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1.
Spot blotch, caused by Cochliobolus sativus (Ito & Kuribayashi) Drechs. ex Dastur, is one of the important diseases of wheat worldwide. The main objective of this study was to investigate the phenotypic and genotypic variability among C. sativus isolates from the hills and plains in Nepal. A total of 48 monoconidial isolates of C. sativus from the hills (n = 24 isolates) and plains (n = 24 isolates) in Nepal were analyzed for morphology, aggressiveness and genetic structure. C. sativus isolates were grouped into three categories on the basis of their colony texture and mycelia colour. Thirteen isolates from the hills and plains belonging to three morphological groups were randomly selected and evaluated for aggressiveness on eight wheat cultivars (Chirya 1, Chirya 7, Milan/Shanghai 7, SW 89–5422, PBW 343, BL 1473, BL 3036, and RR 21) at the seedling stage. Nonparametric analysis revealed that the isolates from the plains (median disease rating of 5) were significantly (P = 0.0001) more aggressive than the isolates from the hills (median disease rating of 3). A significant (P = 0.0001) isolate by cultivar interaction was demonstrated and the isolates from the same geographic region and morphological group displayed different degrees of aggressiveness on wheat cultivars tested. Combined IS-PCR and rep-PCR analyses revealed moderate gene diversity (H = 0.24 and 0.25 for the hills and plains, respectively). Low linkage disequilibrium (LD) value and non-significant (P = 0.001) population differentiation (G″ST = 0.05) were detected, indicating that isolates of C. sativus from the hills and plains in Nepal were genetically similar. Analysis of molecular variation (AMOVA) revealed low (7%) levels of genetic variation between the hill and plain populations, whereas >93% of genetic variation was found within populations. Overall, C. sativus isolates from Nepal are pathologically and genetically diverse, and such information will be useful in developing wheat cultivars resistant to C. sativus.  相似文献   

2.
Schoenoplectus juncoides is one of the most harmful weeds found in East Asian paddy fields. Recent emergence of biotypes that are resistant to the herbicide sulfonylurea (SU) has made weed control difficult. To examine the effect of the evolution of this herbicide resistance on genetic diversity within local populations, we investigated microsatellite variability within and among paddy field populations of S. juncoides in Kinki, Japan. In vivo assay of acetolactate synthase activity and root elongation assay in the presence of SU revealed that of 21 populations, five were sulfonylurea‐susceptible (SU‐S) and eight were completely sulfonylurea‐resistant (SU‐R). The remaining eight populations were a mixture of SU‐S and SU‐R individuals. The average gene diversity for SU‐R populations (HS = 0.168) was lower than those for SU‐S (HS = 0.256) and mixed (HS = 0.209) populations, but the difference was not significant. This indicates that positive selection for SU‐R phenotype did not cause a genome‐wide reduction in genetic diversity. Genetic differentiation among S. juncoides populations was higher than that observed for most weed species studied previously. Although populations in neighbouring paddy fields showed a high level of differentiation, Bayesian clustering analyses suggested that some level of gene flow occurs among them and that the genetic exchange or colonisation between neighbouring populations could contribute to the geographical expansion of the resistant allele.  相似文献   

3.
The population structure and genotypic diversity of Mycosphaerella graminicola from six natural field populations in Germany were studied with molecular markers. To reveal the potential effects of plant host resistance on the pathogen population, hierarchical samples were taken from susceptible and resistant cultivars. A total of 203 single spore isolates was subjected to molecular marker analysis using the amplified fragment length polymorphism technique (AFLP). Among the 203 isolates analyzed, 142 different multilocus haplotypes (MLH) were identified revealing a high degree of genotypic diversity of the M. graminicola population. On average, a F ST value of 0.04 was found, indicating a low genetic differentiation with only 4% of the genetic variation between the local populations but leaving 96% of the genetic variation within the populations. According to the low F ST value, a high migration rate of Nm 12 was found. The observed high within-population diversity, and the significant migration between populations, prevented genetic isolation and differentiation of putative geographically separated populations. Furthermore, plant host resistance had no obvious effect on the population structure and diversity of M. graminicola. Genotypic variability can be attributed to sexual recombination which appears to have a considerably larger influence on the population structure. Gene flow on this scale could have significant implications for plant breeding and fungicide spraying programmes.  相似文献   

4.
Although the Pannonian Plain presents one of the areas in Europe most highly infested by Ambrosia artemisiifolia, previously reported population genetic studies of the invasive species have included only a few populations from this region. Our goal was to determine the level of genetic diversity and genetic structure of A. artemisiifolia populations from the southern Pannonian Plain using microsatellite DNA markers. We documented a high level of genetic diversity within the Pannonian populations, as compared with the genetic diversity parameters previously published for the other invasive populations of A. artemisiifolia in Europe. The mean number of alleles per locus (NA) ranged between 6.8 and 9.4, allelic richness (r) between 6.59 and 8.53 and mean number of rare alleles per locus (NR) ranged between 3.4 and 6.4 per analysed population. A low level of among‐population differentiation was detected, with percentage of variation between populations of 3.3%, generally low pairwise FST values (ranged from ?0.007 to 0.152) and also according to principal coordinate analysis. A Bayesian approach revealed that most individuals did not strongly associate with any single genetic cluster, confirming a lack of genetic structuring in the analysed region. Together with the results of quantification of the level of gene flow (Nm = 5.671), these observations indicated a presence of extensive gene exchange and admixture between the populations. Therefore, A. artemisiifolia in the Pannonian Plain region has the potential for rapid expansion.  相似文献   

5.
The random amplified polymorphic DNA (RAPD) method was used to investigate the genetic variability and population structure of Fusarium culmorum isolated from wheat stem bases. A total of 108 isolates, representing seven geographically distinct populations, was collected from five climatic regions in Tunisia. Pseudo-allelic frequencies were estimated at each of the 25 putative RAPD loci analyzed by scoring for the presence or absence of amplified fragments; 92 haplotypes were found among the 108 strains. The analysis of the population structure did not reveal any trend with regard to geographic origin. Total gene diversity (HT * = 0.318) was mostly attributable to diversity within populations (HS * = 0.308). Analysis of molecular variance confirmed that most of the genetic variability was within populations. Genetic differentiation among populations was low to moderate (GST * ranged from 0 to 0.190 and averaged 0.041 over all loci). Cluster analysis with UPGMA using genetic distances did not reveal any spatial clustering of the isolates collected from the different geographic regions. Based on these results, we conclude that the F. culmorum isolates recovered from different regions in Tunisia might be part of a single population pool.  相似文献   

6.
Pseudocercospora (previously known as Mycosphaerella) fijiensis causes black Sigatoka disease in banana (Musa spp.) and is considered to be the most devastating pathogen of this crop worldwide. To improve knowledge of its evolutionary patterns, this study determined the genetic variability of populations from two regions of Mexico: Central Pacific (Colima and Michoacan) and Southern (Chiapas, Tabasco and Oaxaca), using 10 simple sequence repeat (SSR) loci and the MAT-specific PCR assay. Both mating types were present in all regions under study, with frequencies of 63% MAT1-1 and 37% MAT1-2. The SSR markers showed an average of three alleles per locus, resulting in 34 alleles in total. The genetic diversity (HT) was 0.3308, but at the local level (HS) ranged from 0.0976 (Colima) to 0.2228 (Oaxaca). However, the genotypic diversity was usually high (H′ > 2.4, S > 0.89). Cluster analysis grouped the isolates into five clusters with high statistical support (au > 80%), suggesting a geographic organization of the genetic variability of P. fijiensis; AMOVA, the minimum spanning tree and the population structure analysis supported this result, and all data indicated that the major genetic differences were between the different populations under analysis. Thus, the high level of genetic variability in P. fijiensis is attributed partly to a high rate of sexual reproduction, and also to a strong evolutionary capacity coupled with isolation due to limited genetic flow between distant populations. Both possibilities could be playing a relevant role in population differentiation of the pathogen.  相似文献   

7.
Genetic diversity assessment and population structure analysis are essential for characterization of pathogens and their isolates. Markers are essential tools for exploring genetic variation among the isolates. False smut of rice caused by Ustilaginoidea virens, formerly Villosiclava virens, is a major emerging disease of rice in India. A high level of variability is observed at the field level, but no information is available from India on genetic diversity and population structure. This is the first report of genetic diversity and population structure of U. virens from India that included 63 isolates distributed across the vast geographical area of eastern and north-eastern India (18.9 to 26.7°N and 82.6 to 94.2°E). Seventeen RAPDs and 14 SSRs were identified as polymorphic and a total of 140 alleles were detected across the populations. The average number of alleles per locus for each primer was 4.5. All the isolates were grouped into two major clusters, with partial geographical segregation that was supported by principal coordinate analysis. Mantel test suggested genetic distance within the isolates increased with increasing geographical distance. Analysis of molecular variation showed more genetic variation within populations and less among populations. This outcome will help in understanding genetic diversity of U. virens from eastern and north-eastern India and in planning effective management strategies.  相似文献   

8.
Orobanche foetida is widely distributed in western Mediterranean countries infecting wild legumes. Recently it has been reported in Morocco infecting common vetch, presenting a further constraint for legume production in this area. Comparative studies between Orobanche populations attacking wild species and Orobanche populations growing on crops from the same region may help to clarify whether a host specialisation process occurred. In the present study, the genetic variability of five O. foetida populations, four infecting wild plants and one infecting cultivated vetch in Morocco was characterised using amplified fragment‐length polymorphism (AFLP) markers to elucidate the existing genetic relationship between populations and to suggest a potential origin for the recently detected vetch‐infecting population. Analysis of molecular variance suggested the existence of genotypic differentiation among populations. The most genetic divergent population by cluster analysis was the population collected on Ornithopus sativus. The vetch‐infecting O. foetida population was closer to the three populations infecting Scorpiurus muricatus. The possibility of the presence of a reservoir of diversity is balanced against direct genetic adaptation and completely new introduction. The potential for this Orobanche species to shift host and become a threat to agriculture exists and has to be taken into account for future legume breeding for these areas.  相似文献   

9.
为探索褐家鼠Rattus norvegicus地理种群的遗传结构及其年度变化特点,本研究以广东省湛江市的褐家鼠指名亚种和黑龙江省哈尔滨市的褐家鼠东北亚种为主要研究对象,结合我国及世界其他褐家鼠种群的D-loop序列分析这2个褐家鼠地理种群间D-loop序列的遗传分化情况及系统进化关系,重点分析2008—2015年褐家鼠湛江种群和哈尔滨种群D-loop单倍型的年度频率变化特点。结果表明,褐家鼠湛江种群和哈尔滨种群共有32种不同的单倍型,其中有11种单倍型是2个种群共有的,有4种单倍型仅在湛江种群中出现,有17种单倍型仅在哈尔滨种群中出现。褐家鼠湛江种群D-loop区的核苷酸多态性为0.005,有27个变异位点,单倍型多态性为0.695,褐家鼠哈尔滨种群D-loop区的核苷酸多态性比湛江种群略高,为0.008,有35个变异位点,单倍型多态性为 0.793。褐家鼠湛江种群和哈尔滨种群没有经历过暴发性的扩增。褐家鼠湛江、哈尔滨和湖北3个地理种群的D-loop序列之间发生了明显的遗传分化,其中湛江种群和哈尔滨种群之间的分化程度最高,遗传分化系数Fst为0.245。褐家鼠湛江种群和哈尔滨种群的单倍型数目和主单倍型频率都发生明显波动,推测主要原因可能是由于灭鼠剂的大量使用或其他灭鼠活动导致种群出现瓶颈或更替的现象。  相似文献   

10.
Genetic uniformity of Alternanthera philoxeroides in South China   总被引:18,自引:0,他引:18  
W H Ye  J Li  H L Cao  & X J Ge 《Weed Research》2003,43(4):297-302
Alternanthera philoxeroides (Mart.) Grisb is an invasive weed that is widespread in a variety of habitats around the world. It was introduced into China in the 1930s, and today occurs in 20 provinces. The level and pattern of genetic diversity of 193 individuals from 11 land‐grown A. philoxeroides populations from South China were determined using 81 intersimple sequence repeat markers. Mean Nei's gene diversity (HE) was 0.0203 ± 0.008, and total diversity (HT) was 0.0286, indicating that genetic diversity in A. philoxeroides in South China is very low. There was a greater proportion of diversity within populations than among (GST = 0.292) populations. Gene flow (Nm) among populations was 0.607. These results are in accordance with the assumption that populations in South China are genetically depauperate because of the short introduction history and the partially clonal propagation of this weed.  相似文献   

11.
Stellera chamaejasme is a perennial weed with a wide geographic range that is found from the Altai of eastern Russia, northern China and Mongolia southwards as far as the western Himalayas of the Qinghai–Tibet and Yungui Plateaus. The genetic diversity and population structure of 17 populations of S. chamaejasme, represented by 349 individuals, were assessed by using amplified fragment length polymorphism markers. The results showed a relatively high level of genetic variation at the species level. The proportion of total diversity among populations was 0.4370, suggesting significant genetic differentiation and a low gene flow among the populations of this species. The Mantel test indicated that genetic differentiation among populations was significantly correlated with geographic distance. Genetic drift through range expansion and a low gene flow among populations might result in a lower diversity in peripheral populations, compared to central populations. A Bayesian analysis revealed two potential gene pools in S. chamaejasme, which was confirmed by neighbor‐joining clustering and principal coordinate analysis. These results demonstrate that it is necessary to develop suitable biocontrol agents for populations with different gene pools.  相似文献   

12.
为明确棉铃虫Helicoverpa armigera(Hübner)在山东省不同地理种群的遗传分化及遗传多样性,对采集得到的山东省14个棉铃虫种群共109个样本进行线粒体细胞色素氧化酶亚基(I mito‐chondrial cytochrome oxidase I,mt COI)及亚基II (mitochondrial cytochrome oxidase I,mt COII)基因片段测序,并进行遗传多样性分析,探究其在山东省的种群遗传变异情况。结果表明,棉铃虫mt COImt COII基因拼接(1 306 bp)共有18个单倍型Hap1~Hap18,其中Hap2和Hap3单倍型包含的个体数量最多,分别为37个和20个。莱阳种群的单倍型多样性最高,为1.000,莱西种群的核苷酸多态性最高,为0.004 5,14个棉铃虫种群的总体固定系数FST值为0.028,说明棉铃虫种群之间几乎没有遗传分化。GENEPOP分析表明种群间遗传距离和地理距离无显著相关性。表明山东省不同地区棉铃虫遗传分化较低,各地区种群间没有显著的遗传差异。  相似文献   

13.
福建省烟粉虱不同地理种群遗传结构特征   总被引:4,自引:3,他引:1  
为明确福建省烟粉虱种群遗传结构特征,基于福建省烟粉虱不同地理种群中40个代表性的线粒体COI基因序列,分析了种群遗传多样性、遗传分化及分子变异情况,并构建了单倍型系统发育树与网络图。结果显示:在590 bp长度的mt COI基因序列中有效位点558个,其中187个核苷酸位点存在变异;序列核苷酸中A、T、C、G含量分别为42.32%、24.36%、20.25%、13.06%,其中A+T的含量为66.68%,表现出明显的A+T偏向性;共检测出11个单倍型,其中Hap3、4、7、9、11为特殊单倍型;种群多样性指数为0.838,核苷酸多样性指数为0.093,表明遗传多样性水平较高;AMOVA分析表明种群遗传变异主要来自种群内,总种群遗传分化系数仅为0.027,种群遗传分化较低。表明福建烟粉虱种群基因交流未受地理距离明显影响,种群遗传分化不显著。  相似文献   

14.
Sclerotinia trifoliorum, an important pathogen of cool season legumes, displays both homothallism and heterothallism in its life cycle, unique among members of the genus Sclerotinia. Very little is known about its genetic diversity and population structure. A sample of 129 isolates of S. trifoliorum from diseased chickpea in California was investigated for genetic diversity, population differentiation and reproductive mode. Genetic diversity was estimated using mycelial compatibility (MCG) phenotypes, rDNA intron variation, and allelic diversity at seven microsatellite loci. Genetic analysis revealed high levels of genotypic diversity demonstrated by high genotypic richness (0·88). Similarly, high levels of gene diversity (mean expected heterozygosity HE = 0·68) were observed at the microsatellite loci. Geographic populations of S. trifoliorum were highly admixed as evident from low FST values (0–0·11), suggesting high contemporary or historical gene flow. Hierarchical analysis of molecular variance showed that more than 92% of the genetic variation occurred among isolates within populations. Bayesian clustering analysis identified four cryptic genetic populations that were not correlated to geographic location, and index of multilocus association was non‐significant in each of the four genetic populations. However, the presence of identical haplotypes within and among populations indicates clonal reproduction. The high levels of haplotype diversity and population heterogeneity, a lack of correspondence between MCG and microsatellite haplotype, and low levels of population differentiation suggest that populations of S. trifoliorum in chickpea have been undergoing extensive outcrossing and migration events probably shaped by human‐mediated dissemination, the underlying diverse cropping systems, and chickpea disease management practices.  相似文献   

15.
Scab (Venturia effusa) is the major cause of economic loss in pecan in the south-eastern USA. We explored population genetic diversity and structure among orchards of cv. Desirable and native seedlings, and within-orchard variability among trees of all cultivars sampled. We compared the ability of 30, 15 and 7 previously developed microsatellites to characterize the population genetic diversity and structure of V. effusa. Analyses of molecular variance (AMOVA) provided little evidence of structure dependent on cultivar, but there was some evidence of structure between orchards of a cultivar based on distance. Individual orchard AMOVA showed that three of 11 orchards had between-tree population structure. Among six populations from cv. Desirable, a Mantel test showed that geographic distance was related to the pairwise genetic divergence (R2 = 0.84). Among 11 orchards of various cultivars there was little difference in diversity using 30, 15 or 7 markers, or population structure based on AMOVA. Some minor differences in population structure were seen based on discriminant analysis of principal components, or dendrograms. Thus, depending on the objectives, future studies may use as few as 15 or 7 markers without losing ability to discern population genetic diversity or structure. More populations exhibited linkage disequilibrium when using 15 or 30 markers compared to when using seven markers. Knowledge of population genetics of V. effusa in relation to host genotype is needed to understand pathogen population interactions and gene flow, knowledge that will help underpin future breeding efforts to develop durable resistance in this long-lived orchard tree.  相似文献   

16.
An analysis of allelic diversity at nine microsatellite loci provided an insight into the population structure of Botrytis cinerea from four fields (sampled in 2003 and 2004) that represented important regional locations for chickpea production in Bangladesh. Although three populations were limited by sample size after clone‐correction, a total of 51 alleles were amplified among 146 B. cinerea isolates from Bangladesh, which revealed a high amount of within‐population and overall genetic diversity (HS = 0·48 and H= 0·54, respectively). The percentage of maximal genotypic diversity (G) ranged between populations (G = 23–40), with a total of 69 haplotypes detected (G = 25). Bayesian cluster analysis depicted two major clusters distributed among the four Bangladesh populations, indicating population admixture from two origins that have spread throughout these regions. Genotype flow between regions was detected and indicated the spread of clonal lineages, consistent with relatively low differentiation among the four populations (mean GST = 0·1, P < 0·05). These results highlighted the potential threat of host resistance breakdown as a result of considerable genetic diversity, genotype flow and the evolutionary potential of B. cinerea.  相似文献   

17.
The oomycete Phytophthora colocasiae that causes taro leaf blight is the most devastating disease of taro and is widely distributed worldwide. Molecular and phenotypic techniques were employed for assessing and exploiting the genetic variability among four populations of P. colocasiae obtained from a fine spatial scale (multiple leaf blight lesions on single taro leaf). Phenotypic characters such as virulence, morphology and mating type showed no variation. ITS characterization revealed detectable polymorphism among isolates of P. colocasiae. The mean number of haplotypes (H), haplotype diversity (HD), nucleotide diversity (π), and nucleotide substitution rate (θ) among analyzed sequences were 6.75, 1.00, 0.069, and 0.088 respectively. High levels of inter and intra specific variation were detected by random amplified polymorphic DNA (RAPD) assays. Moderate genetic diversity (H?=?0.2651) was observed among populations of P. colocasiae. Analysis of molecular variance (AMOVA) confirmed that most of the genetic variability was confined to within a population (63.54 %). The coefficient of genetic differentiation among populations (G ST ) was 0.2007 and estimates of gene flow (Nm) among populations was 1.991 migrants per generation. Cluster analysis using UPGMA revealed that individuals from the same population failed to cluster in one distinct group. The results of the study reveal considerable genetic diversity among and within populations of P. colocasiae obtained from fine spatial scale. The possible mechanisms and implications of this genetic variation are discussed.  相似文献   

18.
Agricultural intensification has recently resulted in the decrease in frequency and abundance of arable weed species. This includes the previously widespread Centaurea cyanus, whose populations are now fragmented and infrequent in western Europe. The consequences of habitat modification and fragmentation in terms of genetic diversity of the remaining populations have not yet been addressed. We used ten microsatellite markers to assess the genetic diversity and genetic structure of populations contained in an agricultural landscape in north‐eastern France. The ten microsatellites were all highly polymorphic. Centaurea cyanus appears to be a genetically variable species, with high levels of genetic diversity within each cultivated field. Genetic structure was investigated using a Bayesian method. The partitioning of the genetic variation into three clusters was not associated with sampling locations, and most individuals were admixed. These results suggest that the cornflower populations investigated may have multiple origins in the past and that genetic variation has been reshuffled by human transportation of seeds. Thus, anthropogenic dispersal associated with farming activities is probably a major factor driving the structure of genetic diversity in arable land plants. Despite low levels of genetic differentiation between populations, fine‐scale spatial genetic structure was observed within populations, suggesting limited local dispersal. We conclude that in areas where C. cyanus has become rare, the recent fragmentation of populations may in the future cause a loss of genetic diversity and even extinction.  相似文献   

19.
为明确北京地区亚洲小车蝗Oedaleus asiaticus Bey-Bienko的迁飞来源,选取包含完整线粒体DNA的ND6、tRNA-Thr基因及侧翼ND4L、CYTB基因部分序列作为目的片段,采用DNA序列法分析来自北京及周边省市9个地理种群155个亚洲小车蝗样本的序列碱基组成、种群遗传多样性、种群结构及单倍型网络进化等。结果表明:在目的序列中共检测到多态性位点16个,鉴定出单倍型20种,分别占碱基总数和总样品量的1.88%和12.90%;核苷酸多样性为0.0012,单倍型多样性为0.66,种群间遗传分化系数绝对值≤0.51,种群内个体间遗传变异占总变异的86.88%,各种群遗传变异与空间距离间无显著相关性,供试样本总体上遗传变异程度相对较低。北京密云种群鉴定出的独享单倍型H14由单倍型H10经2次突变获得,H10被锡林郭勒和乌兰察布种群共享;北京密云与河北滦平、围场及内蒙古乌兰察布种群间基因流Nm绝对值分别为3.749、1.387和0.912,均高于密云种群与其它种群间的Nm绝对值;结合亚洲小车蝗在北京及周边地区出现的先后时序可知,内蒙古锡林郭勒、乌兰察布及河北滦平、围场是北京地区亚洲小车蝗的最主要迁飞来源。  相似文献   

20.
To assess the genetic relationships of Botrytis cinerea populations in Almería (Spain), 44 isolates of B. cinerea, collected from six commercial greenhouses (subpopulations), were analysed by Random Amplified Polymorphic DNA (RAPD) and amplified-fragment length polymorphism (AFLP). Polymorphisms were more frequently detected per primer with AFLP than with RAPD (16 compared to 4). However, RAPD detected polymorphisms more frequently per loci than AFLP (56% compared to 32%). The analysis of population structure revealed that the genetic diversity within subpopulations (HS) accounted for 96% of the total genetic diversity (HT) , while genetic diversity among subpopulations represented only 4% of the total diversity, independently of whether they were analysed with RAPD or AFLP markers. The relative magnitude of gene differentiation between subpopulations (GST) and the estimate of the number of migrants per generation (Nm) averaged similar values when estimated with RAPD or AFLP markers (0.039 and 0.036, or 12.32 and 13.39, respectively). The results obtained in dendrograms were in accordance with the gene diversity analysis. However, the diversity of B. cinerea was higher when analysed by RAPD than with AFLP. In these cases, the isolates could not be grouped by greenhouse or fungicide resistance (except those sensitive to carbendazim and resistant to procymidone). Both the RAPD and AFLP technologies are suitable for studies of genetic structure of B. cinerea populations, although RAPD generated more polymorphisms per loci than AFLP, and provided a better explanation of the genetic relationships between isolates.  相似文献   

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