Virulence of Puccinia triticina in Turkey and leaf rust resistance in Turkish wheat cultivars
详细信息    查看全文
  • 作者:J. A. Kolmer (1)
    Z. Mert (2)
    K. Akan (2)
    L. Demir (3)
    R. ünsal (4)
    C. ?ermet (5)
    M. Keser (6)
    B. Akin (7)
    A. Morgounov (7)
  • 关键词:Gene postulation ; Brown rust
  • 刊名:European Journal of Plant Pathology
  • 出版年:2013
  • 出版时间:April 2013
  • 年:2013
  • 卷:135
  • 期:4
  • 页码:703-716
  • 全文大小:191KB
  • 参考文献:1. Aliev, J., Gandilian, P., Naskidashvili, P., & Morgounov, A. (2001). Caucasian Wheat Pool. In A. Bonjean & W. Angus (Eds.), / The World Wheat Book A History of Wheat Breeding (pp. 831-48). Paris: Lavoisier.
    2. Appel, J. A., DeWolf, E., Bockus, W. W., & Bowden, R. L. (2007). Preliminary 2007 Kansas wheat disease loss estimates. Kansas Cooperative Plant Disease Survey Report., Kansas Dept of Agriculture. Retrieved from http://www.ksda.gov/plant_protection/content/183/cid/611.
    3. Dyck, P. L. (1993). The inheritance of leaf rust resistance in the wheat cultivar Pasqua. / Canadian Journal of Plant Science, 73, 903-06. CrossRef
    4. Goyeau, H., & Lannou, C. (2011). Specific resistance to leaf rust expressed at the seedling stage in cultivars grown in France from 1983 to 2007. / Euphytica, 187, 45-2. CrossRef
    5. Goyeau, H., Park, R., Schaeffer, B., & Lannou, C. (2006). Distribution of pathotypes with regard to host cultivars and French wheat leaf rust populations. / Phytopathology, 96, 264-73. CrossRef
    6. Helguera, M., Kahn, I. A., Kolmer, J. A., Lijavetzki, D., Zhong-qi, L., & Dubcovsky, J. (2003). PCR assays for the / Lr37-Yr17-Sr38 cluster of rust resistance genes and their use to develop isogenic hard red spring wheat lines. / Crop Science, 43, 1839-847. CrossRef
    7. Herrera-Foessel, S. A., Singh, R. P., Huera-Espino, J., Rosewarne, G. M., Periyannan, K., Viccars, L., Calvo-Salazar, V., Lan, C., & Lagudah, E. S. (2012). / Lr68: a new gene conferring slow rusting resistance to leaf rust in wheat. / Theoretical and Applied Genetics, 124, 1475-486. CrossRef
    8. Kolmer, J. A., Singh, R. P., Garvin, D. F., Viccars, L., William, H. M., Huerta-Espino, J. H., Obonnaya, F. C., Raman, H., Orford, S., Bariana, H. S., & Lagudah, E. S. (2008). Analysis of the / Lr34/Yr18 rust resistance region in wheat germplasm. / Crop Science, 48, 1841-852. CrossRef
    9. Kolmer, J., Long, D. L., & Hughes, M. E. (2010). Physiologic specialization of / Puccina triticina on wheat in the United States in 2008. / Plant Disease, 94, 775-80. CrossRef
    10. Kolmer, J. A., Hanzalova, A., Goyeau, H., Bayles, R., & Morgounov, A. (2012). Genetic differentiation of the wheat leaf rust fungus / Puccinia triticina in Europe. / Plant Patholology. doi:10.1111/j.1365-3059.2012.0226.x . in press.
    11. Lagudah, E. S., Krattinger, S. G., Herrera-Foessel, S. A., Singh, R. P., Huerta-Espino, J., Spielmeyer, W., Brown-Guedira, G., Selter, L., & Keller, B. (2009). Gene-specific markers for the wheat gene / Lr34/Yr18 which confers resistance to multiple fungal pathogens. / Theoretical and Applied Genetics, 119, 889-98. CrossRef
    12. Long, D. L., & Kolmer, J. A. (1989). A North American system of nomenclature for / Puccinia recondita f. sp. / tritici. / Phytopathology, 79, 525-29. CrossRef
    13. McIntosh, R. A., Wellings, C. R., & Park, R. F. (1995). / Wheat Rusts: an Altas of Resistance Genes. Dordrecht: CSIRO Australia, Kluwer. CrossRef
    14. Morgounov, A., Tufan, H. A., Sharma, R., Akin, B., Bagci, A., Braun, H. J., Kaya, Y., Keser, M., Payne, T. S., Sonder, K., & McIntosh, R. A. (2012). Global incidence of wheat rust and powderly mildew during 1969-010 and durability of resistance of winter wheat variety Bezostaya 1. / European Journal of Plant Pathology, 132, 232-40. CrossRef
    15. Park, R. F., Goyeau, H., Felsenstein, G., Bartos, P., & Zeller, F. J. (2001). Regional phenotypic diversity of / Puccinia triticina and wheat host resistance in western Europe, 1995. / Euphtyica, 122, 113-27. CrossRef
    16. Peterson, R. F., Campbell, A. B., & Hannah, A. E. (1948). A diagrammatic scale for estimating rust intensity on leaves and stems of cereals. / Canadian Journal of Research, 26(Section C), 496-00. CrossRef
    17. Roelfs, A. P., Singh, R. P., & Saari, E. E. (1992). / Rust Diseases of Wheat: Concepts and methods of disease management. Mexico: D. F. CIMMYT.
    18. Saari, E. E., & Prescott, J. M. (1985). World distribution in relation to economic losses. In A. P. Roelfs & W. R. Bushnell (Eds.), / The cereal rusts vol 2, diseases, distribution, epidemiology, and control (pp. 259-98). Orlando: Academic.
    19. William, M., Singh, R. P., Huerta-Espino, J., Islas, O., & Hoisington, D. (2003). Molecular marker mapping of leaf rust resistance gene / Lr46 and its association with stripe rust resistance gene / Yr29 in wheat. / Phytopathology, 93, 153-59. CrossRef
  • 作者单位:J. A. Kolmer (1)
    Z. Mert (2)
    K. Akan (2)
    L. Demir (3)
    R. ünsal (4)
    C. ?ermet (5)
    M. Keser (6)
    B. Akin (7)
    A. Morgounov (7)

    1. USDA-ARS Cereal Disease Laboratory, St. Paul, MN, 55113, USA
    2. The Central Research Institute for Field Crops, Sehit Cem Ersever Cd., No. 9-11, Yenimahalle, Ankara, Turkey
    3. Maize Research Station, P.O.B. 325, Adapazar?, Turkey
    4. Aegean Agriculture Research Institute, P.O.B. 9, Menemen, ?zmir, Turkey
    5. Black Sea Agriculture Research Institute, P.O.B. 39, Samsun, Turkey
    6. ICARDA, PK 39 Emek, 06511, Ankara, Turkey
    7. CIMMYT, PK 39 Emek, 06511, Ankara, Turkey
  • ISSN:1573-8469
文摘
Leaf rust caused by Puccinia triticina is a common disease on wheat in the coastal regions of Turkey. Collections of P. triticina from infected wheat leaves were obtained from the main wheat production zones of Turkey in 2009 and 2010. A total of 104 single uredinial isolates were tested for virulence on 20 lines of Thatcher wheat that differ for single leaf rust resistance genes. Forty-four different virulence phenotypes were identified over both years. Four phenotypes were found in both years. Phenotype FHPTQ found in 2009, with virulence to genes Lr2c, Lr3, Lr16, Lr26, Lr3ka, Lr17a, Lr30, LrB, Lr10, Lr14a, Lr18, Lr3bg, and Lr14b, was the most common phenotype at 15.4?% of the total isolates. Forty-three winter and spring wheat cultivars from Turkey were tested as seedlings with 13 different P. triticina virulence phenotypes from Canada, the US and Turkey. The infection types on the cultivars were compared with infection types on the Thatcher near isogenic lines to postulate the presence of seedling leaf rust resistance genes in the cultivars. Resistance genes Lr1, Lr3a, Lr10, Lr14a, Lr17a, Lr20, Lr23, and Lr26 were postulated to be present in the Turkish wheat cultivars. DNA of the wheat cultivars was tested with PCR markers to determine the presence of the adult plant resistance genes Lr34 and Lr37. Marker data indicated the presence of Lr34 in 20 cultivars and Lr37 in three cultivars. Field plot evaluations of the wheat cultivars indicated that no single Lr gene conditioned highly effective leaf rust resistance. Resistant cultivars varied for combinations of seedling and adult plant resistance genes.
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via email.