals, J. A. (1991 ). Coordinate gene activity in response to agents .that induce systemic acquired resistance. Plant Cell 3, 1085-1094.

Wei, G., Kloepper, J. W., Tuzun, S. (1991). Induction of systemic resistance of cucumber to Collectotrichum orbiculare by select strains of plants growth – promoting rhizobacteria. .Phytopathology 81 , 1508-1512.

Weibull, J. (1987). Seasonal changes in the free amino acids of oat and barley phloem sap in relation to plant growth stage and growth of Rhopalosiphum padi. Ann. Appl. Biol. 111, 729-737.

Weibull, J. H. W. (1988). Free amino acids in the phloem sap from oats and barley resistant to Rhopalosiphum padi. Phytochemistry 27, 2069-2072.

Weir, D. (1986). The bhopal syndrome. Pesticide manufacturing and the third world. IOCU, Penang, Malaysia.

Weismann, L. and Halanda S. (1968). Reaktion der schwarzen Bohnenblattlaus Aphis fabae Scop. auf qualitative Änderungen des Inhalts von Aminosäuren in den Vegetationsorganen des Spindelbaumes (Euonymus europaea L.) und der Saatpflanzen der Zuckerrübe, Biologia (Bratislawa) 23, 849-856.

Westhuisen, A. J., Qian, X. M., and Botha, A. M. (1997). Differential induction of apoplastic peroxidase and chitinase activities in susceptible and resistant wheat cultivars by Russian wheat aphid infestation. Plant Cell Reports 18, 132-137.

Wittmann, J. (1995). Möglichkeiten und Wirkungsweisen einer Toleranzinduktion gegen Schaderreger. Diss. Univ. Hannover, Fachbereich Gartenbau, 104 pages.

Wojciechowicz-Zytko, E. and van Emden, H. F. (1995). Are mean relative growth rate and intrinsic rate of increase likely to show a correlation in plant resistance studies? J. of Appl. Entomol. 119, 405-409.

Wolfson, J. L., Murdock, L. L., (1990). Diversity in digestive proteinase activity among insects. J. Chem. Ecol. 16, 1089-1102.

Wyatt, I. J. and White, P. F. (1977). Simple estimation of intrinsic rates of increase for aphids and tetranychid mites. J. of Appl. Ecol. 14, 757-766.

Xu, Y., Chang, P. F. L., Liu, D., Narasimhan, M. L., Raghothama, K. G., Hasegawa, P. M., and Bressan, R. A. (1994). Plant defense genes are synergistically induced by ethylene and methyl jasmonate. Plant Cell 6, 1077-1085.

Yao, V. A., and Bochow, H. (2002). Yield of potato after seed pre-treatment with Bacillus subtilis spore suspensions compared to the application of conventional fertilizers: Nitrogen, Phosphorus and Potassium fertilizers. Result obtained in Tajikistan (not yet published). GAA, Tajikistan.

Yao, V. A., and Bochow, H. (2003). Yield of cotton after seed pre-treatment with Bacillus subtilis spore suspensions compared to the application of conventional fertilizers: Nitrogen, Phosphorus and Potassium fertilizers. Result obtained in Tajikistan (not yet published). GAA, Tajikistan.

Zehnder, G., Kloepper, J., Tuzun, S., Yao, C., Wie, G., Chambliss, O. and Shelby, R. (1997). Insect feeding on cucumber mediated by rhizobacteria induced plant resistance.Entomol. Exp. Appl. 83, 81-85.

Zehnder, G., Murphy, J. F., Sikora, E. J. and Kloepper, J. (2001). Application of rhizobacteria for induced resistance. European Journal of Plant Pathology 107, 39-50.

Zhang, Z. P., Baldwin, T. I. (1997). Transport of [ 2-14C ] jasmonic acid from leaves to roots mimics wound induced-changes in endogenous jasmonic acid pools in Nicotiana sylvestris. Planta 203, 436-441.

Zimmermann, M. H. (1960). Transport in the phloem. Ann. Rev. Pl. Physiol. 11, 167-190.

Zugina, G. E., Varanda, E. M. and Corcuera, L. J. (1988). Effect of gramine on the feeding behaviour of the aphids Schizaphis graminum and Rhopalosiphum padi. Entomol. Exp. Appl. 47, 161-168.

Zweig, G. and Aspelin, A. L. (1985). Rôle des pesticides dans les pays en développement. In: Formulation des Pesticides dans les Pays en Développement. ONUDI, Vienne, 1-20.

© Die inhaltliche Zusammenstellung und Aufmachung dieser Publikation sowie die elektronische Verarbeitung sind urheberrechtlich geschützt. Jede Verwertung, die nicht ausdrücklich vom Urheberrechtsgesetz zugelassen ist, bedarf der vorherigen Zustimmung. Das gilt insbesondere für die Vervielfältigung, die Bearbeitung und Einspeicherung und Verarbeitung in elektronische Systeme.
DiML DTD Version 4.0Zertifizierter Dokumentenserver
der Humboldt-Universität zu Berlin
HTML generated: