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Evaluation of Central Asian wheat germplasm for stripe rust resistance

Published online by Cambridge University Press:  03 May 2017

Alma Kokhmetova*
Affiliation:
Institute of Plant Biology and Biotechnology, Almaty, Kazakhstan
Ram C. Sharma
Affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA), Tashkent, Uzbekistan
Shynbolat Rsaliyev
Affiliation:
Research Institute for Biological Safety Problems, Zhambyl region, Gvardeysky, Kazakhstan
Kanat Galymbek
Affiliation:
Institute of Plant Biology and Biotechnology, Almaty, Kazakhstan
Kanagat Baymagambetova
Affiliation:
Kazakh Scientific-Research Institute of Farming, Almalybak, Kazakhstan
Zafar Ziyaev
Affiliation:
Uzbek Research Institute of Plant Industry, Kibray, Uzbekistan
Alexey Morgounov
Affiliation:
International Maize and Wheat Improvement Center (CIMMYT), Ankara, Turkey
*
*Corresponding author. E-mail: [email protected]

Abstract

Stripe rust, caused by Puccinia striiformis f.sp. tritici (Pst), is an important disease of winter wheat in Central Asia. Stripe rust races contain diverse virulence/avirulence patterns and change rapidly. Therefore the objectives of this research were to: (i) examine current pathotype variability of Pst races collected from Kazakhstan and Uzbekistan and (ii) evaluate stripe rust resistance in leading cultivars and advanced breeding lines targeted to those regions. Analyses of 152 Pst samples showed diverse virulence patterns with avirulence to Yr5, Yr10 and Yr15 being common. Most of identified races are among the rare. Analysis of a mixed Pst population showed 10 distinct pathotypes with frequencies ranged from 1.2 to 8.7%. The virulence patterns ranged from least ‘31–1.5’ and X-1.5 to highly virulent ‘86 + E16’. Seedling evaluation of 62 genotypes using the 10 pathotypes showed variations for resistance. Bunyodkor and Barhayot showed resistance to all pathotypes. Five Yr genes were postulated. Yr1 in KR12-5075, and Yr6 in KR11-03 and KR12-5003 were postulated. Yr5 combined with Yr10 and Yr15 genes were determined in Bunyodkor. The wheat genotypes also showed different levels of resistance in adult plant stage under field conditions. Twenty genotypes showed <20% severity in both Kazakhstan and Uzbekistan. The disease severity on several genotypes differed in this countries, suggesting different Pst populations in the two countries. Several resistant genotypes were identified, which should be further evaluated for release as new varieties or used in breeding programmes. Two resistant lines from this study were identified as new varieties in Georgia and Uzbekistan.

Type
Research Article
Copyright
Copyright © NIAB 2017 

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References

Absattarova, A, Baboev, S, Bulatova, K, Karabayev, M, Koishibayev, M, Kokhmetova, A, Kuklacheva, V, Morgounov, A, Rsaliev, S, Sarbayev, A, Urazaliev, R, Yessimbekova, M and Wellings, CR (2002) Improvement of wheat yellow rust resistance in Kazakhstan and Uzbekistan through sub-regional co-operation. In: Johnson, R, Yahyaoui, A, Wellings, C, Saidi, A, Ketata, H (ed.) Meeting the Challenge of Yellow Rust in Cereal Crops. Aleppo: ICARDA, pp. 3441.Google Scholar
Chen, XM (2005) Epidemiology and control of stripe rust (Puccinia striiformis f.sp. tritici) on wheat. Canadian Journal of Plant Pathology 27: 314337. doi:10.1080/07060660509507230 CrossRefGoogle Scholar
Gassner, G and Straib, W (1929) Experimentelle Untersuchungen uber das Verhaltender Weizensorten gegen Puccinia glumarum . Phytopathology Zeitschrift 1(3): 215275.Google Scholar
Green, GJ, Knott, DR, Watson, IA and Pugsley, AT (1960) Seedling reactions to stem rust of lines of Marquis wheat with substituted genes for rust resistance. Canadian Journal of Plant Science 40: 524538. doi: 10.4141/cjps60-069 CrossRefGoogle Scholar
Johnson, R, Stubbs, RW, Fuchs, E and Chamberlain, NH (1972) Nomenclature for physiological races of Puccinia striiformis infecting wheat. Transactions of the British Mycological Society 58: 475480.CrossRefGoogle Scholar
Kokhmetova, A, Chen, XM and Rsaliyev, S (2010) Identification of Puccinia striiformis f.sp. tritici, characterization of wheat cultivars for resistance, and inheritance of resistance to stripe rust in Kazakhstan wheat cultivars. The Asian and Australasian Journal of Plant Science and Biotechnology 4: 6470.Google Scholar
McIntosh, RA, Wellings, CR and Park, RF (1995) Wheat Rusts: An Atlas of Resistant Genes. Australia: CSIRO.Google Scholar
Morgounov, A, Yessimbekova, M, Rsaliyev, S, Boboev, S, Mumindjanov, H and Djunusova, M (2004) High-yielding winter wheat varieties resistant to yellow and leaf rust in Central Asia. In: 11th International Cereal Rust and Powdery Mildews Conference, 22–27 August 2004. Norwich, United Kingdom: John Innes Centre, p. 121. Cereal Rusts and Powdery Mildews Bulletin, Abstr. Available from http://www.crpmb.org/icrpmc11/abstracts.htm [accessed 8 July 2005].Google Scholar
Morgounov, A, Tufan, HA, Sharma, R, Akin, B, Bagci, A, Braun, HJ, Kaya, Y, Keser, M, Payne, TS, Sonder, K and McIntosh, R (2013) Global incidence of wheat rusts and powdery mildew during 1969–2010 and durability of resistance of winter wheat variety Bezostaya 1. European Journal of Plant Pathology 132: 323340.CrossRefGoogle Scholar
Nazari, K, Hodson, D, Yahyaoui, A, Singh, R, Wellings, CR, Afshari, F, Rattu, AR, Ramdani, A, Murat, S, Ibrahimov, E, Haque, N and Sailan, A (2009) Field based pathogenicity survey and likely migration pattern of wheat yellow rust in CWANA. In: Yahyaoui, A, Rajaram, S (eds) Abstracts 4th Regional Yellow Rust Conference for Central and West Asia and North Africa. Aleppo, Syria: ICARDA, p. 6.Google Scholar
Roelfs, AP, Singh, RP and Saari, EE (1992) Rust Diseases of Wheat: Concept and Methods of Disease Management. Mexico, DF: CIMMYT.Google Scholar
Sharma, RC, Amanov, A, Khalikulov, Z, Martius, C, Ziayaev, Z and Alikulov, S (2009) Wheat yellow rust epidemics in Uzbekistan in 2009. In: Yahyaoui, A,Rajaram, S (eds) Abstracts 4th Regional Yellow Rust Conference for Central and West Asia and North Africa. Aleppo, Syria: ICARDA, p. 8.Google Scholar
Sharma, RC, Rajaram, S, Alikulov, S, Ziyaev, Z, Hazratkulova, S, Khodarahami, M, Nazeri, M, Belen, S, Khalikulov, Z, Mosaad, M, Kaya, Y, Keser, M, Eshonova, Z, Kokhmetova, A, Ahmadov, M and Mougounov, A (2013) Improved winter wheat germplasm for Central and West Asia. Euphytica 190: 1931.Google Scholar
Sharma, RC, Morgounov, A, Akin, B, Bespalova, L, Lang, L, Litvinenko, M, Mustatea, P, Ozturk, I, Postolatiy, A, Rajaram, S and Braun, HJ (2014) Winter wheat East European Regional Yield Trial: identification of superior genotypes and characterization of environments. Crop Science 54: 24692480. doi: 10.2135/cropsci2014.01.0028 CrossRefGoogle Scholar
Sharma, RC, Nazari, K, Amanov, A, Ziyaev, Z and Jalilov, AU (2016) Reduction of winter wheat yield losses caused by stripe rust through fungicide management. Journal of Phytopathology 164: 671677. doi: 10.1111/jph.12490 Google Scholar
Sharma-Poudyal, D, Chen, XM, Wan, A, Zhan, G, Kang, ZS, Cao, SQ, Jin, SL, Morgounov, A, Akin, B, Mert, Z, Shah, SJA, Bux, H, Ashraf, M, Sharma, RC, Madariaga, R, Puri, KD, Wellings, C, Xi, KQ, Manninger, K, Wanyera, R, Ganzález, MI, Koyda, M, Sanin, S and Patzek, LJ (2013) Virulence characterization of international collections of the wheat stripe rust pathogen, Puccinia striiformis f. sp. tritici . Plant Disease 97: 379386. doi: org/10.1094/PDIS-01-12-0078-RE CrossRefGoogle ScholarPubMed
Yahyaoui, A, Hakim, MS, Nazari, K, Torabi, M and Wellings, CR (2002) Yellow (stripe) rust in Central and Western Asia. In: Johnson, R, Yahyaoui, A, Wellings, C, Saidi, A, Ketata, H (eds) Meeting the Challenge of Yellow Rust in Cereal Crops. Aleppo, Syria: ICARDA, pp. 6977.Google Scholar
Yan, W, Kang, MS (2002) GGE Biplot Analysis: A Graphical Tool for Breeders, Geneticists, and Agronomists. New York, USA: CRC Press.Google Scholar
Yan, W, Hunt, LA, Sheng, Q and Szlavnics, Z (2000) Cultivar evaluation and mega-environment investigation based on the GGE biplot. Crop Science 40: 597605.Google Scholar
Ziyaev, ZM, Sharma, RC, Nazari, K, Morgounov, AI, Amanov, AA, Ziyadullaev, ZF, Khalikulov, ZI and Alikulov, SM (2011) Improving wheat stripe rust resistance in Central Asia and the Caucasus. Euphytica 179: 197207. doi: 10.1007/s10681-010-0305-x (http://wheatrust.org/news-and-events/news-item/artikel/new-races-caused-epidemics-of-yellow-rust-in-europe-east-africa-and-central-asia-in-2016/)Google Scholar
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