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1	Molecular diagnostics for cereal rusts Humphreys, Emma J. January 2002 (has links) No description available. 633 Puccinia striiformis
2	Genetics of resistance to yellow rust in bread wheats derived from CIMMYT and other sources Bimb, Hari Prasad January 1996 (has links) No description available. 630 Puccinia striiformis
3	Genetic factors that provide adult plant resistance against Puccinia striiformis f. sp. tritici to wheat cultivar 'Stephens' in a multilocation analysis / Vazquez, Maria Dolores. January 1900 (has links) Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 58-68). Also available on the World Wide Web. Wheat Puccinia striiformis Stripe rust
4	Population structure of Puccinia striiformis f. sp. tritici, the cause of wheat stripe rust, in western Canada 2015 March 1900 (has links) Stripe rust of wheat, caused by Puccinia striiformis f. sp. tritici (Pst), is one of the most devastating diseases of wheat worldwide. Selection pressure on the pathogen population may result in a rapid shift to races virulent on wheat genotypes with specific resistance genes. For successful stripe rust management, it is important to monitor the virulence spectrum of the pathogen to detect new races. The purpose of this research was to survey Saskatchewan fields to determine the prevalence of stripe rust, characterize the race structure of Pst in western Canada and to determine the genotypic diversity of the pathogen population. Race characterization was performed by inoculating 27 near-isogenic wheat lines carrying 28 known resistance genes, four supplemental cultivars and one triticale cultivar with 61 genetically uniform Pst isolates from western Canada. Whole genome sequencing of pathogen isolates was conducted, using the Illumina HiSeq2500 platform and polymorphisms were assessed by single nucleotide polymorphism (SNP) variants. Characterization of Pst isolates identified 33 races of the pathogen. Genes Yr5, Yr15 and YrSP conditioned resistance against all isolates tested and all isolates were virulent on Yr6, Yr7, Yr9, Yr18, Yr28, Yr29 and Yr31. Variation for virulence was observed among isolates on Yr10, Yr24, YrTye, YrSu, Yr3 and Yr4. The analyses of virulence profiles divided the 61 isolates into four sub-populations or groups. These four sub-populations were distinct from each other in terms of virulence spectrum and year of collection. The Pst population in Alberta had greater diversity in terms of virulence compared with the Saskatchewan population. Diversity at the genome level was not observed to be related to geographic location or virulence phenotypes of the isolates. The SNP data revealed four sub-populations in the western Canadian Pst population. Genomic analyses of 48 Pst isolates did not reveal any relationship of the four sub-populations with their origin or year of collection. Signs of recombination were detected in the Pst population in western Canada. Genomic analyses differentiated isolates showing signs of recombination from those that did not.
5	Effect of wheat cultivar mixtures on populations of Puccinia striiformis races DiLeone, Julie A. 28 January 1993 (has links) This study quantified the frequency of simple versus complex races of Puccinia striiformis Westend. in mixtures of wheat cultivars possessing different race-specific resistance genes. A simple race of a pathogen can infect only one component, and a complex race of the pathogen can infect two or more components of an intraspecific plant mixture. The treatments were designed so that the race that was complex changed depending on the host mixture, thus enabling us to observe the influence of pathogen complexity in different host genetic backgrounds. Six cultivar mixtures and one pure stand of winter wheat were inoculated with three races of P. striiformis (CDL 27, CDL 29, and CDL 41) at two locations for two seasons. Potted plants of three winter wheat cultivars (Paha, Tres, and Tyee) that were each susceptible to one of the three races of the pathogen were used to sample the pathogen during the field epidemics. Disease incidence on the differential cultivars was used to calculate the proportion of the three races in each treatment. The specific cultivars included in the mixtures influenced the frequencies of the three races. Increasing the number of virulent races in a mixture reduced the frequency of the complex race relative to the other two races. When two of the races (races 29 and 41) were complex on the same mixture, location had an effect on which of the races was more frequent. When race 29 was the complex race in the mixture, it was more frequent than when race 41 was the complex race. The results suggest that environmental interactions, genetic background of the pathogen race, host composition, and interaction among pathogen races may be as important in determining race frequencies in mixtures as is stabilizing selection sensu Vanderplank (1968). / Graduation date: 1993 Puccinia striiformis Wheat -- Breeding
6	Analysis of genetic resistance to barley stripe rust (Puccinia striiformis f. sp. hordei) Prehn, Doris A. 20 December 1993 (has links) Stripe rust (Puccinia striiformis f. sp. hordei) is a serious disease of barley that can cause up to 70% yield loss in susceptible varieties. The fungus is moving northward, threatening major barley production areas in the US, where most cultivars are susceptible. Fungicides are available for control of stripe rust, but economic and environmental considerations favor genetic resistance. Two stripe rust resistance quantitative trait loci (QTLs) located in chromosomes 4 and 7 have previously been reported. One hundred and ten doubled haploid progeny from a stripe rust susceptible x resistant cross were derived using the Hordeum bulbosum technique and phenotyped for agronomic and malting quality traits in order to assess the importance of linkage drag associated with the mapped stripe rust resistance QTLs. Data on 33 markers were combined with phenotypic data for QTL analysis. A molecular marker-assisted backcross program was implemented to initiate the transfer of the stripe rust resistance loci into susceptible US germplasm. No negative QTLs for agronomic or malting quality traits were detected within or adjacent to the intervals that were targeted for marker-assisted selection. A minor leaf rust resistance QTL, however, was found adjacent to the stripe rust locus on chromosome 7. Linkage drag in this region could operate in favor of the breeder. Epistatic interaction between the two stripe rust resistance QTLs confirms the necessity of introgressing both chromosome intervals. / Graduation date: 1994 Puccinia striiformis Barley -- Genetics
7	Analysis of pathogen virulence and cultivar resistance to yellow rust, Puccinia striiformis f. sp. tritici in Ethiopia Bedane, Woubit Dawit January 2008 (has links) Zugl.: Halle (Saale), Univ., Diss., 2008
8	Evaluation of Management Tools for Stripe Rust in Hard Red Spring Wheat and Assessment of Virulence Phenotypes and Aggressiveness in Puccinia striiformis Isolates Evin, Bryn Anndi January 2019 (has links) Stripe rust, caused by Puccinia striiformis f. sp. tritici (Pst), is an economically important foliar disease of wheat (Triticum aestivum). In the last decade, losses from stripe rust in North Dakota (ND) have increased, peaking at 5% in 2015. Three research studies were conducted to address questions on the pathogen, varietal resistance, and integrated management. The objective of the first study was to (i) identify virulent phenotypes of Pst isolates collected from ND from 2015 to 2017 and assign races, and (ii) determine the effect of temperature on in vitro urediniospore germination, latency, and lesion spread. Across the three years, five races were detected with PSTv 37 being the most common. The highest urediniospore germination occurred at 12oC followed by 16oC. Pst isolates had shorter latency at 21oC and larger lesion spread at 16oC. The objective of the second study was to evaluate seedling resistance and adult plant resistance in the North Dakota State University spring wheat breeding program using races PSTv 37 and PSTv 52. Results from seedling experiments indicated only four and two lines were resistant to PSTv 52 and PSTv 37, respectively. Adult plant resistance experiments were unsuccessful in 2019, and will be conducted again in the future. The objective of the third study was to develop fungicide timing recommendations for wheat rust (stripe and leaf) based on varietal resistance and time of disease onset. Rust developed in five of the eight field trials, and timing of disease onset was categorized by growth stage (tillering, flag leaf, or early-flowering). Results indicated fungicide application timing was influenced by timing of disease onset and varietal resistance. When rust was detected at the tillering growth stage on the susceptible variety, the best time to apply a fungicide was at Feekes 9. When rust was detected at flag leaf or beyond on a susceptible variety, a fungicide application at Feekes 10.51 provided the adequate disease reduction and protection of yield. Results from these research studies provide a better understanding of Pst, determined seedling resistance in the breeding program, and provides field data to refine management recommendations for wheat rusts in ND. / North Dakota Wheat Commission / State Board of Agricultural Research and Education Puccinia striiformis stripe rust wheat rust yellow rust
9	Population biology and invasion history of puccinia striformis F.SP. tritici at worldwide and local scale / Biologie des populations et histoire des invasions de Puccinia striiformis F.SP. Tritici à l’échelle mondiale et locale Sajid, Ali 10 September 2012 (has links) L’étude de la structure génétique des populations d’agents pathogènes à grandes échelles reste très important dans la contexte de nouvelles invasions. Puccinia striiformis f.sp. tritici (PST), responsable de la rouille jaune du blé, constitue un modèle fongique d’intérêt pour les études d’invasion étant donné sa capacité de migration et l’apparition récurrente de nouvelles souches localement. Nous avons analysé la structure des populations de PST à l’échelle mondiale, à l’aide de marqueurs microsatellites sur un échantillon de 409 isolats issus des six continents. Les génotypes ont été répartis en six groupes génétiques correspondant à leur origine géographique. Les analyses indiquent une forte hétérogénéité géographique de diversité génotypique, avec des signatures de recombinaison dans les régions de l'Himalaya (Népal et Pakistan) et à proximité en Chine. La structure reste clonale pour les populations des autres régions. L’assignation des isolats aux différents groupes génétiques a permis de déterminer l’origine des invasions (récentes ou anciennes). Ainsi, les souches agressives adaptées à de hautes températures, répandues de par le monde depuis 2000, sont originaires de Mer rouge-Moyen Orient ; les isolats d'Amérique du Nord et du Sud et d’Australie proviennent d’Europe du Nord-Ouest. Par ailleurs, les isolats d'Afrique du Sud appartiennent au groupe génétique de la zone méditerranéenne. La subdivision marquée entre les différentes zones géographiques indique qu’elles ne sont pas fortement marquées par les migrations récentes. De plus, les voies de migration identifiées attestent de l'importance des activités humaines dans la dispersion de PST à longue distance. La biologie des populations des zones les plus diverses (Chine et Pakistan) a été finement étudiée à l’aide d‘échantillonnages réalisés deux années consécutives. Une population échantillonnée en 2004 et 2005 dans la vallée de Tianshui, (province de Gansu, Chine), s’est révélée très diverse, fortement recombinante et non structurée spatialement et temporellement. L’observation de clones identiques entre les deux échantillons temporels a permis de développer un estimateur du taux de sexualité, i.e. du rôle relatif de la reproduction sexuée par rapport à celui de la reproduction asexuée dans le maintien de la population. Ce taux de reproduction sexuée est estimé à 74 %, alors que la taille efficace de la population est de 1735, ce qui donne les premières indications du rôle du cycle sexué. L’échantillonnage réalisé au Nord du Pakistan a permis de décrire quatre groupes génétiques ayant tous une grande diversité génotypique et une structure recombinante. Le très faible taux de ré-échantillonnage de génotypes identiques au cours de deux années suggère le rôle prédominant de la reproduction sexuée dans le maintien temporel des populations locales. La forte diversité génétique et génotypique, la signature de recombinaison et la capacité à la reproduction sexuée de PST dans la région himalayenne suggèrent que cette zone est le centre d'origine potentielle de PST. Les analyses d’approximations bayésiennes confirment la thèse d’une dispersion à partir de l’Himalaya vers les autres régions du monde. La variabilité pour la capacité à produire des téleutosores, spores indispensables à l’initiation de la phase sexuée, a été analysée (56 isolats mondiaux), et s’avère liée à la variabilité génotypique et au taux de recombinaison. Ce résultat conforte la thèse de l'apparition de la sexualité dans la zone himalayenne et à proximité de cette zone et de la perte de sexualité lors de migrations dans les zones où l’hôte alternant est absent et où le cycle épidémique est essentiellement asexué. La description de l'origine, des voies mondiale de migration de PST ainsi que de son centre de diversité contribue à la compréhension du potentiel évolutif de PST et à la construction de stratégies de gestion de lutte contre l’agent pathogène. / Analyses of the large-scale population structure of pathogens enable the identification of migration patterns, diversity reservoirs or longevity of populations, the understanding of current evolutionary trajectories and the anticipation of future ones. A detailed analysis of populations in centre of diversity should enable to infer the adaptive capacity of the pathogen and identify potential sources for new invasions. Puccinia striiformis f.sp. tritici (PST) is the causal agent of wheat yellow/stripe rust, and despite a worldwide distribution, this fungus remains a model species for invasion studies, due to its long-distance migration capacity and recurrent local emergence of new strains. Little is known about the ancestral relationship of the worldwide PST population with unknown center of origin. We used multilocus microsatellite genotyping to infer the worldwide population structure of PST and the origin of new invasions, analysing a set of isolates representative of sampling performed over six continents. Bayesian and multivariate clustering methods partitioned the isolates into six distinct genetic groups, corresponding to distinct geographic areas. The assignment analysis confirmed the Middle East-Red Sea Area as the most likely source of newly spreading, high-temperature-adapted strains; Europe as the source of South American, North American and Australian populations; and Mediterranean-Central Asian populations as the origin of South African populations. The existence of strong population subdivision at worldwide level shows that major genetic groups are not markedly affected by recent dispersal events. However, the sources for recent invasions and the migration routes identified emphasize the importance of human activities on the recent long-distance spread of the disease. The analyses of linkage disequilibrium and genotypic diversity indicated a strong regional heterogeneity in levels of recombination, with clear signatures of recombination in the Himalayan (Nepal and Pakistan) and near-Himalayan (China) regions and a predominant clonal population structure in other regions. To explain the variability in diversity and recombination of worldwide PST populations, we assessed their sex ability in terms of telial production, the sex-specific structures that are obligatory for PST sexual cycle, in a set of 56 isolates representative of these worldwide geographical origins. We confirmed that the variability in genotypic diversity/ recombination was linked with the sex ability, pinpointing the Himalayan region as the possible center of origin of PST, from where it then spread worldwide. The reduced sex ability in clonal populations certainly reflects a loss of sexual function, associated to migration in areas where sexual alternate host is lacking, or not necessary for the completion of epidemic cycle. Approximate Bayesian computation analyses confirmed an out of Himalaya spread of PST, with Pakistan and China being the most ancestral population. A detailed analysis of Pakistani population at regional level revealed the existence of a strong population subdivision, a high genotypic diversity and the existence of recombination signature at each location reflecting the role of sexual recombination in the temporal maintenance at local level. A time spaced sampling of PST in the valley of Tianshui (China) inspired the development of a new estimator, allowing to quantify the relative contribution of sexual reproduction and effective population size on the basis of clonal resampling within and between years. A sexual reproduction rate of 74% (95% confidence interval [CI]: 38-95%) and effective population size of 1735 (95% CI: 675-2800) was quantified in Chinese PST population. The description of the origin and migration routes of PST populations worldwide and at its centre of diversity contributes to our understanding of PST evolutionary potential, and is helpful to build disease management strategies. L’histoire des invasion Champignon pathogenes Structure des populations Recombination genetique Puccinia striiformis Invasion history Fungal pathogen Population structure Genetic recombination Puccinia striiformis
10	Das IPS-Modell Weizen Untersuchungen zur Effektivität und Funktionalität unter niedersächsischen Anbau- und Klimabedingungen (1998-2001) sowie zum bundesweiten Auftreten von Puccinia striiformis und Puccinia recondita (1993-2001) / Finger, Imme. Unknown Date (has links) (PDF) Universiẗat, Diss., 2004--Kiel.

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