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2012 | 52 | 4 |

Tytuł artykułu

Efficacy of fungicides and essential oils against bacterial diseases of fruit trees

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
In the framework of the performed studies, the antibacterial activity of the following fungicides was evaluated: Miedzian 50 WG (active substance - a.s. 50% copper oxychloride), Ridomil MZ Gold 68 WG (a.s. 3.8% metalaxyl-M and 64%, mancozeb), Euparen Multi 50 WG (a.s. 50% tolylfluanid), Captan 80 WG [a.s. 80% N-(captan)], Dithane Neotec 75 WG (a.s. 75% mancozeb). The evaluation also concerned the essential oils: lavender, sage, lemon balm, clove, and a preparation based on thyme oil (BioZell). Each preparation and compound was tested against the following bacterial pathogens: Erwinia amylovora, Xanthomonas arboricola pv. corylina, X. arboricola pv. juglandis, Pseudomonas syringae pv. syringae, Agrobacterium tumefaciens (presently Rhizobium radiobacter). Each preparation and compound was tested at a concentration of 1,000 ppm of active substance. Copper oxychloride was also tested at a concentration of 1,500 ppm. Among the tested fungicides, metalaxyl-M with mancozeb, mancozeb alone, and copper oxychloride inhibited all of the tested strains of pathogenic bacteria. Tolylfluanid did not inhibit any of the bacteria used. Out of the investigated essential oils, the strongest inhibitors of bacteria were: sage, cloves, and BioZell. The protective activity of the above mentioned fungicides was also evaluated in vivo. They were assessed against fire blight on apple blossoms and pear fruitlets, against bacterial canker on sweet cherry fruitlets, and against crown gall on sunflower seedlings (the test plant). All fungicides were applied at the same concentrations as those in the in vitro tests. Only copper oxychloride was found to show protective activity against the studied diseases. This result indicates that the antibacterial properties of the other fungicides did not correspond with their activity on the plant organs used in the in vivo experiment.

Wydawca

-

Rocznik

Tom

52

Numer

4

Opis fizyczny

p.467-471,ref.

Twórcy

  • Pomology Division, Research Institute of Horticulture, Pomologiczna 18, 96-100 Skierniewice, Poland
  • Pomology Division, Research Institute of Horticulture, Pomologiczna 18, 96-100 Skierniewice, Poland
  • Pomology Division, Research Institute of Horticulture, Pomologiczna 18, 96-100 Skierniewice, Poland

Bibliografia

  • Adaskaveg J., Hine R.B. 1985. Copper tolerance and zinc sensitivity of Mexican strains of Xanthomonas campestris pv. vesi-catoria, causal agent of bacterial spot of pepper. Plant Dis. 69 (11): 993-996.
  • Aldwinckle H.S., Bhaskara Reddy M.V., Norelli J.L. 2002. Evaluation of control of fire blight infection of apple blossoms and shoots with SAR inducers, biological agents, a growth regulator, copper compounds, and other materials. Acta Hort. 590: 325-331.
  • Bajpai V.K., Kang S., Xu H., Lee S., Baek K., Kang S.C. 2011. Potential roles of essential oils on controlling plant pathogenic bacteria Xanthomonas species: a review. Plant Pathol. J. 27 (3): 207-224.
  • Basim H., Yegen O., Zeller W. 2000. Antibacterial effect of essential oil of Thymbra spicata L. var. spicata on some plant pathogenic bacteria. Z. Pflanzenkr. Pflanzensch. 279 (3): 279-284.
  • Berczyński S., Machowicz-Stefaniak Z., Sobiczewski P. 2002. Wpływ wybranych fungicydów na przeżywalność Agro-bacterium tumefaciens/(Smith et Townsend) Conn w różnych rodzajach gleb. Acta Agrobot. 55 (1): 27-39.
  • Buchner R.P., Olson W.H., Adaskaveg J.E. 2001. Walnut blight (Xanthomonas campestris pv. juglandis) control investigations in northern California, USA. Acta Hort. 544: 369-378.
  • Burr T.J. 2001. Future development of chemical and biological controls for bacterial diseases of plants. p. 19-23. In: "Plant Pathogenic Bacteria" (S.H. De Boer, ed.). Kluwer Academic Publishers. Dortrecht, The Netherlands, 454 pp.
  • Conlin K., McCarter S.M. 1983. Effectiveness of selected chemicals in inhibiting Pseudomonas syringae pv. tomato in vitro and in controlling bacterial speck. Plant Dis. 67 (6): 639-644.
  • El-Zemity S.R., Radwan M.A., El-Mohamed S.A., Sherby S.M. 2008. Antibacterial screening of some essential oils, monoterpenoids and novel N-methyl carbamates based on monoterpenoids against Agrobacterium tumefaciens and Erwinia carotovora. Arch. Phytopathol. Plant Prot. 41 (6): 451-461.
  • Janse J. 2005. Prevention and control of bacterial pathogens and diseases. p. 149-173. In: "Phytobacteriology Principles and Practice". CABI Publishing, CAB International Wallingford, UK. 360 pp.
  • Kado C. 2010. Disease control management principles. p. 280- 294. In: "Plant Bacteriology". APS Press, St Paul, MN, USA, 336 pp.
  • Kokoskowa B., Pouvova D., Pavela R. 2011. Effectiveness of plant essentials oils against Erwinia amylovora, Pseudomonas syringae pv. syringae and associated saprophytic bacteria on/in host plants. J. Plant Pathol. 93 (1): 133-139.
  • Kotan R., Dadasoglu F., Kordali S., Cakır A.,Dikbas N., Cakmakcı R. 2007. Antibacterial activity of essential oils extracted from some medicinal plants, carvacrol and thymol on Xanthomonas pv. vesicatoria (Doidge) Dye causes bacterial spot disease on pepper and tomato. J. Agric. Technol. 3 (2): 299-306.
  • McManus P.S., Stockwell V.O. 2001. Antibiotic use for plant disease management in the United States. Plant Health Progress. <http://www.plantmanagementnetwork.org/pub/php/>review/antibiotic/. Accessed: 01 September 2012.
  • Merry R.H., Tiller K.G., Alston A.M. 1986. The effects of contamination of soil with copper, lead and arsenic on the growth and composition of plants. Plant Soil 91 (1): 115-128.
  • Momol M.T., Norelli J.L., Aldwinckle H.S. 1999. Evaluation of biological control agents, systemic acquired resistance induc-ers and bactericides for the control of fire blight on apple blossom. Acta Hort. 489: 553-557.
  • Nguefack J., Somda I., Mortensen C.N., Amvam Zollo P.H. 2005. Evaluation of five essential oils from aromatic plants of Cameroon for controlling seed-borne bacteria of rice (Ory-za sativa L.). Seed Sci. Technol. 33 (2): 397-407.
  • Oros Gy. 1983. The influence of pesticides on the antagonistic effect of Agrobacterium radiobacter to A. tumefaciens. p. 28-36. In: Proc. Int. Conf. Int. Plant Prot., Budapest, Hungary, 4-9 July, 235 pp.
  • Psallidas P.G., Tsiantos J. 2000. Chemical control of fire blight. p. 199-234. In: "Fire Blight The Disease and its Causative Agent, Erwinia amylovora" ( J.L. Vanneste, ed.). CABI Publishing, Wallingford, UK, 370 pp.
  • Pusey P.L. 1999. Water relations and infection by Erwinia amy-lovora based on crab apple blossom model. Acta Hort. 489: 521-524.
  • Renan L. 1994. Effect of long-term applications of copper on soil and grape copper (Vitis vinifera). Can. J. Soil Sci. 74 (3): 345-347.
  • Scortichini M., Rossi M.P. 1989. In vitro activity of some essential oils towards Erwinia amylovora (Burill) Winslow et al. Acta Phytopathol. Entomol. Hung. 4: 423-431.
  • Scortichini M., Rossi M.P. 1993. In vitro behavior of Erwinia amy-lovora towards some natural products showing bactericidal activity. Acta Hort. 338: 191-198.
  • Sobiczewski P., Lisiecka A., Millikan D.F. 1980. The use of green cherry fruit to evaluate chemicals for controlling bacterial canker of stone fruits. Phytopathol. Z. 98 (3): 268-271.
  • Sobiczewski P., Piotrowski S.A. 1983. Preliminary studies on biological control of crown gall (Agrobacterium radiobacter pv.tumefaciens). Fruit Sci. Rep. 10: 189-194.
  • Sobiczewski P., Millikan D.F. 1985. Efficacy of chemicals for control of fire blight (Erwinia amylovora). Fruit Sci. Rep. 12: 27-34.
  • Sobiczewski P. 2001. Stan obecny i perspektywy ochrony sadów i szkółek przed chorobami bakteryjnymi. [The present state and perspectives of the protection of orchards and nurseries against bacterial diseases]. Prog. Plant Prot./Post. Ochr. Roślin 41 (1): 291-298.
  • Sobiczewski P. 2009. Zaraza ogniowa i inne choroby bakteryjne roślin sadowniczych - zagrożenie i możliwości zwalczania. p. 26-36. W: Mat. 52 Ogólnopolskiej Konferencji Ochrony Roślin Sadowniczych. Ossa, 18-19.03.2009, 228 ss.
  • Toselli M., Schiatti P., Ara D., Bertacchini A., Quartieri M. 2009. The accumulation of copper in soils of the Italian region Emilia-Romagna. Plant Soil Environ. 55 (2): 74-79.
  • Vanneste J.L., Boyd R.J. 2002. Inhibition of Erwinia amylovora and potential antagonistic bacteria by essential oils and natural compounds. Acta Hort. 590: 315-317.
  • Informationen zum Pflanzenstärkungsmittel Biozell-2000B ® [online]. <http://www.biozell-2000b.com>. Accessed: 01 September 2012.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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