Bakterie jako czynniki biologicznej ochrony roslin przed chorobami

• Autorzy: Sobiczewski P
• Języki publikacji: PL

Słowa kluczowe

PL

odpornosc na choroby; biologiczne metody ochrony roslin; odpornosc roslin; inzynieria genetyczna; mechanizm dzialania; stymulacja; zwalczanie chorob roslin; antybioza; ochrona roslin; pasozytnictwo; wzrost roslin; konkurencja; bakterie

• Wydawca: -
• Czasopismo: Postępy Nauk Rolniczych
• Rocznik: 1994
• Tom: 41
• Numer: 6
• Opis fizyczny: s.19-33,bibliogr.

Twórcy

autor

Sobiczewski P

• Instytut Sadownictwa i Kwiaciarstwa, Skierniewice

Bibliografia

• [1] Adams P.B. 1990. The potential of mycoparasites for biological control of plant diseases. Ann. Rev. Phytopath. 28: 59-72.
• [2] Agrios G.N. 1988. Plant Pathology. Academic Press Inc.: 97-115.
• [3] Anderson AJ., Guerra D. 1985. Responses of bean to root colonization with Pseudomonas putida in a hydroponic system. Phytopath. 75: 992-995.
• [4] Baker, R. 1985. Biological control of plant pathogens: definitions. W: Biological control in agricultural IPM systems ed. M.A. Hoy, D.C. Herzog: 25-39. Orlando: Academic.
• [5] Baker C.J., Stavely J.R., Thomas C.A., Sasser M., MacFall J. 1983. Inhibitory effect of Bacillus subtilis on Uromyces phaseoli and development of rust pustules on bean leaves. Phytopath. 73: 1148-1152.
• [6] Bakker P.A.H.M., Bakker A.W., Marugg J.D., Weisbeek P J., Schippers B. 1987. Bioassay for studying the role of siderophores in potato growth stimulation by Pseudomonas spp. in short potato rotations. Soil Biol. Biochem. 19: 443-449.
• [7] Beer S.V., Rundle J.R., Wodziński R.S. 1984. Interaction between Erwinia amylovora and Erwinia herbicola in vitro, in immature pear fruits and apple blossoms. Acta Hort. 151: 203-204.
• [8] Blakeman J.P., N.J. Fokkema. 1982. Potential for biological control of plant diseases on the phylloplane.Ann. Rev. Phytopath. 20: 167-192.
• [9] Caesar A.J., Burr T.J. 1987. Growth promotion of apple seedlings and rootstocks by specific strains of bacteria. Phytopath. 77: 1583-1588.
• [10] Cook R.J., Weller D.M. 1987. Management of take-all in consecutive crops of wheat or barley. W: Innovative Approaches to Plant Disease Control. New York, Wiley: 41-76.
• [11] Defago G., Berling C.H., Burger U., Haas D., Kahr G., Keel C., Voisard C., Wirthner P., Wurthrich B. 1990. Suppression of black root rot of tobacco and other rot diseases by strains of Pseudomonas fluorescens: potential applications and mechanisms. W: Biological control of soil-borne pathogens. D. Hornby, ed. CAB International, Wallingford, UK: 93-108.
• [12] Elad Y., Chet I. 1987. Possible role of competition for nutrients in biocontrol of Pythium damping-off by bacteria. Phytopath. 77: 190-195.
• [13] Ellis J.G., Kerr A., Van Montagu M., Schell J. 1979. Agrobacterium: genetic studies on agrocin 84 production and the biological control of crown gall. Physiol. Plant Path. 15: 311-319.
• [14] Fravel D.R. 1988. Role of antibiosis in the biocontrol of plant diseases. Ann. Rev. Phytopath. 26: 75-91.
• [15] Goodman R.N., Kiraly Z., Wood K.R. 1986. Resistance to infection. W: The biochemistry and physiology of plant disease. University of Missouri Press, Columbia, USA: 347-415.
• [16] Hain R., Bieseler B., Kindl H., Schroder G., Stocker R. 1990. Expression of a stilbene synthase gene in Nictotiana tabacum results in synthesis of phytoalexin resveratrol. Plant Mol. Biol. 15: 325-335.
• [17] Hadar Y., Harman G.E., Taylor A.G. and Norton J.M. 1983. Effects of pregermination of pea and cucumber seeds and seed treatment with Enterobacter cloacae on ruts caused by Pythium spp. Phytopath. 73: 1322-1325.
• [18] Hammer P.E., Evensen K.B., Janisiewicz W.J. 1993. Postharvest control of Botrytis cinerea on cut rose flowers with pyrrolnitrin. Plant Dis. 77: 283-286.
• [19] Hemming B.C. 1990. Bacteria as antagonists in biological control of plant pathogens. W: New directions in biological control: alternatives for suppressing agricultural pests and diseases. Alan R. Liss Inc.: 223-242.
• [20] Hevesi M., Mashaal S.F. 1975. Contributions to the mechanism of infection of Erwinia uredovora, a parasite of rust fungi. Acta Phytopathol. Acad. Sci. Hung. 10: 275-280.
• [21] Howell C.R., Stipanovic R.D. 1979. Control of Rhizoctonia solani on cotton seedlings with Pseudomonas fluorescens and with an antibiotic produced by bacterium. Phytopath. 69: 480-482.
• [22] Howell C.R., Stipanovic R.D.1980. Suppression of Pythium ultimum induced damping-off of cotton seedlings by Pseudomonas fluorescens and its antibiotic, pyoluteorin. Phytopath. 10: 712-715.
• [23] Howie W.J., Suslow T.V. 1991. Role of antibiotic biosynthesis in the inhibition of Pythium ultimum in the cotton spermosphere and rhizosphere. Mol. Plant Microbe Interaction 4: 393-399.
• [24] Hsieh S.P.Y., Buddehagen I.W. 1974. Suppressing effects of Erwinia herbicola on infection by Xanthomonas oryzae and on symptom development in rice. Phytopath. 64: 1182-1185.
• [25] Jacobsen B.J., Backman P.A. 1993. Biological and cultural plant disease controls: alternatives and supplements to chemicals in IPM sytems. Plant Dis. 77: 311-315.
• [26] James D.W.Jr., Gutterson N.I. 1986. Multiple antibiotics produced by Pseudomonas fluorescens Hv37a and their differential regulation by glucose. Appl. Environ. Microbiol. 52: 1183-1189.
• [27] Janisiewicz W J., Roitman J.N. 1988. Biological control of blue-mold and gray-mold on apple and pear with Pseudomonas cepacia. Phytopath. 78: 1697-1700.
• [28] Janisiewicz W. 1991. Biological control of postharvest fruit diseases. W: Handbook of Applied Mycology. vol. 1: Soil and Plants. Mercel Dekker Inc., New York, Basel, Hong Kong.12: 301-326.
• [29] Jenkins P.T. 1968. A method to determine the frequency of airborne bacteria antagonisitic to Sclerotinia fructicola. Aust. J. Exp. Agric. Anim. Husb. 8: 434-435.
• [30] Keen N.T. 1992. The molecular biology of disease resistance. Plant Mol. Biol. 19: 109-122.
• [31] Keen N.T., Buzzell R.I. 1991. New disease resistance genes in soybean against Pseudomonas syringae pv. glycinea: evidence that one of them interacts with a bacterial elicitor. Theor. Appl. Genet. 81: 133-138.
• [32] Kempe J., Sequeira L. 1983. Biological control of bacterial wilt of potatoes: attempts to induce resistance by treating tubers with bacteria. Plant Dis. 67: 499-503.
• [33] Kerr A., Tate M.E. 1984. Agrocins and the biological control of crown gall. Microbiol. Sciences 1(1): 1-4.
• [34] Kloepper J.W., Leong J., Teintze M., Schroth M.N. 1980. Pseudomonas siderophores: a mechanism explaining disease-suppressive soils. Current Microbiol. 4: 317-320.
• [35] Kloepper J.W., Schroth M.N. 1981. Relationship of in vitro antibiosis of plant growth-promoting rhizobacteria to plant growth and the displacement of root microflora. Phytopath. 71: 1020-1024.
• [36] Kloepper J.W. 1983. Effect of seed piece inoculation with plant growth-promoting rhizobacteria on populations of Erwinia carotovora on potato roots and daughter tubers. Phytopath. 73: 217-219.
• [37] Kloepper J.W., Schroth M.N., Miller T.D. 1980. Effects of rhizosphere colonization by plant growth-promoting rhizobacteria on potato plant development and yield. Phytopath. 10: 1078-1082.
• [38] Kloepper J.W. 1991. Plant growth-promoting rhizobacteria as biological control agents of soilborne diseases. W: The biological control of plant disease. Food and Fertilizer Center for the Asian and Pacific Region, Taipei, Taiwan: 142-152.
• [39] Levine M.N., Bamberg R.H., Atkinson R.E. 1936. Microorganisms antibiotic or pathogenic to cereal rusts. Phytopath. 26: 99-100.
• [40] Lindow S. 1993. Integrated control of frost injury, fire blight, and fruit russet of pear with a blossom application of an antagonistic bacterium. Acta Hort. 338: 349.
• [41] Lindow S., Wilson M. 1993. Population dynamics of Pseudomonas fluorescens strain A506 in pear flowers following inoculation in relation to strategies of biological control of fire blight and frost injury. Acta Hort. 338: 331-332.
• [42] Loeffler W., Tschen J.S.-M., Vanittanakom N., Kugler M., Knorpp E., Hsieh T-F., Wu T.-G„ 1986. Antifungal effects of bacilysin and fengymycin from Bacillus subtilis F-29-3, a comparison with activities of other Bacillus antibiotics. J. Phytopath. 115: 204-213.
• [43] Loper J.E. 1988. Role of fluorescent siderophore production in biological control of Pythium ultimum by Pseudomonas fluorescens strain. Phytopath. 78: 166-172.
• [44] Lopez M.M., Miro M., Gorris M.T., Sakedo C.I., Temprano F., Orive R.J. 1983. Comparative efficiency of inoculation treatments with Agrobacterium radiobacter pv. radiobacter K84 against sensitive and resistant agrocin 84 strains of Agrobacterium radiobacter pv. tumefaciens. Proc. Int. Workshop on Crown Gall, Agrobacterium tumefaciens, Wadenswil, Switzerland: 43-58.
• [45] MacKeen C.D., Reilly C.C., Pusey P.L. 1986. Production and partial characterization of antifungal substances antagonistic to Monilinia fructicola from Bacillus subtilis. Phytopath. 76: 136-139.
• [46] Maiss E. 1987. Einsatz einer Resistenzinduction durch Kulturfiltrate von Stachybotrys chartarum (Ehrenb. ex Link) Hughes und Bacillus subtilis (Ehrenberg) Cohn gegen Virosen unter praxisublichen Anbaubedingungen. Archiv Phytopatlwl. Pflanzenschutz Berlin 23(4): 275-283.
• [47] McLaughlin R., Sequeira L., Wiengartner D.P. 1985. Potato seedpiece treatment with an avirulent variant of Pseudomonas solanacearum reduces incidence of bacterial will and brown rot. Phytopath. 75: 1178.
• [48] Merriman P.R., Proce R.D., KollmorgenJ.F., Piggott T., Ridge E.H. 1974. Effect of seed inoculation with Bacillus subtilis and Streptomyces griseus on the growth of cereals and carrots. Aust. J. Agric. Res. 25: 219-226.
• [49] Morgan F.L. 1963. Infection inhibition and germ-tube lysis of three cereal rusts by Bacillus pumilis. Phytopath. 53: 1346-1348.
• [50] Myers D., Strobel G.A. 1983. Pseudomonas syringae as microbial antagonist of Ceratocystis ulmi in the apoplast of American elm. Trans. Br. Mycol. Soc. 80(3): 389-394.
• [51] Norelli J., AldwinckJe H. 1993. Orchard evaluation of chemical and biological spray materials to control fire blight. Acta Hort. 338: 363-368.
• [52] Norelli J., Aldwinckle H., Beitran L.D., Jaynes J. 1993. Increasing the fire blight resistance of apple by transformation with genes encoding antibacterial proteins. Acta Hort. 338: 385-386.
• [53] Orlikowska T. 1994. Transformacja roślin przy pomocy wektorów Agrobacterium tumefaciens. Biotechnologia 1 (24): 32-43.
• [54] Peer van R., Niemann G.J., Schippers B. 1991. Induced resistance and phytoalexin accumulation in biological control of Fusarium wilt of camation by Pseudomonas sp. strain WCS417r. Phytopath. 81: 728-734.
• [55] Pietr S.J. 1987. Antagonistyczne działanie saprofitycznych bakterii z rodzajów Bacillus i Pseudomonas na fitopatogeniczne grzyby z rodzaju Fusarium. Rozprawa habilitacyjna, Wyd. Akad. Rol. Wrocław: 1-55.
• [56] Pon D.S., Towsend C.E., Wessman G.E., Schmitt C.G., Kingsolver C.H. 1954. A Xanthomonas parasitic on uredia of cereal rusts. Phytopath. 44: 707-710.
• [57] Pusey P.L. 1989. Use of Bacillus subtilis and related organisms as biofungicides. Pestic. Sci. 27: 133-140.
• [58] Riggle J.H., Klos E.J. 1972. Relationship of Erwinia herbicola to E. amylovora. Can. J. Bot. 50: 1077-1083.
• [59] Roitman J.N., Mahoney N.E., Janisiewicz W.J., Benson M. 1990. A new chlorinated phenylpyrrole antibiotic produced by antifungal bacterium Pseudomonas cepacia. J. Agric. Food Chem.: 538-541.
• [60] Roitman J.N., Mahoney N.E., Janisiewicz W J. 1990. Production and composition of phenylpyrrole metabolites produced by Pseudomonas cepacia. Appl. Microbiol. Biotechnol. 34: 381-386.
• [61] Ryder M.H., Jones D.A. 1991. Biological control of crown gall using Agrobacterium strains K84 and K1026. Aust. J. Plant Physiol. 18: 571-579.
• [62] Saniewska A., Orlikowski L.B., Sobiczewski P. 1994. Effectiveness of Bacillus sp. in the control of Phytophtora cryptogea Pethybr. et Lass. 3 Konferencja EFPP, Poznań 5-9.09.1994. Streszczenia referatów 61.
• [63] Scheffer R.J. 1983. Biological control of Dutch elm disease by Pseudomonas species. Ann. Appl. Biol. 103: 21-30.
• [64] Scher F.M., Baker R. 1982. Effect of Pseudomonas putida and a synthetic iron chelatoron induction of soil suppressiveness to Fusarium wilt pathogens. Phytopath. 72: 1567-1573.
• [65] Scherff R.H. 1973. Control of bacterial blight of soybean by Bdellovibrio bacteriovorus. Phytopath. 63: 400-402.
• [66] Schroth M.N., Hancock J.G. 1982. Disease suppressive soil and root colonizing bacteria. Science 216: 1376-1381.
• [67] Schroth M.N., Weinhold A.R. 1986. Root-colonizing bacteria and plant health. HortScience 21(6): 1295-1298.
• [68] Sequeira L. 1987. Biological control of plant pathogens: present status and future prospects. Ex.V. Delucchi (ed.) - Protection integree: quo vadis? - "Parasitis 86": 217-235.
• [69] Smith J., Hammerschmidt R., Fulbright D.W. 1991. Rapid induction of systemic resistance in cucumber by Pseudomonas syringae pv. syringae. Physiol. Molec. Plant Pathology 38: 223-235.
• [70] Sobiczewski P. 1987. Antagonistic bacteria in relation to Pseudomonas syringae pv. syringae occurring in necroses and cankers of sour cherry trees. Fruit Sci. Rep. 14(4): 179-185.
• [71] Sobiczewski P., Karczewski J., Berczyński S. 1991. Biological control of crown gall (Agrobacterium turnefaciens) in Poland. Fruit Sci. Rep. 18(3): 125-132.
• [72] Swinburne T.R., Barr J.G., 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: 211-217.
• [73] Stutz E. W., Defago G., Kern H. 1986. Naturally occurring fluorescent pseudomonads involved in suppression of black root rot of tobacco. Phytopath. 76: 181-185.
• [74] Suslow T.V. 1982. Role of root colonizing bacteria in plant growth. W: Phytopathogenic Prokaryotes, ed. M.S. Mount, G.H. Lacy: 187-223, London, Academic Press.
• [75] Thomashow L.S., Weller D.M. 1988. Role of phenasine antibiotic from Pseudomonas fluorescens in biological control of Gaeumannomyces gramins var. tritici. J. Bacteriol. 170: 3499-3508.
• [76] Wei G., Kloepper J.W., Tuzun S. 1991. Induction of systemic resistance of cucumber to Colletotrichum orbiculare by select strains of plant growth-promoting rhizobacteria. Phytopath. 81: 1508-1512.
• [77] Weller D.M. 1988. Biological control of soilborne plant pathogens in the rhizosphere with bacteria. Ann. Rev. Phytopath. 26: 379-407.
• [78] Weller D.M., Cook R.J. 1983. Suppression of take-all of wheat by seed treatrnents with fluorescent pseudomonads. Phytopath. 73: 463-469.
• [79] Wilson C.L., Pusey P.L. 1985. Potential for biological control of postharvest plant diseases. Plant Disease 69(5): 375-378.
• [80] Wilson C.L., Franklin J.D., Pusey P.L. 1987. Biological control of Rhizopus rot of peach with Enterobacter cloacae. Phytopath. 77: 303-305.
• [81] Wodziński R.S., Beer S.V., Zumoff C.H., Clardy J.C., Coval S.J. 1990. Antibiotics produced by strains of Erwinia herbicola that are highly effective in suppressing fire blight. Acta Hort. 273: 411-412.
• [82] Utkhede R.S., Li T.S.C. 1989. Evaluation of Bacillus subtilis for potential control of apple replant disease. J. Phytopath. 126: 305-312.
• [83] Utkhede R.S., Li T.S.C., Smith E.M. 1992. The effect of Glomus mosseae and Enterobacter aerogenes on apple seedlings grown in apple replant disease soil. J. Phytopath. 135: 281-288.
• [84] Utkhede R.S., Smith E.M. 1992. Promotion of apple tree growth and fruit production by EBW-4 strain of Bacillus subtilis in apple replant disease soil. Can J. Microbiol. 38: 1270-1273.
• [85] Yuen G.Y., Schroth M.N. 1986. Interactions of Pseudomonas fluorescens strain E6 with ornamental plants and its effect on the composition of root-colonizing microflora. Phytopath. 76: 176-180.
• [86] Zwet van der T. 1993. Manipulation of the epiphytic microbial community to promote biological control of Erwinia amylovora on pear and apple. Acta Hort. 338: 351.