Genetic diversity of the pea root pathogen Aphanomyces euteiches in Europe

The oomycete pathogen Aphanomyces euteiches causes root rot in various legume species. In this study we focused on A. euteiches causing root rot in pea (Pisum sativum), thereby being responsible for severe yield losses in pea production. We aimed to understand the genetic diversity of A. euteiches in Europe, covering a north-to-south gradient spanning from Sweden, Norway and Finland to the UK, France and Italy. A collection of 85 European A. euteiches strains was obtained, all isolated from infected pea roots from commercial vining pea cultivation fields. The strains were genotyped using 22 simple-sequence repeat markers. Multilocus genotypes were compiled and the genetic diversity between individual strains and population structure between countries was analysed. The population comprising strains from Italy was genetically different and did not share ancestry with any other population. Also, strains originating from Finland and the eastern parts of Sweden were found to be significantly different from the other populations, while strains from the rest of Europe were more closely related. A subset of 10 A. euteiches strains from four countries was further phenotyped on two susceptible pea genotypes, as well as on one genotype with partial resistance towards A. euteiches. All strains were pathogenic on all pea genotypes, but with varying levels of disease severity. No correlation between the genetic relatedness of strains and virulence levels was found. In summary, our study identified three genetically distinct groups of A. euteiches in Europe along a north-to-south gradient, indicating local pathogen differentiation.     

Genotypic and Pathogenic Diversity Among Pea-Infecting Strains of Aphanomyces euteiches from the Central and Western United States

ABSTRACT Pathogenic and genotypic variability among four populations of Aphanomyces euteiches from individual fields in Minnesota, Wisconsin, and Oregon were investigated using pathogenicity and randomly amplified polymorphic DNA (RAPD) analyses. About 50 strains were isolated from each of two pea fields in Minnesota, and 11 and 6 strains from pea fields in Wisconsin and Oregon, respectively, using pea (Pisum sativum) as a baiting host. Pathogenic variability and host range were evaluated in greenhouse studies with five pea lines or cultivars having different levels of resistance to Aphanomyces root rot and one cultivar each of alfalfa and snap bean. All strains were pathogenic on one or more pea cultivars, and 18 and 14% were pathogenic on alfalfa and bean, respectively. Disease severity incited by different strains varied significantly on individual pea cultivars and on all hosts combined. The percentage of strains pathogenic on different hosts varied among locations. Genotypic variation among all 114 strains was evaluated with RAPD analysis. Ten decanucleotide primers detected 92 polymorphic bands. Cluster and principal coordinates analysis revealed one large group containing 102 of the 114 strains from all locations. Two closely related minor groups of strains (12 strains) were genotypically distinct, with about 55% similarity to the main group of 102 strains. The strains in the minor groups were all isolated from the Minnesota locations and were pathogenic on two disease-resistant pea breeding lines (MN313 and MN314). Estimates of genetic diversity based on RAPD analysis ranged from 0.24 to 0.33 within populations to 0.35 among all strains from all populations. A. euteiches populations were genotypically and phenotypically variable, but no distinct genotypic differences were identified among populations from the four isolated locations.     

Variation in Pathogenicity and Genotype Among Single-Zoospore Strains of Aphanomyces euteiches

ABSTRACT The role of asexual reproduction in the production of pathogenic and genotypic variation in Aphanomyces euteiches was investigated. Variation was studied among three groups of 18 single-zoospore progeny of A. euteiches derived from each of three single-zoospore parental strains. Pathogenicity was assessed by evaluating disease severity (DS) on roots of five pea lines possessing different levels of resistance to Aphanomyces root rot and of a susceptible cultivar of snap bean and alfalfa. None of the single-zoospore progeny incited significantly higher DS levels than their parental strain on any of the seven hosts; however, 3 or 4 of the 18 progeny in each group incited significantly lower DS than their parental strains. The host range of the progeny either decreased or remained the same as compared with parental strains. Genotypic variation was assessed with randomly amplified polymorphic DNA (RAPD) analysis. Polymorphic RAPD markers that distinguished parental and progeny strains were detected within two of the three groups of strains with two of four RAPD primers used. Of 76 total RAPD markers that were detected among all strains in all groups, four (5%) were polymorphic. The polymorphic markers were not associated with the pathogenic variation.     

Pathogenic characteristics of isolates of Aphanomyces euteiches from pea in France

Aphanomyces root rot ( Aphanomyces euteiches ) has become a very destructive disease in French pea crops since 1993. The host specificity of the French pea-infecting populations of this pathogen was investigated by inoculating pea, common vetch, alfalfa, broad bean and green bean with 91 pea-infecting A. euteiches isolates, originating from the main areas of infestation in France. These isolates were compared to 13 isolates from various countries and hosts (pea, green bean, alfalfa). Virulence phenotypes were defined according to the pathogenicity data on the different hosts: all isolates from France infected two to five legume species, with most infecting pea, vetch, alfalfa and broad bean. Four pathotypes were characterized within the French isolates: one type corresponded to broad host range isolates, the second was composed of isolates preferentially agressive on pea/vetch/alfalfa and weakly aggressive on broad bean, and two others corresponding to more specialized isolates that preferentially infected pea/vetch or pea/vetch/alfalfa. Most isolates from France were preferentially pathogenic on pea, like the pea-infecting isolates from other countries, but were less specialized than the alfalfa- and green bean-infecting isolates from other countries. These results suggest that A. euteiches isolates may be maintained on wild or cultivated legumes other than pea in France.     

Spatial distribution of Aphanomyces euteiches inoculum in a naturally infested pea field

The main objective of the study was to describe the horizontal and vertical distribution of Aphanomyces root rot in a naturally infested pea field. Measurements of inoculum potential clearly indicated a horizontal distribution of inoculum among several foci in the field, these foci differing in size and disease intensity. A highly significant relationship was observed between disease severity on plants during the cropping season and soil inoculum potential. In terms of the vertical distribution of inoculum in the soil, detection was maximal at a depth of 10 to 40 cm, but inoculum was detected down to a depth of 60 cm. Generally, inoculum potential was lowest for the layers at depths of 0 to 10 and 50 to 60 cm. Inoculum distribution and the value of the methodologies used are discussed in terms of possible use for epidemiology and disease forecasting.     

玉米螟赤眼蜂不同地理种群mtDNA基因序列分析及遗传分化研究

本研究通过对玉米螟赤眼蜂Trichogramma ostriniae不同地理种群的线粒体DNA COⅠ、COⅡ和Cytb基因进行序列分析,研究了我国玉米螟赤眼蜂不同地理种群的遗传分化程度.结果发现,玉米螟赤眼蜂群体内线粒体基因具有丰富的遗传多态性,且各地理种群之间已产生不同程度的遗传分化.中性检测结果表明,玉米螟赤眼蜂进化遵循中性模型,且在过去呈现种群扩张趋势.玉米螟赤眼蜂不同地理种群之间的遗传距离在0.002～0.020之间.种群系统聚类树分支结构和Mantel相关性分析结果表明,玉米螟赤眼蜂各地理种群的遗传距离与地理距离间不具有显著的相关性.     

A PCR-Based Assay by Sequence-Characterized DNA Markers for the Identification and Detection of Aphanomyces euteiches

ABSTRACT Polymerase chain reaction (PCR) products were identified and amplified from isolates of Aphanomyces euteiches and A. cochlioides. The products were cloned and sequenced, and the data were used to design pairs of extended PCR primers to amplify sequence-characterized DNA markers. The primer pair OPC7-FS-30 and OPC7-RS-25 amplified a single 1,332-bp product from all isolates of A. euteiches that were not amplified from any other isolates tested. A single 718-bp product was selectively amplified only from isolates of A. cochlioides with the primer pair OPB10-FS-25 and OPB10-RS-25. A. euteiches was detected in roots of several varieties of field-grown peas collected from a root rot trial site. PCR also detected A. euteiches in the organic fraction of field soil samples. Both pairs of extended primers were used in a multiplex reaction to unambiguously discriminate between A. euteiches and A. cochlioides. Both pairs of primers were used in two-step PCR reactions in which annealing and extension was done in a single step at 72 degrees C. This reduced the time required for amplification of the diagnostic PCR product and its resolution by electrophoresis to less than 3 h.     

内蒙古地区天然臭柏种群遗传多样性的RAPD分析

应用随机扩增多态性DNA(RAPD)标记法研究了内蒙古地区臭柏种群的遗传分化,所用的18条引物对4个臭柏种群的55个样本扩增出124个位点,其中多态位点100个,多态率达80.7%。种内的平均Nei's多样性指数和Shannon's多样性指数分别为0.286和0.428,种群内分别为0.232和0.347,基因多样性变化趋势为毛乌素沙地(0.258,0.386)>阴山山脉西部(0.258,0.376)>浑善达克沙地(0.231,0.345)>内蒙古贺兰山(0.184,0.281)。臭柏种群总的基因多样性(Ht=0.288),大于种群间的基因多样性(Hs=0.233)。种群间的遗传分化系数(Gst)为0.183,种群内的遗传变异占总遗传变异的81.7%。臭柏种群间的平均遗传距离为0.086,平均相似性系数为0.918,4个种群之间有比较相似的遗传多样性,由于地理隔离,种群间也存在分化。     

Genetic Differentiation of Puccinia triticina Populations in Central Asia and the Caucasus

ABSTRACT Isolates of Puccinia triticina collected from common wheat in the Central Asia countries of Kazakhstan, Uzbekistan, Tajikistan, and Kyrgyzstan and the Caucasus countries of Azerbaijan, Georgia, and Armenia were tested for virulence to 20 isolines of Thatcher wheat with different leaf rust resistance genes and molecular genotype at 23 simple sequence repeat (SSR) loci. After clone correction within each country, 99 isolates were analyzed for measures of population diversity, variation at single SSR loci, and for genetic differentiation of virulence phenotypes and SSR genotypes. Isolates from Central Asia and the Caucasus were also compared with 16 P. triticina isolates collected from common wheat in North America that were representative of the virulence and molecular variation in this region and two isolates collected from durum wheat in France and the United States. Populations from the Caucasus, Uzbekistan, Tajikistan, and Kyrgyzstan were not significantly (P > 0.05) differentiated for SSR variation with F(st) and R(st) statistics. Populations from the Caucasus, Uzbekistan, Tajikistan, and Kyrgyzstan were significantly (P < 0.05) differentiated from the populations in South and North Kazakhstan for SSR variation. All populations from Central Asia and the Caucasus were significantly differentiated from the North American isolates and isolates from durum wheat for SSR variation and virulence phenotypes. There was a correlation between virulence phenotype and SSR genotype among individual isolates and at the population level. Mountain barriers may account for the differentiation of P. triticina geographic populations in Central Asia and the Caucasus.     

Relative importance of root rots of subterranean clover caused by Aphanomyces euteiches and Phytophthora clandestina

In a growth-cabinet experiment, Aphanomyces euteiches caused more severe root disease and greater reductions in root and shoot weights of subterranean clover cv. Mount Barker than Phytophthora clandestina in pasteurized sandy loam flooded with water for a 24-h period each week. A. euteiches also reduced plant growth more than P. clandestina in untreated sandy loam. In a similar experiment, both fungi caused the same amount of disease and reduction in growth of cv. Yarloop in pasteurized clay loam flooded for 24 h each week, and P. clandestina caused more disease and a greater decrease in plant growth than A. euteiches when the soil was flooded for 4 h each week. The pathogens did not interact positively in either soil. In an irrigated pasture, soil drenches with the fungicides metalaxyl and fenaminosulf together reduced both root rots to low levels and increased subterranean clover dry matter by 1 96, 0.50 and 1 20 t/ha in the autumn, winter and spring of 1985, respectively, and by 0.59 t/ha in the autumn of 1986. Results suggest that P. clandestina caused most of these losses in yield.     

Aphanomyces euteiches as a component of the complex of foot and root pathogens of peas in Dutch soils

The occurrence ofAphanomyces euteiches Drechs. in Dutch soils is reported for the first time. Isolates of the pathogen were obtained from peas (Pisum sativum L.). A bioassay was used that baited the pathogen from soil into the cortex of stem and root of seedlings of a highly susceptible pea cultivar. The pathogen could subsequently be isolated on a semi-selective medium. Screening of soil samples from 13 fields known to be infested with fungi causing foot and root rot demonstrated the presence ofA. euteiches in 10 cases. In a second screening on soil samples from 43 fields, the pathogen was present in 16 cases. A positive correlation was found between the disease severity caused byA. euteiches in the seedling bioassay and the disease severity caused by the complex of foot and root pathogens in the same soils as evidenced by a mature plant bioassay. It is considered probable thatA. euteiches has since long been a common component of the foot and root rot complex in Dutch soils but has not been detected previously due to inadequate sampling and isolation techniques.Samenvatting De aanwezigheid vanAphanomyces euteiches Drechs. in Nederlandse gronden is voor het eerst aangetoond. Isolaten van het pathogeen werden verkregen van erwten (Pisum sativum L.). De pathogene schimmel werd in petrischalen uit grond in het schorsweefsel van wortel en stengel van een zeer vatbaar erwteras gelokt. Met behulp van een semiselectief medium konden vervolgens isolaten van de schimmel worden verkregen. Toetsing van grondmonsters afkomstig van 13 percelen, waarvan bekend was dat ze besmet waren met schimmels die voetziekten in erwten veroorzaken, toonde de aanwezigheid vanA. euteiches aan in 10 gevallen. In een tweede biotoets op grondmonsters van 43 percelen bleken 16 monsters het pathogeen te herbergen. Er werd een positieve correlatie gevonden tussen de ernst van de aantasting doorA. euteiches van kiemplanten en de aantasting van volwassen planten in een biotoets in de kas. Het is waarschijnlijk dat de schimmel reeds lang in Nederlandse akkers voorkomt, maar door inadequate bemonsterings- en isolatietechnieken over het hoofd is gezien.     

Genetic Diversity and Structure of the Apiosporina morbosa Populations on Prunus spp

ABSTRACT Populations of Apiosporina morbosa collected from 15 geographic locations in Canada and the United States and three host species, Prunus virginiana, P. pensylvanica, and P. padus, were evaluated using the sequence-related amplified polymorphism (SRAP) technique to determine their genetic diversity and population differentiation. Extensive diversity was detected in the A. morbosa populations, including 134 isolates from Canada and the United States, regardless of the origin of the population. The number of polymorphic loci varied from 6.9 to 82.8% in the geographic populations, and from 41.4 to 79.3% in the populations from four host genotypes based on 58 polymorphic fragments. In all, 44 to 100% of isolates in the geographic populations and 43.6 to 76.2% in populations from four host genotypes represented unique genotypes. Values of heterozygosity (H) varied from 2.8 to 28.3% in the geographic populations and 10.2 to 26.1% in the populations from four host genotypes. In general, the A. morbosa populations sampled from wild chokecherry showed a higher genetic diversity than those populations collected from other host species, whereas the populations isolated from cultivated chokecherry, P. virginiana 'Shubert Select', showed a reduction of genetic diversity compared with populations from wild P. virginiana. Significant population differentiation was found among both the geographic populations (P < 0.05) and populations from different host genotypes (P < 0.02). In the geographic populations, most of populations from cultivated and wild P. virginiana were closely clustered, and no population differentiation was detected except for the populations from Morris, Morden, and Winnipeg, Manitoba, Canada. Furthermore, the populations from P. virginiana in the same geographic locations had higher genetic identity and closer genetic distance to each other compared with those from different locations. Four populations from P. virginiana, P. pensylvanica, and P. padus, were significantly differentiated from each other (P < 0.02), except there was no differentiation between the Shubert Select and wild chokecherry populations (>P> = 0.334). Indirect estimation of gene flow showed that significant restricted gene flow existed between populations from different regions and host species. Gene flow rates (Nm) varied from <1 to 12.5, with higher gene flow rates among population pairs from the same host species (P = 1.000). The analysis of molecular variance revealed that a major genetic variance source came from the genetic variation among isolates within populations regardless of the origin and host genotype of the population. Although some locations had a limited number of isolates, the results of this study clearly showed that the genetic diversity and population differentiation of A. morbosa were closely associated with host genotypes and geographic locations, but mostly with the former.     

Enzymatic Activity of the Mycelium Compared with Oospore Development During Infection of Pea Roots by Aphanomyces euteiches

ABSTRACT To describe the disease cycle of the root pathogen Aphanomyces euteiches, enzymatic activity in the mycelium was compared with the development of oospores in pea roots. Plants were inoculated with two zoospore concentrations to achieve different disease levels. Hyphae were stained for fungal alkaline phosphatase activity in the roots. Additionally, enzyme activity was measured after electrophoresis of an A. euteiches-specific glucose-6-phosphate isozyme. Development of oospores in the roots was measured after staining the oospores with trypan blue. In plants inoculated with the higher zoospore concentration, the enzymatic activity of the pathogen mycelium peaked 10 to 14 days after inoculation, when oospore formation was initiated. Oospore formation was associated with a gradual increase in disease symptoms. At the last harvest, plants inoculated with the higher zoospore concentration had died. In these plants, oospores were found in 90% of the root length, while the enzymatic activity of the mycelium was low. This suggests that the pathogen mycelium is only active on living plants and does not grow saprophytically on dead plant material.     

Consistent Quantitative Trait Loci in Pea for Partial Resistance to Aphanomyces euteiches Isolates from the United States and France

ABSTRACT Development of pea cultivars resistant to Aphanomyces root rot, the most destructive root disease of pea worldwide, is a major disease management objective. In a previous study of a mapping population of 127 recombinant inbred lines (RILs) derived from the cross 'Puget' (susceptible) x '90-2079' (partially resistant), we identified seven genomic regions, including a major quantitative trait locus (QTL), Aph1, associated with partial resistance to Aphanomyces root rot in U.S. fields (21). The objective of the present study was to evaluate, in the same mapping population, the specificity versus consistency of Aphanomyces resistance QTL under two screening conditions (greenhouse and field, by comparison with the previous study) and with two isolates of Aphanomyces euteiches originating from the United States and France. The 127 RILs were evaluated in the greenhouse for resistance to pure culture isolates SP7 (United States) and Ae106 (France). Using the genetic map previously described, a total of 10 QTL were identified for resistance in greenhouse conditions to the two isolates. Among these were Aph1, Aph2, and Aph3, previously detected for partial field resistance in the United States. Aph1 and Aph3 were detected with both isolates and Aph2 with only the French isolate. Seven additional QTL were specifically detected with one of the two isolates and were not identified for partial field resistance in the United States. The consistency of the detected resistance QTL over two screening environments and isolates is discussed with regard to pathogen variability, and disease assessment and QTL detection methods. This study suggests the usefulness of three consistent QTL, Aph1, Aph2, and Aph3, for marker-assisted selection.     

Genetic and Virulence Diversity in Verticillium dahliae Populations Infecting Artichoke in Eastern-Central Spain

ABSTRACT Severe Verticillium dahliae attacks have occurred in artichoke crops in the Comunidad Valenciana region of eastern-central Spain since the late 1990s. Knowledge of genetic and virulence diversity in the pathogen population is a key factor for the management of the disease through disease risk assessment as well as development and use of resistant cultivars. V. dahliae isolates from artichoke (109 isolates) and cotton (three isolates) in that region were characterized by vegetative compatibility grouping (VCG), and specific polymerase chain reaction assays using three sets of primer pairs that differentiate the cotton-defoliating (D) and -nondefoliating (ND) V. dahliae pathotypes. In all, 35 and 39 V. dahliae isolates representative of the identified VCGs and geographic origins were tested for virulence to artichoke cvs. Nun 6374 and Nun 9444, and cotton cv. Acala SJ-2, respectively. Four VCGs were identified among 107 artichoke isolates, and 2 isolates were heterokaryon self-incompatible: VCG1A (one isolate), VCG2A (31 isolates), VCG2B (72 isolates), and VCG4B (three isolates). The three cotton isolates were VCG1A. Isolates in VCG2B were distributed across the region and were the most prevalent isolates in the northern part. Conversely, 83.9% of isolates in VCG2A were recovered from the southern part of the region. Two subgroups of isolates were identified in VCG2B based on heterokaryon compatibility with either international or local tester isolates, which further showed diversity in the amplification of 334- and 824-bp DNA fragments which are markers of the D and ND pathotypes, respectively. Virulence of isolates to artichoke and cotton correlated with VCG but the pattern of correlation varied with the host. VCG1A isolates from artichoke and cotton induced defoliation in cotton but not in artichoke. Collectively, isolates of VCG2B and VCG4B were the most virulent and isolates of VCG1A or HSI were the least virulent to artichoke; but isolates of VCG1A were more virulent to cotton than those of any other VCG. Also, molecular subgrouping in VCG2B determined by amplification of the 334- and 824-bp markers correlated with virulence of isolates to the two hosts tested.     

Genetic Diversity in Relation to Sexual and Asexual Reproduction in Populations of Melampsora larici-epitea

Genetic diversity of Melampsora larici-epitea leaf rust from three cultivated stands of the willow Salix viminalis was studied using AFLP polymorphisms at 60 loci. One population was located in Northern Ireland and two in Sweden. Analysis of molecular variance (AMOVA) showed that most of the genetic variation was distributed on a fine scale within the field in all populations. Both Swedish populations displayed a very high genotypic diversity (normalized Shannon's indices of 0.95 and 1.00) and random association among loci. These results suggested that sexual reproduction had an important influence on the Swedish populations. The occurence of the alternate host (larch) adjacent to one of the Swedish rust populations did not affect the genetic diversity. However, severe rust attacks started earlier in the season in this population. The M. larici-epitea population in Northern Ireland was characterized by a low genotypic diversity (normalized Shannon's index = 0.54) and non-random association among loci was indicated by test of multilocus association and by pairwise tests among loci. These results suggested that asexual reproduction had a major effect on the genetic structure of this population, probably because of the overwintering of asexual spores and/or a population bottleneck associated with the annual sexual phase.     

Comparison of Soil Receptivity to Thielaviopsis basicola, Aphanomyces euteiches, and Fusarium solani f. sp. pisi Causing Root Rot in Pea

ABSTRACT Soil receptivity as a quantifiable characteristic ranging from conduciveness to suppressiveness to soilborne pea pathogens Thielaviopsis basicola and Aphanomyces euteiches was determined by analysis of differences in disease response curves obtained by artificial introduction of inoculum into natural field soil samples. Several parameters, including maximum root rot severity, the area under the health index curve, scores on the first axis of a principal component analysis (PCA) on dose responses, and Weibull model fitting were used to describe the disease responses. In all cases, the Weibull model gave satisfactory fits. PCA yielded a first axis that comprised 86% of the variance found when using Weibull predicted responses for T. basicola and 74% of the variance found for A. euteiches. This PCA axis essentially represented the average increase in disease severity due to the addition of increasing doses of inoculum to the soil. The Weibull scale parameter B, which represents the amount of inoculum necessary to increase root rot severity by 63% with respect to the level caused by pathogens naturally present in the soil, is another means of quantifying the receptivity of soils to these plant pathogens. Weibull parameter B, maximum root rot severity, the areaunder the health index curve, and the scores on the first PCA axis were strongly correlated for each of the pathogens tested individually. To compare the extent and behavior of soil receptivity responses to different pathogens, Weibull parameters B and C (slope at dose B) were chosen because of their universal definition, in contrast to PCA scores. Comparison of the average levels of Weibull parameters B and C indicated significant differences between the pathogens. Yet, no significant similarity in the ranking of the soils was found for the three pathogens, demonstrating that individual soils may interact with different pathogens in totally different ways. In general, soils were suppressive to T. basicola but conducive to A. euteiches, whereas their response to Fusarium solani f. sp. pisi ranged from conducive to suppressive. Therefore, risk assessment of soils prior to planting may require different strategies for each pathogen. Bioassays with soil samples taken before the last pea crop in 1987 and 1991 revealed a significant increase in the natural inoculum potential of soils that mainly was accounted for by A. euteiches and Pythium spp. These results strongly indicate that A. euteiches must be considered one of the most threatening pathogens to pea crops in the Netherlands.     

Genetic Diversity in Australian Populations of Puccinia graminis f. sp. avenae

ABSTRACT Sequence-tagged microsatellite profiling was used to develop 110 microsatellites for Puccinia graminis f. sp. tritici (causal agent of wheat stem rust). Low microsatellite polymorphism was exhibited among 10 pathogenically diverse P. graminis f. sp. tritici isolates collected from Australian cereal growing regions over a period of at least 70 years, with two polymorphic loci detected, each revealing two alleles. Limited cross-species amplification was observed for the wheat rust pathogens, P. triticina (leaf rust) and P. striiformis f. sp. tritici (stripe rust). However, very high transferability was revealed with P. graminis f. sp. avenae (causal agent of oat stem rust) isolates. A genetic diversity study of 47 P. graminis f. sp. avenae isolates collected from an Australia-wide survey in 1999, and a historical group of 16 isolates collected from Australian cereal growing regions from 1971 to 1996, revealed six polymorphic microsatellite loci with a total of 15 alleles. Genetic analysis revealed the presence of several clonal lineages and subpopulations in the pathogen population, and wide dispersal of identical races and genotypes throughout Australian cereal-growing regions. These findings demonstrated the dynamic population structure of this pathogen in Australia and concur with the patterns of diversity observed in pathogenicity studies.