Abstract
Seedlings of two hundred and thirty-three accessions of the tomato collection maintained at the Centro Agronómico Tropical de Investigación y Enseñanza, Turrialba, Costa Rica (CATIE) and 7 cultivars used as controls were evaluated for host-plant resistance to 4 virulent strains of Pseudomonas solanacearum representing race 1 biovars 1 and 3. In general, biovar 3 strains wilted seedlings faster than biovar 1 strains but, after 20 days post-inoculation, no significant differences were noted in susceptible control ratings. Significant differences for disease index were noted, but no line with complete resistance was found. For the USA biovar 1 strain UW-25, only 5 accessions, CATIE 17331, 17334, 17349, 17739, 17740, and 2 of the control cultivars, ‘Hawaii 7998’ and ‘UC-82B’ showed some degree of resistance. Conversely, both the frequency and the degree of resistance were high for Costa Rican biovar 1 strain UW-256. For biovar 3, the Costa Rican strain UW-255 was more virulent than the Peruvian strain UW-130. Eight CATIE accessions, 5539, 17331, 17333, 17334, 17345, 17349, 17742, and MIP-CH1, were as resistant as the resistant control ‘Hawaii 7998’ to 3 strains and accession 17740 was as resistant as ‘Hawaii 7998’ to all 4 strains.
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Acosta, JC, Gilbert, JC & Quiñon, VL (1964) Heritability of bacterial wilt resistance in tomato. Proc Am Soc Hortic Sci 84:455–462
Aragaki, M & Quiñon, VL (1965) Bacterial wilt of ornamental gingers (Hedychium ssp.) caused by Pseudomonas solanacearum. Plant Dis Rep 49:378–379
AVRDC (1989) 1989 Progress report. Asian Vegetable Research and Development Center, Taiwan
Bosch, SE, Boelena, BH, Serfontein, JJ & Swaneopoel, AE (1990) ‘Rotam 4’, a multiple disease resistant fresh-market tomato. HortScience 20(3):458–459
Bosch, SE, Louw, AJ & Aucamp, E (1985) ‘Rodade’ bacterial resistant tomato. HortScience 20(3):458–459
Buddenhagen, IW & Kelman, A (1964) Biological and physiological aspects of bacterial wilt caused by Pseudomonas solanacearum. Annu Rev Phytopathol 2:203–230
Buddenhagen, IW, Sequeira, L & Kelman, A (1962) Designation of races in Pseudomonas solanacearum. Phytopathol 52:726 (Abst.)
CATIE (1990) Guía para el manejo integrado de plagas del cultivo de tomate. Centro Agronómico Tropical de Investigación y Enseãnza, CATIE. Proyecto Regional de Manejo Integrado de Plagas. Serie Técnica. Informe Técnico/CATIE N 151. Turrialba, Costa Rica
Cook, D, Barlow, E & Sequeira, L (1989) Genetic diversity of Pseudomonas solanacearum: detection of restriction fragment length polymorphisms with DNA probes that specify virulence and the hypersenstive response. Mol Plant-Microbe Interact 2(3):113–121
Cook, D, Barlow, E & Sequeira, L (1990) DNA probes as tools for the study of host-pathogen evolution: the example of Pseudomonas solanacearu: In: Hennecke, H & Verna, DP (eds) Advances in Molecular Genetics of Plant-Microbe Interactions. Proceedings of the 5th International Symposium on the Molecular Genetics of Plant-microbe Interactions, pp 103–108. Kluwer Academic Publishers, London, UK
De Leon, G (1987) Proceso para la obtención de resistencia de tomate a Pseudomonas solanacearum en Panamá. Manejo Integrado Plagas 5:11–15
Gomez, KA & Gomez, AA (1984) Statistical procedures for agricultural research (2nd ed). An International Rice Research Institute Book. John Wiley and Sons Inc., New York, USA
González, WG & Summers, WL (1995) A comparison of Pseudomonas solanacearum resistant tomato cultivars as hybrid parents. J Am Hort Sci 120:891–895.
Grimault, V & Prior, P (1993) Bacterial wilt resistance in tomato associated with tolerance of vascular tissues to Pseudomonas solanacearum. Plant Pathol 42:589–594
Haque, MA & Echandi, E (1984) Characteristics of strains of Pseudomonas solanacearum from tobacco in North Carolina. Phytopathology 74:858 (Abst.)
Hayward, AC (1964) Characteristics of Pseudomonas solanacearum. J Appl Bacteriol 27(2):265–277
He, LY, Sequeira, L & Kelman, A (1983) Characteristics of strains of Pseudomonas solanacearum from China. Plant Dis 67(12):1357–1361
Henderson WR & Jenkins SF (1977) ‘Venus’ and ‘Saturn’: two new tomato varieties combining desirable horticultural features with southern bacterial wilt resistance. North Carolina Agric Exp Sta Res Bull 444
Jaworski, CA, Phatak, SC, Ghate, SR, Gitaitis, RD & Widrlechner, MP (1987) GA 1565–2–4 BWT, GA 219–1–2 BWT, GA 1095–1–4 BWT, and GA 1405–1–2 BW bacterial wilt-tolerant tomato. HortScience 22(2):234–235
Kelman A (1953) the bacterial wilt caused by Pseudomonas solanacearum. North Carolina Agric Exp Sta Tech Bull 99
Kelman, A (1954) The relationship of pathogencity in Pseudomonas solanacearum to colony appearance on tetrazolium medium. Phytopathology 44:693–695
Lasso, R (1974) Desarrollo de variedades de tomate industrial tolerantes a Pseudomonas solanacearum mediante cruza interespecífica. Fitotec Latinoam (Ven) 10(1):36–51
McLaughlin, RL & Sequeira, L (1989) Phenotypic diversity in strains of Pseudomonas solanacearum isolated from a single potato field in northeastern Florida. Plant Dis 73:960–964
Mew, TW & Ho, WC (1977) Effect of soil temperature on resistance of tomato cultivars to bacterial wilt. Phytopathology 67:909–911
Peterson, RA, Inch, AJ, Herrington, ME & Saranah, J (1983) ‘Scorpio’: a tomato resistant to bacterial wilt biovar 3. Aust Plant Pathol 12:8–10
Rouamba, A, Laterrot, H & Moretti, A (1988) A case of relation between resistances to Pseudomonas solanacearum and Verticillium pathotype 2. TGC Report 38:43–44
Steel, RGD & Torrie, JH (1980) Principles and Procedures of Statistics. A Biometrical Approach. 2nd ed. McGraw-Hill Publishing Co., New York, USA
Stevens MA, Dickinson GL & Aguirre MS (1976) ‘UC-82’ a high yielding processing tomato. University of California, Davis, USA Veget Crops Ser 183
Stolberg A, Bustamante E, Jiménez JM & González WG (1986) Caracterización y evaluación de 171 introducciones de tomate (Lycopersicon ssp.) contra patógenos de importancia enconómica en Costa Rica. In: PCCMCA (ed) Resúmenes XXXIII Reunion Anual PCCMCA, p 258. Guatemala
Valdez, RB (1985) Bacterial wilt in the Philippines. Proceeding and International Workshop. PCARRD, Los Baños Philippines. ACIAR Proc 13:49–56
Velupillai, M & Stall, RE (1985) Variation among strains of Pseudomonas solanacearum from Florida. Proc Fl State Hortic Soc 97:209–213
Williams, PH (1988) Screening for resistance to diseases. In: Brown, AHD, Frankel, OH, Marshall, DR & Williams, JT (eds) The Use of Plant Genetic Resources, pp 336–362. Cambridge University Press, New York, USA
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Journal Paper No. J-16011 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project 3123.
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González, W.G., Summers, W.L. Host-plant resistance to Pseudomonas solanacearum in tomato germplasm. Genet Resour Crop Evol 43, 569–574 (1996). https://doi.org/10.1007/BF00138833
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DOI: https://doi.org/10.1007/BF00138833