Abstract
The use of intensive farming and mass monoculture resulted in the extensive use of chemical pesticides to control plant pests and diseases. The use of chemical pesticides, however, will become increasingly restricted due to concerns for the environment and health. The need for extensive toxicological and field testing prior to release of new chemicals and development of pest or pathogen resistance to some current pesticides may also contribute to a reduction in pesticide utilization. We are faced with the challenge of finding more effective, safer and economical ways to protect plants against pests to help feed an ever increasing world population. Utilization of plants’ own defense mechanisms by application of technologies to induce resistance may contribute toward a solution to this problem. Many theoretical and experimental aspects of induced systemic resistance (immunization) are described in detail in the previous chapters. Because there are few examples of field tests with induced resistance, the wide scale application of the phenomenon is not yet established. This chapter will discuss some of the approaches that can be utilized in progressing toward the practical application of induced systemic resistance.
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References
Albert, F. and Anderson, A.J. (1987) ’The effect of Pseudomonas putida colonization on root surface peroxidase’, Plant Physiology 85, 535–541.
Alström, S. (1991) ’Induction of disease resistance in common bean susceptible to halo blight bacterial pathogen after seed bacterization with rhizosphere pseudomonads’, Journal of General and Applied Microbiology 37, 495–501.
Amijee, F., Allan, E.J., Waterhouse, R.H., Glover, L.A., and Paton, A.M. (1992) ’Non-pathogenic association of L-form bacteria (Pseudomonas syringae pv. phaseolica) with bean plants (Phaseolus vulgaris) and its potential for biocontrol of halo blight disease’, Biocontrol Science and Technology 2, 203–214.
Anderson, A.J., Guerra, D. (1985) ’Responses of bean to root colonization with Pseudomonas putida in a hydroponic system’ Phytopathology 75, 992–995.
Arimoto, Y., Homma, Y., Yoshino, R. and Saito, S. (1991) ’Generational succession of DL-alanine dodecylester HCL-induced resisitance to blast disease in rice plants’, Annals Phytopathological Society of Japan 57, 522–525.
Bakker, P.A.H.M., van Peer, R., Schippers, B. (1991) ’Suppression of soil-borne plant pathogens by fluorescent pseudomonads: mechanisms and prospects’ in A.B.R. Beemster, G.J. Bollen, M. Gerlagh, M.A. Ruissen, B. Schippers, and A. Tempel, (eds.), Biotic Interactions and Soil-Borne Diseases, Elsevier, Amsterdam, The Netherlands, pp. 217–223.
Bergstrom, G.C., Johnson, M.C. and Kuć, J. (1982) ’Effects of local infection of cucumber by Colletotrichum lagenarium, Pseudomonas lachrymans and tobacco necrosis virus on systemic resistance to cucumber mosaic virus’, Phytopathology 72, 922–925.
Carling, D.E., Roncadori, R.W., and Hussey, R.S. (1989) ’Interactions of vesicularabuscular mycorrhizal fungi, root-knot nematode, and phosphorus fertilization in soybean’, Plant Disease 73, 730–733.
Caruso, F.L. and Kuć, J. (1977) ’Field protection of cucumber, watermelon, and muskmelon against Colletotrichum lagenarium by Colletotrichum lagenarium’, Phytopathology 67, 1290–1292.
Chappell, J. and Hahlbrock, K. (1984) ’Transcription of plant defence genes in response to UV light or fungal elicitor’, Nature 311, 76–78.
Chester, K.S. (1933) ’The problem of acquired physiological immunity in plants’, Quarterly Review of Biolology 8, 128–154, 275-324.
Cohen, R., Cuppels, D.A., Brammal, R.A. and Lazoravitts, G. (1991) ’Induction of resistance towards bacterial pathogens of tomato by exposure of the host to dinitroaniline herbicides’, Phytopathology 82, 110–114.
Cohen, Y., Gisi, U. and Mossinger, E. (1991). ’Systemic resistance of potato plants against Phytophthora infestans induced by unsaturated fatty acids’, Physiological and Molecular Plant Pathology 38, 255–263.
Cox, J.E., Fraser, L.R. and Broadbend, P. (1976) ’Stem pitting of grape fruit. Field protection by the use of mild strains: An evaluation of trials in two climatic districts’, in E. C. Calvan (ed.), Proc. 7th. Conf. Intern. Organ. Citrus. Virol., Gainesville, Univ. Florida Press, pp. 68–70.
Creasy, L.L. and Coffee, M. (1988) ’Phytoalexin production potential of grape berries’, Journal of the American Society for Horticultural Science 113, 230–234.
Cruickshank, I. A.M and Mandryk, M. (1960) ’The effect of stem infection of tobacco with Peronospora tabacina on foliage reaction to blue mold’, Journal of the Australian Institute of Agricultural Research 26, 369–372.
Dean, R.A. and Kuć, J. (1985) ’Induced systemic protection in plants’, Trends in Biotechnology 3, 125–129.
Dehne, H.W., Stenzel, K. and Schönbeck, F. (1984) ’The efficiency of induced resistance under practical culture conditions III. Reproduction of powdery mildew on induced resistant plants’, Journal of Plant Diseases and Protection 91, 258–265.
Doke, N. and Chai, H.B. (1985) ’Activation of superoxide generation and enhancement of resistance against compatible races of Phytophthora infestans in potato plants treated with digitonin’, Physiological Plant Pathology 27, 323–334.
Doke, N., Ramirez, A.V., and Tomiyama, K. (1987) ’Systemic induction of resistance in potato plants against Phytophthora infestans by local treatments with hyphal wall components of the fungus’, Journal of Phytopathology 119, 232–239.
Doubrava, N.S., Dean, R.A. and Kuć, J. (1988) ’Induction of systemic induced resistance to anthracnose caused by Colletotrichum lagenarium in cucumber by oxalate and extracts from spinach and rhubarb leaves’, Physiological and Molecular Plant Pathology 33, 69–79.
Falkhof, A.G., Dehne, H.W., and Schönbeck, F. (1988) ’Dependence of the effectiveness of induced resistance on environmental factors’, Journal of Phytopathology 123, 311–321.
Frommel, M.I., Nowak, J., and Lazarovits, G. (1991) ’Growth enhancement and developmental modifications of in vitro grown potato (Solanum tuberosum spp. tuberosum) as affected by a nonfluorescent Pseudomonas sp.’, Plant Physiology 96, 928–936.
Garcia-Garrido, J.M., and Ocampo, J.A. (1988) ’Interaction between Glomus mossae and Erwinia carotovora and its effects on the growth of tomato plants’, New Phytologist 110, 551–555.
Gessler, C. and Kuć, J. (1982) ’Induction of resistance to Fusarium wilt in cucumber by root and foliar pathogens’, Phytopathology 72, 1439–1441.
Giri, D.N. and Sinha, A.K. (1979) ’Effect of nontoxic chemical on brown spot disease in rice seedlings’ International Rice Research Newsletter 4, 10–11.
Gottstein, H.D. and Kuć, J. (1989) ’Induction of systemic resistance in cucumber by phosphates ’, Phytopathology 79, 176–179.
Gregersen, P.L., and Smedegaard, V. (1989) ’Induction of resistance in barley against Erisiphe graminis f. sp. hordei after preinoculation with saprophytic fungus, Cladosporium macrocarpum’, Journal of Phytopathology 124, 128–136.
Guedes, M.E., Richmond, S. and Kuć, J. (1980) ’Induced systemic resistance to anthracnose in cucumber as influenced by the location of the inducer inoculation with Colletotrichum lagenarium and onset of flowering and fruiting’, Physiological Plant Pathology 17, 229–233.
Hadwiger, L.A. and Scwochau, M.E. (1971) ‘Ultraviolet light-induced formation of pisatin and phenylalanine ammonia lyase’, Plant Physiology 47, 588–590.
Halasz, E. (1965) ’The possibility of preimmunity in maize smut (Ustilago maydis)’, Acta Agronomica 14, 27–35.
Hynes, R.K., and Lazarovits, G. (1989) ’Effect of seed treatment with plant growth promoting rhizobacteria on the protein profiles of intercellular fluids from bean and tomato leaves’, Canadian Journal of Plant Pathology 11, 191.
Jenns, A. and Kuć, J. (1979) ’Graft transmission of systemic resistance of cucumber to anthracnose induced by Colletotrichum lagenarium and tobacco necrosis virus’, Phytopathology 69, 753–756.
Jetiyonan, K., Backman, P.A. and Tuzun, S. (1993) ‘Use of polysilicone surfactant for delivery of resistance-inducing strains of Xanthomonas campestris pvs. for control of black rot in cabbage’, Proceedings 6th. International Congress of Plant Pathology, p 65.
Kapulnik, Y. (1991) ’Plant growth-promoting rhizobacteria’, in Y. Waisel, A. Eshel, and U. Kafkafi, (eds.), Plant Roots: The Hidden Half, Marcel Dekker, Inc., New York, NY, pp. 717–729.
Karban, R. (1987) ’Environmental conditions affecting the strength of induced resistance to mites in cotton’, Oecologia 73, 414–419.
Kloepper, J.W. (1991) ’Plant growth-promoting rhizobacteria as biological control agents of soilborne diseases’, in J. Bay-Petersen, (ed.), Biological Control of Plant Diseases. FFTC Book Series No. 42. Food and Fertilizer Technology Center, Taipei, Taiwan pp. 142–156.
Kloepper, J.W. (1993) ’Plant growth-promoting rhizobacteria as biological control agents’, in B. Metting, (ed.), Soil Microbial Technologies, Marcel Dekker, Inc., New York, NY, pp. 255–274.
Kloepper, J.W., Tuzun, S., Liu, L. and Wei, G. (1993)’ Plant growth-promoting rhizobacteria as inducers of sytemic disease resistance’, in R.D. Lumsden and J.L. Waughn (eds.), Pest Management: Biologically Based Technologies’, ACS Conference Proceedings Series, American Chemical Soc. Press. pp. 156-165.
Kopp, M., Rouster, J., Fritig, B., Darvill, A. and Albersheim, P. (1989) ’Host-pathogen interactions XXXII. A fungal glucan preparation protects Nicotianae against infection by viruses’, Plant Physiology 90, 208–216.
Kroon, B.A.M., Scheffer, R.J. and Elgersma, D.M. (1991) ’Induced resistance in tomato plants against fusarium wilt invoked by Fusarium oxysporum f.sp. dianthi’, Netherlands Journal of Plant Pathology 97, 401–408.
Kuć, J. (1983) ’Induced systemic resistance in plants to diseases caused by fungi and bacteria’, in J.A. Bailey and B.J. Deveral (eds.), The Dynamics of Host Defense, Academic Press, Sydney, pp. 191–221.
Kuć, J. (1985) ’Expression of latent genetic information for disease resistance in plants’, in J.L. Key and T. Kosuge (eds.), Cellular and Molecular Biology of Plant Stress, Alan R. Liss, NY, pp. 303–318.
Kuć, J. (1987a) ’Plant immunization and its applicability for disease control’, in I. Chet, (ed.), Innovative Approaches to Plant Disease Control, John Wiley, NY, pp. 255–274.
Kuć, J. (1987b) ’Translocated signals for plant immunization’, Annals of the New York Academy of Sciences 494, 213–223.
Liu, L., Kloepper, J. W., and Tuzun, S. (1992) ’Induction of systemic resistance against cucumber mosaic virus by seed inoculation with select rhizobacteria strains’, Phytopathology 82, 1108.
Liu, L., Kloepper, J.W. and Tuzun, S. (1993a) ’Induction of systemic resistance against cucumber bacterial angular leaf spot caused by Pseudomonas syringae pv. lachrymans with two plant-growth promoting rhizobacteria’, Phytopathology 83, 1340.
Liu, L., Kloepper, J.W. and Tuzun, S. (1993b)’ Induction of systemic resistance to Fusarium oxysporum by PGPR strains’, Proceedings of the 6th International Congress of Plant Pathology, p. 214.
Maiss, E. (1987) ’Use of resistance induction through culture filtrates of Stachybotrys chartarum (Ehrenb. ex Link) Hughes and Bacillus subtilis (Ehrenburg) Cohn against virus diseases under commercial conditions of crop production’, Archiv für Phytopathologie und Pflanzenschutz 4, 275–283.
Martyn, R.D., Biles, C.L. and Dillard, E.A. (1991) ’Induced resistance to Fusarium wilt of watermelon under simulated field conditions’, Plant Disease 75, 874–877.
Meera, M.S., Shivanna, M.B., Kageyama, K., and Hyakumachi, M. (1993) ‘Induction of systemic resistance in cucumber plants using turfgrass rhizosphere fungi’, Annals of the Phytopathological Society of Japan 59, 279.
Metlitskii, L.V., Ozeretskovskaya, O.L., Dorozhkin, N.A., Ivanyuk, V.G., Chalova, L.I., Yurganova, L.A. and Baraidze, V.G. (1978) ’Induction of resistance to parasitic fungi in potatoes’, Applied Biochemistry and Microbiology 14, 208–215.
Métraux, J.P., Goy, P.A., Staub, T., Speich, J., Steinman, A., Ryals, J. and Ward, E. (1991) ’Induced sytemic resistance in cucumber in response to 2,6-dichloro-isonicotinic acid and pathogens’, in H. Hennecke, D.P.S. Verma (Eds), Advances in Molecular Genetics of Plant-Microbe Interactions Vol 1, Klüver Academic Publishers, Netherlands, pp. 432–439.
Molot, P.M. and Mas, P. (1985) ’Resistance induction on pepper and tomato after dip** roots into water-soluble elicitor’, Journal of Phytopathology 112, 315–321.
Mucharromah, E. and Kuć, J. (1989) ’Oxalic acid, K2HPO4 and K3HPO4 as inducers of systemic resistance against diseases caused by fungi, bacteria and viruses in cucumber’, Phytopathology 79, 1144.
Oerke, E.C., Steiner, U. and Schönbeck, F. (1989) ’The efficiency of induced resistance under practical culture conditions V. Powdery mildew and grain yield of winter and spring barley in relation to nitrogen fertilization’, Zeitschrift für Pflanzenkrankheiten and Pflanzenschutz 96, 140–153.
Okuno, T., Nakayama, M., Okajima, N. and Furasawa, I. (1991) ’Systemic resistance to downy mildew and appearance of acid soluble proteins in cucumber leaves treated with biotic and abiotic inducers’, Annals of the Phytopathological Society of Japan 57, 203–211.
Ozeretskovskaya, O.L., Chaleva, L.I., Avduishko, S.A, Chalenko, G.I. and Karavaeva, K.A. (1988) ’Eicosanoids as inducers of enhanced resistance of potato to late blight’, Soviet Plant Physiology 35, 141–148.
Pont, W. (1959) ’Blue mold (Peronospora tabacina Adam) of tobacco in north Queensland. Some aspects of chemical control’, Queensland Journal of Agricultural Science 16, 299–327.
Pospieszny, H., Chirkov, S. and Atabekov, J. (1991). ’Induction of antiviral resistance in plants by chitosan’, Plant Science 79, 63–68.
Prusky, D., Plumbley, R.A. and Kobiler, I. (1991)’ Induction of resistance of avacado fruits to Colletotrichum gloeosporioides attack using CO2 treatment’, in C.L. Wilson and E. Chalutz Eds., Biologiical Control of Postharvest Diseases of Fruits and Vegetables, Workshop Proceedings, USDA/ARS 92, pp 243-255.
Rast, A.T.B. (1975) ’Variability of tobacco mosaic virus in relation to control of tobacco mosaic in glasshouse tomato crops by resistant breeding and cross protection’, Agric. Res. Report 834, Institute of Phytopathologic Research, Wageningen, the Netherlands.
Reiss, E., Schubert, J. and Naumann, K. (1988) ’Determination of microbial resistance inducers and their preliminary charecterization’, Archiv für Phytopathologie und Pflanzenschutz 24, 335–340.
Reilly, J.J. and Klarman, W.L. (1980) ’Thymine dimer and glyceollin accumulation in UV-irradiated soybean suspension cultures’, Environmental and Experimental Botany 20, 131–134.
Rosendahl. S. (1985) ’Interactions between vesicular-arbuscular mycorrhizal fungus Glomus fasciculatum and Aphonomyces euteiche root rot of peas’, Phytopathologische Zeitschrift 114, 31–40.
Roveratti, D.S., Teixeira, A.R.R. and Morai, W.B.C. (1989) ’Bacillus thuringiensis-A new perspective for an induced protection to coffee leaf rust’, Journal of Phytopathology 126, 149–159.
Salt, S.D., Tuzun, S. and Kuć, J. (1986) ’Effects of beta-ionone and abscisic acid on the growth of tobacco and resistance to blue mold. Mimicry of effects of stem infection by Peronospora tabacina Adam’, Physiological and Molecular Plant Pathology 28, 287–297.
Scheffer, R.J. (1983) ’Biological control of Dutch elm disease by Pseudomonas species’, Annals of Applied Biology 103, 21–30.
Schmidt, D. (1988) ’Prevention of bacterial wilt of grasses by phylloplane bacteria’, Journal of Phytopathology 122, 253–260.
Schönbeck, F., Dehne, H.W. and Beicht, W. (1980) ’Activation of unspecific resistance mechanisms in plants’, Journal of Plant Diseases and Protection 87, 654–666.
Schroth, M.N., and Becker, J.O. (1990) ’Concepts of ecological and physiological activities rhizobacteria related to biological control and plant growth promotion’, In D. Hornby, (ed.), Biological Control of Soil-Borne Plant Pathogens, CAB International, Wallingford, Oxon, U.K., pp. 389–414.
Seguchi, K., Kurotaki, M., Sediko, S. and Yamaguchi, I. (1992) ’Action mechanism of N-cyanomethyl-2-chloroisonicotinamide in controlling rice blast disease’, Journal of Pesticide Science 17, 107–113.
Singh, U.P., Ram, D. and Tewari, V.P. (1990) ’Induction of resistance in chickpea (Cicer arietianum) by Aegle marmelos leaves against Sclerotinia sclerotiorum’, Zeitschrift für Pflanzenkrankheiten Pflanzenschutz 97, 439–443.
Sneh, B., Ichielevich-Auster, M. and Plaut, Z. (1989) ’Mechanism of seedling protection induced by hypo virulent isolate of Rhizoctonia solani’, Canadian Journal of Botany 67, 2135–2141.
Steiner, U., Oerke, E.C., and Schönbeck, F. (1988) ’The efficiency of induced resistance under practical culture conditions IV. Powdery mildew grain yield of winter barley cultivars with induced resistance and fungicide treatment’, Journal of Plant Diseases and Protection 95, 506–517.
Stevens, C., Lu, J.Y., Khan, V.A., Wilson, C.L., Chalutz, E. and Droby, S. (1991)’ Ultraviolet light induced resistance against postharvest diseases in vegetables and fruits’, in C.L. Wilson and E. Chaultz, Eds. Biological Control of Postharvest Diseases Fruits and Vegetables, Workshop Proceedings, USDA/ARS 92, pp 268-290.
Trivedi, N. and Sinha, A.K. (1976) ’Resistance induced in rice plants against Helminthosporium infection by treatment with various fungal fluids’, Journal of Phytopathology 86, 335–344.
Tuzun, S., Juarez, J., Nesmith, W.C. and Kuć, J. (1992) ’Induction of sytemic resistance in tobacco against metalaxyl-tolerant strains of Peronospora tabacina and the natural occurrence of the phenomenon in Mexico’, Phytopathology 82, 425–429.
Tuzun, S. and Kloepper, J.W. 1994. ’Induced systemic resistance by plant growth-promoting rhizobacteria’, in M.H. Ryder, P.M. Stephens and G.D. Bowen (eds.), Improving Plant Productivity with Rhizosphere Bacteria, Proc. 3rd. International Workshop on Plant Growth-Promoting Rhizobacteria, CSIRO, Australia, pp. 104–109.
Tuzun, S. and Kuć, J. (1985a) ’A modified technique for inducing systemic resistance to blue mold and increasing growth of tobacco’, Phytopathology 75, 1127–1129.
Tuzun, S. and Kuć, J. (1985b) ’Movement of a factor in tobacco infected with Peronospora tabacina Adam which systemically protects against blue mold’, Physiological Plant Patholology 26, 321–330.
Tuzun, S. and Kuć, J. (1987) ’Persistence of induced systemic resistance to blue mold in tobacco plants derived via tissue culture’, Phytopathology 77, 1032–1035.
Tuzun, S. and Kuć, J. (1989)’ Induced systemic resistance to blue mold’, in W.E. McKeen (ed.), Blue Mold of Tobacco, American Phytopathological Society Press, pp. 177-200.
Tuzun, S. and Kuć, J. (1991)’ Plant immunization: An alternative to pesticides for control of plant diseases in the greenhouse and field’, in J.-Bay-Petersen (ed.), Biological Control of Plant Diseases, FFTC Book Series No. 42, Taiwan, pp. 30-40.
Tuzun, S., Nesmith, W., Ferriss, R.S. and Kuć, J. (1986) ’Effects of stem injections with Peronospora tabacina on growth of tobacco and protection against blue mold in the field’, Phytopathology 76, 938–941.
van Asch, M.A.J., Rijkenberg, F.H.J., and Coutinho T.A. (1992) ’Resistance induced in wheat by an avirulent race of Puccinia recondita f. sp. tritici’, Plant Disease 76, 412–415.
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’, Phytopatholology 81, 728–734.
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’, The EMBO Journal 8, 351–358.
Walters, D.R. and Murray, D.C. (1992) Induction of sytemic resistance to rust in Vicia faba by phosphate and EDTA: effects on calcium’, Plant Pathology 41, 444–448.
Wei, G. (1993)’ Investigations on induced sytemic resistance with plant growth-promoting rhizobacteria’, Ph.D. Dissertation, submitted to Auburn University Graduate School, 134 pp.
Wei, G., Kloepper, J.W. and Tuzun, S. (1991) ’Induction of systemic resistance of cucumber to Colletotrichum orbiculare by select strains of plant growth-promoting rhizobacteria. Phytopatholology 81, 1508–1512.
Wei, G., Tuzun, S. and Kloepper, J.W. (1992) ’Comparison of biochemical responses in cucumber systemically protected against Colletotrichum orbiculare by select strains of plant growth-promoting rhizobacteria’, Phytopathology 82, 1109.
Weltzien, H.C. (1989) ’Some effects of composted organic materials on plant health’, Agriculture, Ecosystems and Environment 27, 439–446.
Wilson, C.L. ans Wisnievski, M.E. (1989) ’Biological control of postharvest diseases of fruits and vegetables: an emerging technology’, Annual Review of Phytopathology 27, 425–441.
Yamada, T., Hiramoto, T., Tobimatsu, R., Shiraishi, T. and Oku, H. (1990) ’Elicitor-like substances present in barley and wheat seeds’, Journal of Phytopathology 128, 89–98.
Ye, X.S., Pan, S.Q. and Kuć, J. (1989) ’Pathogenesis-related proteins and systemic resistance to blue mold and tobacco mosaic virus induced by tobacco mosaic virus, Peronospora tabacina and asprin’, Physiological and Molecular Plant Pathology 35, 161–175.
Yokoyama, K., Aist, J.R. and Bayles, C.J. (1991) ’A paplilla-regulating extract that induced resistance to barley powdery mildew’, Physiological and Molecular Plant Pathology 39, 71–78.
Zdor, R.E. and Anderson, A.J. (1992) ’Influence of root colonizing bacteria on defense responses of bean’, Plant and Soil 140, 99–107.
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Tuzun, S., Kloepper, J. (1995). Practical Application and Implementation of Induced Resistance. In: Hammerschmidt, R., Kuć, J. (eds) Induced Resistance to Disease in Plants. Developments in Plant Pathology, vol 4. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-8420-3_7
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