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Mapping of quantitative adult plant field resistance to leaf rust and stripe rust in two European winter wheat populations reveals co-location of three QTL conferring resistance to both rust pathogens |
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| Authors: | Maria Buerstmayr Lydia Matiasch Fabio Mascher Gyula Vida Marianna Ittu Olivier Robert Sarah Holdgate Kerstin Flath Anton Neumayer Hermann Buerstmayr |
| Institution: | 1. Department for Agrobiotechnology Tulln, BOKU-University of Natural Resources and Life Sciences Vienna, Konrad Lorenz Str. 20, Tulln, 3430, Austria 2. Agroscope Changins-W?denswil Research Station ACW, 1260, Nyon, Switzerland 3. Agricultural Research Institute of the Hungarian Academy of Sciences, Martonvásár, 2462, Hungary 4. National Agricultural Research Development Institute Fundulea, 915200, Fundulea, Romania 5. Bioplante, 3 Rue Florimond Desprez, BP41, 59242, Cappelle-en- Pévèle, France 6. RAGT Seeds, Grange Road, Ickleton, Essex, CB10 1TA, UK 9. NIAB, Huntingdon Road, Cambridge, CB3 0LE, UK 7. Julius Kühn Institute, Federal Research Centre for Cultivated Plants, 14532, Kleinmachnow, Germany 8. SAATZUCHT DONAU GmbH & CoKG, Reichersberg, 4981, Austria |
| Abstract: | Key messageWe detected several, most likely novel QTL for adult plant resistance to rusts. Notably three QTL improved resistance to leaf rust and stripe rust simultaneously indicating broad spectrum resistance QTL.AbstractThe rusts of wheat (Puccinia spp.) are destructive fungal wheat diseases. The deployment of resistant cultivars plays a central role in integrated rust disease management. Durability of resistance would be preferred, but is difficult to analyse. The Austrian winter wheat cultivar Capo was released in the 1989 and grown on a large acreage during more than two decades and maintained a good level of quantitative leaf rust and stripe rust resistance. Two bi-parental mapping populations: Capo × Arina and Capo × Furore were tested in multiple environments for severity of leaf rust and stripe rust at the adult plant stage in replicated field experiments. Quantitative trait loci associated with leaf rust and stripe rust severity were mapped using DArT and SSR markers. Five QTL were detected in multiple environments associated with resistance to leaf rust designated as QLr.ifa-2AL, QLr.ifa-2BL, QLr.ifa-2BS, QLr.ifa-3BS, and QLr.ifa-5BL, and five for resistance to stripe rust QYr.ifa-2AL, QYr.ifa-2BL, QYr.ifa-3AS, QYr.ifa-3BS, and QYr.ifa-5A. For all QTL apart from two (QYr.ifa-3AS, QLr.ifa-5BL) Capo contributed the resistance improving allele. The leaf rust and stripe rust resistance QTL on 2AL, 2BL and 3BS mapped to the same chromosome positions, indicating either closely linked genes or pleiotropic gene action. These three multiple disease resistance QTL (QLr.ifa-2AL/QYr.ifa-2AL, QLr.ifa.2BL/QYr.ifa-2BL, QLr.ifa-3BS/QYr.ifa.3BS) potentially contribute novel resistance sources for stripe rust and leaf rust. The long-lasting resistance of Capo apparently rests upon a combination of several genes. The described germplasm, QTL and markers are applicable for simultaneous resistance improvement against leaf rust and stripe rust. |
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