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References

  • Afek U, Orenstein J, 2002. Disinfecting potato tubers using steam treatments. Canadian Journal of Plant Pathology 24, 369.
  • Ahrenholtz I, Harms K, de Vries J, Wackernagel W, 2000. Increased killing of Bacillus subtilis on the hair roots of transgenic T4 lysozyme-producing potatoes. Applied and Environmental Microbiology 66, 18625.
  • Ali A, Alam S, Machado V, 1995. Potato minituber production from nodal cuttings compared to whole in vitro-plantlets using low volume media in a greenhouse. Potato Research 38, 6976.
  • Allefs SJHM, van Dooijeweert W, de Jong ER, Prummel W, Hoogendoorn C, 1995. The role of the seed tuber in determining partial resistance to potato blackleg caused by Erwinia spp. European Journal of Plant Pathology 101, 18999.
  • Andersson RA, Eriksson ARB, Heikinheimo R et al. , 2000. Quorum sensing in the plant pathogen Erwinia carotovora subsp. carotovora: the role of expREcc. Molecular Plant-Microbe Interactions 13, 38493.
  • Anilkumar TB, Chakravarti BP, 1970. Factors affecting survival of Erwinia carotovora, causal organism of stalk rot of maize, in soil. Acta Phytopathologica Academiae Scientarium Hungaricae 5, 33340.
  • Arce P, Moreno M, Gutierrez M et al. , 1999. Enhanced resistance to bacterial infection by Erwinia carotovora subsp. atroseptica in transgenic potato plants expressing the attacin or the cecropin SB-37 genes. American Journal of Potato Research 76, 16977.
  • Austin S, Lojkowska E, Ehlenfeldt MK, Kelman A, Helgeson JP, 1988. Fertile interspecific somatic hybrids of Solanum: a novel source of resistance to Erwinia soft rot. Phytopathology 78, 121620.
  • Azad HR, Davis JR, Schnathorst WC, Kado CI, 1985. Relationships between rhizoplane and rhizosphere bacteria and verticillium wilt resistance in potato. Archives of Microbiology 140, 34751.
  • Bain RA, Pérombelon MCM, 1988. Methods of testing potato cultivars for resistance to soft rot of tubers caused by Erwinia carotovora subsp. atroseptica. Plant Pathology 37, 4317.
  • Bain RA, Pérombelon MCM, Tsror L, Nachmias A, 1990. Blackleg development and tuber yield in relation to numbers of Erwinia carotovora subsp. atroseptica on seed potatoes. Plant Pathology 39, 12533.
  • Bain R, Millard P, Pérombelon M, 1996. The resistance of potato plants to Erwinia carotovora subsp. atroseptica in relation to their calcium and magnesium content. Potato Research 39, 18593.
  • Barras F, van Gijsegem F, Chatterjee AK, 1994. Extracellular enzymes and pathogenesis of soft-rot Erwinia. Annual Review of Phytopathology 32, 20134.
  • Bartz J, 1999. Suppression of bacterial soft rot in potato tubers by application of kasugamycin. American Journal of Potato Research 76, 12736.
  • Bartz J, Kelman A, 1985. Effect of air-drying on soft rot potential of potato tubers inoculated by immersion in suspensions of Erwinia carotovora. Phytopathology 69, 12831.
  • Bartz J, Kelman A, 1986. Reducing the potential for bacterial soft rot in potato tubers by chemical treatments and drying. American Journal of Potato Research 63, 48193.
  • Bateman DF, Miller RL, 1966. Pectic enzymes in tissue degradation. Annual Reviews of Phytopathology 4, 11944.
  • Bdliya B, Haruna H, 2007. Efficacy of solar heat in the control of bacterial soft rot of potato tubers caused by Erwinia carotovora ssp. carotovora. Journal of Plant Protection Research 47, 118.
  • Berry S, Madumadu G, Uddin M, 1988. Effect of calcium and nitrogen nutrition on bacterial canker disease of tomato. Plant and Soil 112, 11320.
  • von Bodman SB, Bauer WD, Coplin DL, 2003. Quorum sensing in plant-pathogenic bacteria. Annual Review of Phytopathology 41, 45582.
  • Bonde R, de Souza P, 1954. Studies on the control of potato bacterial seed-piece decay and blackleg with antibiotics. American Journal of Potato Research 31, 3116.
  • Burgess PJ, Blakeman JP, Pérombelon MCM, 1994. Contamination and subsequent multiplication of soft rot erwinias on healthy potato leaves and debris after haulm destruction. Plant Pathology 43, 28699.
  • Carputo D, Cardi T, Speggiorin M, Zoina A, Frusciante L, 1997. Resistance to blackleg and tuber soft rot in sexual and somatic interspecific hybrids with different genetic background. American Journal of Potato Research 74, 16172.
  • Charkowsky AO, 2006. The soft rot Erwinia. In: Gnanamanickam SS, ed. Plant-Associated Bacteria. Dordrecht, Netherlands: Springer, 423505.
  • Chatterjee AK, 1980. Genetics of Erwinia species. Annual Review of Microbiology 34, 64576.
  • Chujoy E, Cabello R, 2007. The canon of potato science: true potato seed (TPS). Potato Research 50, 3235.
  • Cladera-Olivera F, Caron GR, Motta AS, Souto AA, Brandelli A, 2006. Bacteriocin-like substance inhibits potato soft rot caused by Erwinia carotovora. Canadian Journal of Microbiology 52, 5339.
  • Collier GF, Wurr DCE, Huntington VC, 1980. The susceptibility of potato varieties to internal rust spot. The Journal of Agricultural Science 94, 40710.
  • Colyer P, Mount M, 1983. Presence of pectolytic bacteria on “explorer” potato seed. American Journal of Potato Research 60, 5668.
  • Colyer PD, Mount MS, 1984. Bacterization of potatoes with Pseudomonas putida and its influence on postharvest soft rot diseases. Plant Disease 68, 7036.
  • Compant S, Duffy B, Nowak J, Clement C, Barka EA, 2005. Use of plant growth-promoting bacteria for biocontrol of plant diseases: principles, mechanisms of action, and future prospects. Applied and Environmental Microbiology 71, 49519.
  • Corsini D, Pavek J, 1986. Bacterial soft rot resistant potato germplasm. American Potato Journal 63, 41721.
  • Cronin D, Moënne-Loccoz Y, Fenton A, Dunne C, Dowling DN, O’Gara F, 1997. Ecological interaction of a biocontrol Pseudomonas fluorescens strain producing 2,4-diacetylphloroglucinol with the soft rot potato pathogen Erwinia carotovora subsp. atroseptica. FEMS Microbiology Ecology 23, 95106.
  • Crowley PH, Straley SC, Craig RJ et al. , 1980. A model of prey bacteria, predator bacteria, and bacteriophage in continuous culture. Journal of Theoretical Biology 86, 377400.
  • Czajkowski R, de Boer WJ, Velvis H, van der Wolf J, 2010. Systemic colonization of potato plants by a soilborne, green fluorescent protein-tagged strain of Dickeya sp. biovar 3. Phytopathology 100, 13442.
  • Dashwood E, Burnett E, Pérombelon M, 1991. Effect of a continuous hot water treatment of potato tubers on seed-borne fungal pathogens. Potato Research 34, 718.
  • De Boer SH, 2003. Characterization of pectolytic erwinias as highly sophisticated pathogens of plants. European Journal of Plant Pathology 109, 8939.
  • Dobias K, 1977. Possibilities of breeding for resistance to bacterial soft rot (Erwinia carotovora, Jones, Holland). Rostlinna Vyroba 23, 25560.
  • Dong YH, Wang LH, Xu JL, Zhang HB, Zhang XF, Zhang LH, 2001. Quenching quorum-sensing-dependent bacterial infection by an N-acyl homoserine lactonase. Nature 411, 8137.
  • Douches DS, Maas D, Jastrzebski K, Chase RW, 1996. Assessment of potato breeding progress in the USA over the last century. Crop Science 36, 154452.
  • Duarte V, De Boer SH, Ward LJ, de Oliveira AM, 2004. Characterization of atypical Erwinia carotovora strains causing blackleg of potato in Brazil. Journal of Applied Microbiology 96, 53545.
  • Dunn L, Rost C, 1945. Effect of fertilizers on the quality of potatoes grown in the Red River Valley of Minnesota. American Journal of Potato Research 22, 17387.
  • Düring K, 1996. Genetic engineering for resistance to bacteria in transgenic plants by introduction of foreign genes. Molecular Breeding 2, 297305.
  • Dye DW, 1969. A taxonomic study of the genus Erwinia. II. The “carotovora” group. New Zealand Journal of Science 12, 8197.
  • Eckert JW, Ogawa JM, 1988. The chemical control of postharvest diseases: deciduous fruits, berries, vegetables and root/tuber crops. Annual Review of Phytopathology 26, 43369.
  • Elphinstone JG, Pérombelon MCM, 1986. Contamination of potatoes by Erwinia carotovora during grading. Plant Pathology 35, 2533.
  • Epton HS, Walker NM, Sigee DC, 1990. Bdellovibrio: a potential control agent for soft rot and blackleg of potato. In: Klement Z, ed. 7th International Conference on Plant Pathogenic Bacteria, Budapest, Hungary, June 1989, 20712.
  • Farran I, Mingo-Castel A, 2006. Potato minituber production using aeroponics: effect of plant density and harvesting intervals. American Journal of Potato Research 83, 4753.
  • Fock I, Collonnier C, Luisetti J et al. , 2001. Use of Solanum stenotomum for introduction of resistance to bacterial wilt in somatic hybrids of potato. Plant Physiology and Biochemistry 39, 899908.
  • French ER, de Lindo L, 1985. Sources of resistance in tuberiferous Solanum spp. to soft rot by erwinias. In: Graham DC, Harrison MD, eds. Report of the International Conference on Potato Blackleg Disease. Orono, ME, USA: Potato Association of America, 7980.
  • Fuqua C, Parsek MR, Greenberg EP, 2001. Regulation of gene expression by cell-to-cell communication: acyl homoserine lactone quorum sensing. Annual Review of Genetics 35, 43968.
  • Gabay JE, 1994. Ubiquitous natural antibiotics. Science 15, 3734.
  • Gardan L, Gouy C, Christen R, Samson R, 2003. Elevation of three subspecies of Pectobacterium carotovorum to species level: Pectobacterium atrosepticum sp. nov., Pectobacterium betavasculorum sp. nov. and Pectobacterium wasabiae sp. nov. International Journal of Systemic and Evolutionary Microbiology 53, 38191.
  • Glendinning DR, 1983. Potato introductions and breeding up to the early 20th century. New Phytologist 94, 479505.
  • Graham DC, 1964. Taxonomy of the soft rot coliform bacteria. Annual Review of Phytopathology 2, 1342.
  • Graham DC, 1976. Re-infection by Erwinia carotovora (Jones) Bergey et al. in potato stocks derived from stem cuttings. EPPO Bulletin 6, 2435.
  • Graham DC, Harper PC, 1966. Effect of inorganic fertilizers on the incidence of potato blackleg disease. Potato Research 9, 1415.
  • Graham DC, Harper PC, 1967. Potato blackleg and tuber soft rot. Scottish Journal of Agriculture 48, 6874.
  • Gross D, 1988. Maximizing rhizosphere populations of fluorescent pseudomonads on potatoes and their effects on Erwinia carotovora. American Journal of Potato Research 65, 697710.
  • de Haan EG, Dekker-Nooren TCEM, van den Bovenkamp GW, Speksnijder AGCL, van der Zouwen PS, van der Wolf JM, 2008. Pectobacterium carotovorum subsp. carotovorum can cause potato blackleg in temperate climates. European Journal of Plant Pathology 122, 5619.
  • Harris R, 1979. Chemical control of bacterial soft-rot of wounded potato tubers. Potato Research 22, 2459.
  • Harrison MD, Franc GD, Maddox DA, Michaud JE, McCarter-Zorner NJ, 1987. Presence of Erwinia carotovora in surface water in North America. Journal of Applied Microbiology 62, 56570.
  • Hauben L, Moore ER, Vauterin L et al. , 1998. Phylogenetic position of phytopathogens within the Enterobacteriaceae. Systemic and Applied Microbiology 21, 38497.
  • Haverkort AJ, 1990. Ecology of potato cropping systems in relation to latitude and altitude. Agricultural Systems 32, 25172.
  • Haygood RA, Strider DL, Nelson PV, 1982. Influence of nitrogen and potassium on growth and bacterial leaf blight of Philodendron selloum. Plant Disease 66, 72830.
  • Hidalgo O, Echandi E, 1982. Evaluation of potato clones for resistance to tuber and stem rot induced by Erwinia chrysanthemi. American Journal of Potato Research 59, 58592.
  • Hijmans RJ, Spooner DM, 2001. Geographic distribution of wild potato species. American Journal of Botany 88, 210112.
  • Hirotani M, Kuroda R, Suzuki H, Yoshikawa T, 2000. Cloning and expression of UDP-glucose: flavonoid 7-O-glucosyltransferase from hairy root cultures of Scutellaria baicalensis. Planta 210, 100613.
  • Hooker WJ, 1981. Compendium of Potato Diseases. St Paul, MN, USA: APS Press.
  • Howarth FG, 2003. Environmental impacts of classical biological control. Annual Review of Entomology 36, 485509.
  • Hugouvieux-Cotte-Pattat N, Condemine G, Nasser W, Reverchon S, 1996. Regulation of pectinolysis in Erwinia chrysanthemi. Annual Review of Microbiology 50, 21357.
  • Jafra S, Przysowa J, Czajkowski R, Michta A, Garbeva P, van der Wolf JM, 2006. Detection and characterization of bacteria from the potato rhizosphere degrading N-acyl-homoserine lactone. Canadian Journal of Microbiology 52, 100615.
  • Janse JD, Ruissen MA, 1988. Characterization and classification of Erwinia chrysanthemi strains from several hosts in The Netherlands. Phytopathology 78, 8008.
  • Jones JB, Jackson LE, Balogh B, Obradovic A, Iriarte FB, Momol MT, 2007. Bacteriophages for plant disease control. Annual Review of Phytopathology 45, 24562.
  • Kamysz W, Krolicka A, Bogucka K, Ossowski T, Lukasiak J, Lojkowska E, 2005. Antibacterial activity of synthetic peptides against plant pathogenic Pectobacterium species. Journal of Phytopathology 153, 3137.
  • Kastelein P, Schepel E, Mulder A, Turkensteen L, Van Vuurde J, 1999. Preliminary selection of antagonists of Erwinia carotovora subsp. atroseptica (Van Hall) Dye for application during green crop lifting of seed potato tubers. Potato Research 42, 16171.
  • Kloepper JW, 1983. Effect of seed piece inoculation with plant growth promoting rhizobacteria on populations of Erwnia carotovora on potato roots and in daughter tubers. Phytopathology 73, 2179.
  • Kloepper J, Leong J, Teintze M, Schroth M, 1980. Pseudomonas siderophores: a mechanism explaining disease-suppressive soils. Current Microbiology 4, 31720.
  • König A, Cockburn A, Crevel RWR et al. , 2004. Assessment of the safety of foods derived from genetically modified (GM) crops. Food and Chemical Toxicology 42, 104788.
  • Laferriere LT, Helgeson JP, Allen C, 1999. Fertile Solanum tuberosum + S. commersonii somatic hybrids as sources of resistance to bacterial wilt caused by Ralstonia solanacearum. Theoretical and Applied Genetics 98, 12728.
  • Laurila J, Ahola V, Lehtinen A et al. , 2008. Characterization of Dickeya strains isolated from potato and river water samples in Finland. European Journal of Plant Pathology 122, 21325.
  • Laurila J, Hannukkala A, Nykyri J 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, 24962.
  • Lim WH, 1975. The survival of Erwinia chrysanthemi in peat and mineral soil. MARDI Research Bulletin 3, 203.
  • Łojkowska E, Kelman A, 1994. Comparison of the effectiveness of different methods of screening for bacterial soft rot resistance of potato tubers. American Journal of Potato Research 71, 99113.
  • Loper JE, Henkels MD, 1999. Utilization of heterologous siderophores enhances levels of iron available to Pseudomonas putida in the rhizosphere. Applied and Environmental Microbiology 65, 535763.
  • Lorenc-Kukula K, Jafra S, Oszmianski J, Szopa J, 2005. Ectopic expression of anthocyanin 5-O-glucosyltransferase in potato tuber causes increased resistance to bacteria. Journal of Agricultural and Food Chemistry 53, 27281.
  • Lyon GD, 1989. The biochemical basis of resistance of potatoes to soft rot Erwinia spp.—a review. Plant Pathology 38, 31339.
  • Ma B, Hibbing ME, Kim HS et al. , 2007. Host range and molecular phylogenies of the soft rot enterobacterial genera Pectobacterium and Dickeya. Phytopathology 97, 115063.
  • Mackay JM, Shipton PJ, 1983. Heat treatment of seed tubers for control of potato blackleg (Erwinia carotovora subsp. atroseptica) and other diseases. Plant Pathology 32, 38593.
  • McCarter-Zorner NJ, Franc G, Harrison M et al. , 1984. Soft rot Erwinia bacteria in surface and underground waters in southern Scotland and in Colorado, United States. Journal of Applied Microbiology 57, 95105.
  • McGovern RJ, Horst RK, Dickey RS, 1985. Effect of nutrition on susceptibility of Chrysanthemum morifolium to Erwinia chrysanthemi. Plant Disease 69, 10868.
  • McGuire R, Kelman A, 1984. Reduced severity of Erwinia soft rot in potato tubers with increased calcium content. Phytopathology 74, 12506.
  • McMillan GP, Barrett AM, Pérombelon MCM, 1994. An isoelectric focusing study of the effect of methyl-esterified pectic substances on the production of extracellular pectin isoenzymes by soft rot Erwinia spp. Journal of Applied Microbiology 77, 17584.
  • van der Merwe JJ, Coutinho TA, Korsten L, van der Waals JE, 2010. Pectobacterium carotovorum subsp. brasiliensis causing blackleg on potatoes in South Africa. European Journal of Plant Pathology 126, 17585.
  • Mills AAS, Platt HWB, Hurta RAR, 2006. Sensitivity of Erwinia spp. to salt compounds in vitro and their effect on the development of soft rot in potato tubers in storage. Postharvest Biology and Technology 41, 20814.
  • Molina J, Harrison M, 1977. The role of Erwinia carotovora in the epidemiology of potato blackleg. I. Relationship of Erwinia carotovora var. carotovora and Ecarotovora var. atroseptica to potato blackleg in Colorado. American Journal of Potato Research 54, 58791.
  • Oh H, Hedberg M, Wade D, Edlund C, 2000. Activities of synthetic hybrid peptides against anaerobic bacteria: aspects of methodology and stability. Antimicrobial Agents and Chemotherapy 44, 6872.
  • Pagel W, Heitefuss R, 1989. Calcium content and cell wall polygalacturonans in potato tubers of cultivars with different susceptibilities to Erwinia carotovora subsp. atroseptica. Physiological and Molecular Plant Pathology 35, 1121.
  • Park SK, 1969. Studies in the relationship between Ca nutrient and soft rot disease in Chinese cabbage. Research Report to Rural Development Administration, Suwon, Korea 12, 6370.
  • Pérombelon MCM, 1974. The role of the seed tuber in the contamination by Erwinia carotovora of potato crops in Scotland. Potato Research 17, 18799.
  • Pérombelon MCM, 1982. The impaired host and soft rot bacteria. In: Mount MS, Lacy GH, eds. Phytopathogenic Prokaryotes, vol. 2. New York, USA: Academic Press, 5669.
  • Pérombelon MCM, 1992. Potato blackleg: epidemiology, host-pathogen interaction and control. Netherlands Journal of Plant Pathology 98, 13546.
  • Pérombelon MCM, 2000. Blackleg risk potential of seed potatoes determined by quantification of tuber contamination by the causal agent and Erwinia carotovora subsp. atroseptica: a critical review. EPPO Bulletin 30, 41320.
  • Pérombelon MCM, 2002. Potato diseases caused by soft rot erwinias: an overview of pathogenesis. Plant Pathology 51, 112.
  • Pérombelon MCM, Hyman LJ, 1988. Effect of latent infection by Erwinia on yield. Scottish Crop Research Institute Annual Report. Dundee, UK.
  • Pérombelon MCM, Kelman A, 1980. Ecology of the soft rot erwinias. Annual Review of Phytopathology 18, 36187.
  • Pérombelon MCM, Salmond GPC, 1995. Bacterial soft rots. In: Singh US, Singh RP, Kohmoto K, eds. Pathogenesis and Host Specificity in Plant Diseases, Vol. 1. Prokaryotes. Oxford, UK: Pergamon, 120.
  • Pérombelon MCM, van der Wolf JM, 2002. Methods for the Detection and Quantification of Erwinia carotovora subsp. atroseptica (Pectobacterium carotovorum subsp. atrosepticum) on Potatoes: A Laboratory Manual. Invergowrie, UK: Scotish Crop Research Institute: Occasional Publication No. 10.
  • Pérombelon MCM, Fox RA, Lowe R, 1979. Dispersion of Erwinia carotovora in aerosols produced by the haulm pulverization of potato haulm prior to harvest. Phytopathologische Zeitschrift 94, 24960.
  • Pérombelon MCM, Lowe R, Quinn CE, Sells IA, 1980. Contamination of pathogen-free seed potato stocks by Erwinia carotovora during multiplication: results of a six-year monitoring study. Potato Research 23, 41325.
  • Pérombelon MCM, Burnett EM, Melvin JS, Black S, 1989a. Preliminary studies on the control of potato blackleg by a hot water treatment of seed tubers. In: Tjamos EC, Beckman CH, eds. Vascular Wilt Diseases of Plants: Basic Studies and Control. New York, USA: Springer-Verlag: NATO Advanced Science Institutes Series, 55766.
  • Pérombelon MCM, Zutra D, Hyman LJ, Burnett EM, 1989b. Factors affecting potato blackleg development. In: Tjamos EC, Beckmann CH, eds. Proceedings of the NATO Advanced Research Workshop on the Interacton of Genetic and Environmental Factors in the Development of Vascular Wilt Diseases of Plants, Cape Sounion, Greece. Berlin, Germany: Springer-Verlag, 42131.
  • Phipps RH, Park JR, 2002. Environmental benefits of genetically modified crops: global and European perspectives on their ability to reduce pesticide use. Journal of Animal and Feed Sciences 11, 118.
  • Pitman A, Harrow S, Visnovsky S, 2010. Genetic characterisation of Pectobacterium wasabiae causing soft rot disease of potato in New Zealand. European Journal of Plant Pathology 126, 42335.
  • Platero M, Tejerina G, 1976. Calcium nutrition in Phaseolus vulgaris in relation to its resistance to Erwinia carotovora. Journal of Phytopathology 85, 3149.
  • Ranalli P, Bassi F, Ruaro G, Del Re P, Di Candilo M, Mandolino G, 1994. Microtuber and minituber production and field performance compared with normal tubers. Potato Research 37, 38391.
  • Ranganna B, Kushalappa AC, Raghavan GSV, 1997. Ultraviolet irradiance to control dry rot and soft rot of potato in storage. Canadian Journal of Plant Pathology 19, 305.
  • Rangarajan M, Chakravarti BP, 1970. Studies on the survival of corn stalk rot bacteria. Plant and Soil 33, 1404.
  • Ravensdale M, Blom TJ, Gracia-Garza JA, Svircev AM, Smith RJ, 2007. Bacteriophages and the control of Erwinia carotovora subsp. carotovora. Canadian Journal of Plant Pathology 29, 12130.
  • Rendulic S, Jagtap P, Rosinus A et al. , 2004. A predator unmasked: life cycle of Bdellovibrio bacteriovorus from a genomic perspective. Science 303, 68992.
  • Reverchon S, Bouillant ML, Salmond G, Nasser W, 1998. Integration of the quorum-sensing system in the regulatory networks controlling virulence factor synthesis in Erwinia chrysanthemi. Molecular Microbiology 29, 140718.
  • Rhodes DJ, Logan C, 1986. Effects of fluorescent pseudomonads on the potato blackleg syndrome. Annals of Applied Biology 108, 5118.
  • Robert-Baudouy J, 1991. Molecular biology of Erwinia: from soft-rot to antileukaemics. Trends in Biotechnology 9, 3259.
  • Robinson K, Foster G, 1987. Control of potato blackleg by tuber pasteurisation: the determination of time-temperature combinations for the inactivation of pectolytic erwinia. Potato Research 30, 1215.
  • Rolot J, Seutin H, 1999. Soilless production of potato minitubers using a hydroponic technique. Potato Research 42, 45769.
  • Ross H, 1986. Potato Breeding Problems and Perspectives. Berlin, Germany: Paul Parey Scientific Publishers, Advances in Plant Breeding series no. 13.
  • Rousselle-Bourgeois F, Priou S, 1995. Screening tuber-bearing Solanum spp. for resistance to soft rot caused by Erwinia carotovora ssp. atroseptica (van Hall) Dye. Potato Research 38, 1118.
  • Samson R, Legendre JB, Christen R, Fischer-Le Saux M, Achouak W, Gardan L, 2005. Transfer of Pectobacterium chrysanthemi (Burkholder et al. 1953) Brenner et al. 1973 and Brenneria paradisiaca to the genus Dickeya gen. nov. as Dickeya chrysanthemi comb. nov. and Dickeya paradisiaca comb. nov. and delineation of four novel species, Dickeya dadantii sp. nov., Dickeya dianthicola sp. nov., Dickeya dieffenbachiae sp. nov. and Dickeya zeae sp. nov. International Journal of Systematic and Evolutionary Microbiology 55, 141527.
  • Schouten HJ, Krens FA, Jacobsen E, 2006. Cisgenic plants are similar to traditionally bred plants. EMBO Reports 7, 7503.
  • Serrano C, Arce-Johnson P, Torres H et al. , 2000. Expression of the chicken lysozyme gene in potato enhances resistance to infection by Erwinia carotovora subsp. atroseptica. American Journal of Potato Research 77, 1919.
  • Sharga BM, Lyon GD, 1998. Bacillus subtilis BS 107 as an antagonist of potato blackleg and soft rot bacteria. Canadian Journal of Microbiology 44, 77783.
  • Shirsat S, Thomas P, Nair P, 1991. Evaluation of treatments with hot water, chemicals and ventilated containers to reduce microbial spoilage in irradiated potatoes. Potato Research 34, 22731.
  • Sławiak M, Beckhoven JRCM, Speksnijder AGCL, Czajkowski R, Grabe G, van der Wolf JM, 2009. Biochemical and genetical analysis reveal a new clade of biovar 3 Dickeya spp. strains isolated from potato in Europe. European Journal of Plant Pathology 125, 24561.
  • van Soest L, 1983. Evaluation and distribution of important properties in the German-Netherlands potato collection. Potato Research 26, 10921.
  • Stanghellini ME, 1982. Soft rotting bacteria in the rhizosphere. In: Mount MS, Lacy GH, eds. Phytopathogenic Prokaryotes, vol 1. New York, USA: Academic Press, 24961.
  • Starr MP, Chatterjee AK, 1972. The genus Erwinia: enterobacteria pathogenic to plants and animals. Annual Review of Microbiology 26, 389426.
  • Stead D, 1999. Bacterial diseases of potato: relevance to in vitro potato seed production. Potato Research 42, 44956.
  • Stolp H, Starr MP, 1963. Bdellovibrio bacteriovorus gen. et sp. n., a predatory, ectoparasitic, and bacteriolytic microorganism. Antonie van Leeuwenhoek 29, 21748.
  • Toth IK, Bell KS, Holeva MC, Birch PRJ, 2003. Soft rot erwiniae: from genes to genomes. Molecular Plant Pathology 4, 1730.
  • Toth IK, Pritchard L, Birch PRJ, 2006. Comparative genomics reveals what makes an enterobacterial plant pathogen. Annual Review of Phytopathology 44, 30536.
  • Toth IK, van der Wolf JM, Saddler G et al. , 2011. Dickeya species: an emerging problem for potato production in Europe. Plant Pathology 60, 38599.
  • Trias R, Baneras L, Montesinos E, Badosa E, 2008. Lactic acid bacteria from fresh fruit and vegetables as biocontrol agents of phytopathogenic bacteria and fungi. International Microbiology 11, 2316.
  • Tsror L, Nachimias A, Livescu L, Pérombelon MCM, Barak Z, 1990. Erwinia carotovora subsp. atroseptica infection promotes verticillium wilt development in potato in Israel. Potato Research 33, 311.
  • Tsror L, Erlich O, Lebiush S et al. , 2008. Assessment of recent outbreaks of Dickeya sp. (syn. Erwinia chrysanthemi) slow wilt in potato crops in Israel. European Journal of Plant Pathology 123, 31120.
  • Tzeng K-C, McGuire R, Kelman A, 1990. Resistance of tubers from different potato cultivars to soft rot caused by Erwinia carotovora subsp. atroseptica. American Journal of Potato Research 67, 287305.
  • Van Der Zaag D, Horton D, 1983. Potato production and utilization in world perspective with special reference to the tropics and sub-tropics. Potato Research 26, 32362.
  • Varon M, Zeigler BP, 1978. Bacterial predator-prey interaction at low prey density. Applied and Environmental Microbiology 36, 117.
  • Velvis H, van der Wolf J, 2009. Project Bacterievrije Pootgoedteelt, een Uitdaging! 2005–2008. Eindrapportage van het Onderzoek. Netherlands: HZPC and Plant Research International.
  • van Vuurde JWL, de Vries PM, 1994. Population dynamics of Erwinia carotovora subsp. atroseptica on the surface of intact and wounded seed potatoes during storage. Journal of Applied Bacteriology 76, 56875.
  • Wale SJ, Robinson K, 1986. Evaluation of large scale hot water dipping and forced ventilation of seed potatoes to reduce tuber contamination with blackleg bacteria (Erwinia spp.). British Crop Protection Conference – Pests and Diseases, 113743.
  • Wale SJ, Robertson A, Robinson K, Foster G, 1986. Studies on the relationship of contamination of seed potato tubers by Erwinia spp. to blackleg incidence and large-scale hot water dipping to reduce contamination. Aspects of Applied Biology 13, 28591.
  • Watanabe K, Orrillo M, Iwanaga M, Ortiz R, Freyre R, Perez S, 1994. Diploid potato germplasm derived from wild and land race genetic resources. American Journal of Potato Research 71, 599604.
  • Weber J, Olsen O, Wegener C, von Wettstein D, 1996. Digalacturonates from pectin degradation induce tissue responses against potato soft rot. Physiological and Molecular Plant Pathology 48, 389401.
  • Wegener C, 2001. Transgenic potatoes expressing an Erwinia pectate lyase gene—results of a 4-year field experiment. Potato Research 44, 40110.
  • Wegener C, Bartling S, Weber J, Hoffman-Benning S, Olsen O, 1996. Transgenic potatoes that express an Erwinia pectate lyase isoenzyme. Progress in Biotechnology 14, 38597.
  • Weller DM, 1988. Biological control of soilborne plant pathogens in the rhizosphere with bacteria. Annual Review of Phytopathology 26, 379407.
  • Wiersema SG, 1986. A method of producing seed tubers from true potato seed. Potato Research 29, 22537.
  • van der Wolf JM, De Boer SH, 2007. Bacterial pathogens of potato. In: Vreugdenhil D, ed. Potato Biology and Biotechnology, Advances and Perspectives. Oxford, UK: Elsevier, 595619.
  • Wyatt G, Lund B, 1981. The effect of antibacterial products on bacterial soft rot of potatoes. Potato Research 24, 31529.
  • Zimnoch-Guzowska E, Łojkowska E, 1993. Resistance to Erwinia spp. in diploid potato with a high starch content. Potato Research 36, 17782.
  • Zimnoch-Guzowska E, Lebecka R, Pietrak J, 1999. Soft rot and blackleg reactions in diploid potato hybrids inoculated with Erwinia spp. American Journal of Potato Research 76, 199207.