Factors impacting blackleg development caused by Dickeya spp. in the field

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• 作者：Elena Dubois Gill (1)
  Santiago Schaerer (1)
  Brice Dupuis (1)
  
• 关键词：Dickeya ; Blackleg ; Epidemiology ; Multiple regression ; Potato
• 刊名：European Journal of Plant Pathology
• 出版年：2014
• 出版时间：October 2014
• 年：2014
• 卷：140
• 期：2
• 页码：317-327
• 全文大小：270 KB
• 参考文献：1. Adams, S. S., & Stevenson, W. R. (1990). Water management, disease development, and potato production. / American Potato Journal, 67(1), 3鈥?1. doi:10.1007/bf02986908 . CrossRef
  2. Agrometeo (2013). Pr茅vision et gestion des risques pour l鈥檃griculture, meteorology. Agroscope. http://www.agrometeo.ch/. Accessed 15 Nov 2013.
  3. Aleck, J. R., & Harrison, M. D. (1978). Influence of inoculum density and environment on development of potato blackleg. / American Potato Journal, 55(9), 479鈥?94. doi:10.1007/bf02852154 . CrossRef
  4. Allefs, J., VanDooijeweert, W., Prummel, W., Keizer, L. C. P., & Hoogendoorn, J. (1996). Components of partial resistance to potato blackleg caused by pectolytic Erwinia carotovora subsp atroseptica and E. chrysanthemi. / Plant Pathology, 45(3), 486鈥?96. CrossRef
  5. Bain, R. A., & Perombelon, M. C. M. (1990). Blackleg development and tuber yield in relation to numbers of Erwinia carotovora subsp atroseptica on seed potatoes. / Plant Pathology, 39(1), 125鈥?33. doi:10.1111/j.1365-3059.1990.tb02483.x . CrossRef
  6. Bain, R. A., Millard, P., & Perombelon, M. C. M. (1996). The resistance of potato plants to Erwinia carotovora subsp atroseptica in relation to their calcium and magnesium content. / Potato Research, 39(2), 185鈥?93. doi:10.1007/bf02358218 . CrossRef
  7. Cazelles, O., & Schwaerzel, R. (1992). Enqu锚te sur les bact茅rioses caus茅es par Erwinia dans les cultures de plants de pommes de terre en Suisse romande. / Revue Suisse d鈥橝griculture, 24(4), 215鈥?18.
  8. CIP. (2007). / Procedures for standard evaluation trials of advanced potato clones. An International Cooperators鈥?Guide. Lima: International Potato Center (CIP).
  9. Czajkowski, R., de Boer, W. J., Velvis, H., & van der Wolf, J. M. (2010). Systemic colonization of potato plants by a soilborne, green fluorescent protein-tagged strain of Dickeya sp biovar 3. / Phytopathology, 100(2), 134鈥?42. CrossRef
  10. Czajkowski, R., Perombelon, M. C. M., van Veen, J. A., & van der Wolf, J. M. (2011). Control of blackleg and tuber soft rot of potato caused by Pectobacterium and Dickeya species: a review. / Plant Pathology, 60(6), 999鈥?013. doi:10.1111/j.1365-3059.2011.02470.x . CrossRef
  11. Czajkowski, R., de Boer, W. J., & van der Wolf, J. M. (2013). Chemical disinfectants can reduce potato blackleg caused by 鈥楧ickeya solani鈥? [Article]. / European Journal of Plant Pathology, 136(2), 419鈥?32. doi:10.1007/s10658-013-0177-8 . CrossRef
  12. Dupuis, B., Schaerer, S., Gilliand, H., & Cazelles, O. (2010). The Dickeya and Pectobacterium situation in Switzerland. In Dickeya Workshop, Emmeloord, The Netherlands.
  13. Gobat, J., Aragno, M., & Matthey, W. (2010). Le sol vivant: bases de p茅dologie, biologie des sols (Sciences de la terre ed.). PPUR Presses Polytechniques.
  14. Graham, D. C., & Harper, P. C. (1966). Effect of inorganic fertilizers on the Incidence of potato blackleg disease. / Potato Research, 9(3), 141鈥?45. CrossRef
  15. Helias, V., Andrivon, D., & Jouan, B. (2000). Development of symptoms caused by Erwinia carotovora ssp atroseptica under field conditions and their effects on the yield of individual potato plants. / Plant Pathology, 49(1), 23鈥?2. CrossRef
  16. Laurila, J., Hannukkala, A., Nykyri, J., Pasanen, M., Helias, V., Garlant, L., et al. (2010). Symptoms and yield reduction caused by Dickeya spp. strains isolated from potato and river water in Finland. / European Journal of Plant Pathology, 126(2), 249鈥?62. CrossRef
  17. McGuire, R. G., & Kelman, A. (1984). Reduced severity of Erwinia soft rot in potato-tubers with increased calcium content. / Phytopathology, 74(10), 1250鈥?256. doi:10.1094/Phyto-74-1250 . CrossRef
  18. MeteoSwiss (2013). Portail des donn茅es de M茅t茅oSuisse. M茅t茅oSuisse. http://www.meteosuisse.admin.ch/web/fr/services/portail_des_donnees.html. Accessed 15 Nov 2013.
  19. P茅rombelon, M. C. M. (2002). Potato diseases caused by soft rot erwinias: an overview of pathogenesis. / Plant Pathology, 51(1), 1鈥?2. doi:10.1046/j.0032-0862.2001.Short title.doc.x . CrossRef
  20. P茅rombelon, M. C. M., Lumb, V. M., Zutra, D., Hyman, L. J., & Burnett, E. M. (1989). Factors affecting potato blackleg development. In E. C. Tjamos & C. H. Beckman (Eds.), / Vascular wilt diseases of plants (NATO ASI Series, Vol. 28, pp. 421鈥?31). Berlin: Springer. CrossRef
  21. Prokkola, S. (1994). Effect of applying nitrogen-fertilizer to a potato seed crop on the susceptibility of the daughter plants to Erwinia carotovora subsp atroseptica. / Potato Research, 37(1), 103鈥?11. doi:10.1007/bf02358709 . CrossRef
  22. Rouffiange, J., Gerardin, D., Kellenberger, I., Schaerer, S., & Dupuis, B. (2013). Sensibilit茅 de la pomme de terre aux pourritures de tiges provoqu茅es par Dickeya spp. / Recherche Agronomique Suisse, 4(10), 424鈥?31.
  23. StatSoft (2013). Electronic statistics textbook, how to find relationship between variables, multiple regression. http://www.statsoft.com/Textbook/Multiple-Regression. Accessed 20 Nov 2013.
  24. Tandogdu, Y., & Camgoz, O. (1999). An experimental approach for estimating evapotranspiration. / CIM Bulletin, 92(1027), 55鈥?0.
  25. Toth, I. K., van der Wolf, J. M., Saddler, G., Lojkowska, E., Helias, V., Pirhonen, M., et al. (2011). Dickeya species: an emerging problem for potato production in Europe. [Review]. / Plant Pathology, 60(3), 385鈥?99. doi:10.1111/j.1365-3059.2011.02427.x . CrossRef
  
• 作者单位：Elena Dubois Gill (1)
  Santiago Schaerer (1)
  Brice Dupuis (1)
  
  1. Agroscope, Institut des Sciences en Production V茅g茅tale IPV, 1260, Nyon 1, Switzerland
  
• ISSN：1573-8469

文摘

Stem rot symptoms caused by pectinolytic bacteria of Genus Pectobacterium and Genus Dickeya, which are commonly referred to as blackleg, strongly impact the quality of seed potato production in most European countries. Several biotic and abiotic factors, such as cultivar susceptibility, isolate aggressiveness, mother tuber infection density and a wide range of soil-related and climatic factors have been identified in the literature as having an effect on blackleg development. The aim of this study was to identify which biotic and/or abiotic factors are most critical to the development of blackleg in the field. In Switzerland, the predominant species have belonged to Genus Dickeya as far back as 1992, which is why this study only investigates blackleg symptoms induced by Dickeya isolates. Seven field trials, in which inoculated tubers were planted, were conducted during a 3-year period and the number of blackleg-diseased plants was counted. Multiple regression analysis was used in order to determine the factors that had the greatest impact on two different variables: (i) periods between emergence of the plant and disease outbreak and (ii) overall blackleg incidence throughout the growing season. The results of this analysis have revealed that environmental factors, such as evapotranspiration and soil moisture, explain about half of the variability in the number of days before disease outbreak, and the total number of diseased plants is widely dependent upon cultivar susceptibility and isolate aggressiveness.