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1.
Phytophthora capsici Leonian is a destructive soilborne pathogen that infects economically important solanaceous, cucurbitaceous, fabaceous, and other crops in the United States and worldwide. The objective of this study was to investigate the genetic structure of 255 P. capsici isolates assigned to predefined host, geographical, mefenoxam-sensitivity, and mating-type categories. Isolates from six continents, 21 countries, 19 U.S. states, and 26 host species were genotyped for four mitochondrial and six nuclear loci. Bayesian clustering revealed some population structure by host, geographic origin, and mefenoxam sensitivity, with some clusters occurring more or less frequently in particular categories. Bayesian clustering, split networks, and statistical parsimony genealogies also detected the presence of non-P. capsici individuals in our sample corresponding to P. tropicalis (n = 9) and isolates of a distinct cluster closely related to P. capsici and P. tropicalis (n = 10). Our findings of genetic structuring in P. capsici populations highlight the importance of including isolates from all detected clusters that represent the genetic variation in P. capsici for development of diagnostic tools, fungicides, and host resistance. The population structure detected will also impact the design and interpretation of association studies in P. capsici. This study provides an initial map of global population structure of P. capsici but continued genotyping of isolates will be necessary to expand our knowledge of genetic variation in this important plant pathogen. 相似文献
2.
Laboratory experiments were conducted to determine the baseline sensitivity of Phytophthora capsici and its risk for developing resistance to zoxamide. In total, 158 P. capsici isolates were collected from China. All 158 isolates were sensitive to zoxamide, with effective concentrations for 50% inhibition of mycelial growth of 0.023 to 0.383 μg/ml and a mean of 0.114 μg/ml, which showed a skewed unimodal distribution. Zoxamide-resistant mutants of P. capsici were obtained by either treating mycelial culture and zoospores with ultraviolet irradiation or adapting a culture on zoxamide-amended plates. The frequency of resistance selection averaged 1.8 × 10(-7). Resistant isolates were also derived by selfing or crossing two sexually compatible isolates, resulting in a mean selection frequency of 0.47. The resistance factor (RF) for zoxamide was 25 to 100 in P. capsici mutants. Through 10 culture transfers, the mutants maintained high levels of RF (between 14 and 134) and had almost equal fitness as their wild-type parents in mycelial growth, sporulation, and virulence. There was no cross resistance between zoxamide and either flumorph, metalaxyl, azoxystrobin, or etridiazole. Based on the results above, P. capsici can develop resistance to zoxamide, and the risk is predicted to be moderate in nature. 相似文献
3.
This study describes the chemical synthesis and intrinsic fungicidal activity of ethaboxam [(RS)-N-(alpha-cyano-2-thenyl)-4-ethyl-2-(ethylamino)-1,3-thiazole-5-carboxamide], a new Oomycetes fungicide. In in vitro tests, ethaboxam showed inhibitory activity against isolates of Phytophthora and some Pythium spp, with MIC values ranging from 0.1 to 0.5 mg litre(-1) for nine isolates of Phytophthora infestans (Montagne) de Bary and from 1.0 to 5.0 mg litre(-1) for eight isolates of Phytophthora capsici Leonian. In tests to determine time and concentration for complete inactivation of each pathogen (five isolates of P infestans and five isolates of P capsici), ethaboxam inactivated all isolates of P infestans within 48h at 10 mg litre(-1) and those of P capsici within 96 h at 10 mg litre(-1). Ethaboxam effectively suppressed development of tomato late blight caused by P infestans and pepper Phytophthora blight caused by P capsici in the studies conducted to determine its preventive, curative, persistent and systemic activity. These results show that ethaboxam has desirable fungicidal characteristics as an Oomycetes fungicide. 相似文献
4.
重庆地区辣椒疫霉对氟吡菌胺的敏感性及抗性突变体的生物学性状 总被引:1,自引:0,他引:1
为明确重庆地区辣椒疫霉对氟吡菌胺的抗性风险,采用菌丝生长速率法测定了采自重庆未使用过氟吡菌胺地区的110株辣椒疫霉菌株对氟吡菌胺的敏感性,并对辣椒疫霉抗氟吡菌胺突变体的诱导方法及抗性突变体的主要生物学性状进行了研究。结果表明:110株辣椒疫霉对氟吡菌胺的EC50平均值为(0.32 ± 0.11) μg/mL,不同菌株的敏感性频率呈连续单峰曲线分布,未出现敏感性明显下降的亚群体,因此可将该EC50平均值作为重庆地区辣椒疫霉对氟吡菌胺田间抗性监测的敏感基线。通过紫外诱导菌丝体的方法,共获得3株可稳定遗传的抗氟吡菌胺突变体,抗性倍数介于69.5~98.5之间,突变频率为0.86%;抗性突变体BS11-5-1与亲本菌株BS11-5在菌丝生长速率、温度适应性、产孢子囊能力及致病力方面均无显著差异,而抗性突变体JLP11-4-2和JLP11-4-3在菌丝生长速率、温度适应性、产孢子囊能力及致病力方面均显著低于亲本菌株JLP11-4;不同抗性突变体对渗透压的敏感性与亲本菌株之间均存在不同程度差异;3个抗性突变体对Biolog PM1中95种碳源的利用情况与亲本菌株基本相似。交互抗性测定表明,辣椒疫霉抗氟吡菌胺突变体对甲霜灵、霜脲氰、烯酰吗啉、丁吡吗啉及嘧菌酯之间均不存在交互抗性,建议可将氟吡菌胺与上述几种杀菌剂交替或混合使用。 相似文献
5.
ABSTRACT The potential for outcrossing, occurrence of oospores, and inheritance of mefenoxam sensitivity was assessed in naturally occurring populations of Phytophthora capsici. Between 1997 and 1998, 14 farms were sampled, with 473 isolates recovered from cucurbit hosts and 30 from bell pepper. The A1 and A2 compatibility types were recovered in a roughly 1:1 ratio in 8 of 14 farms with sample sizes larger than 15. In 1997, one isolate was designated as insensitive and four as sensitive to mefenoxam. In 1998, 55% of the 498 isolates sampled were sensitive, 32% were intermediate, and 13% were fully insensitive to mefenoxam. In vitro characterization of mefenoxam sensitivity was conducted by crossing field isolates. Chi-square analysis of crosses between sensitive, intermediately sensitive, and insensitive isolates indicate that mefenoxam insensitivity segregated as an incompletely dominant trait unlinked to compatibility type (P = 0.05). Oospores were observed in diseased cucurbit fruit from four farms in 1998, and 223 oospore progeny were recovered from a single diseased cucumber. All six mefenoxam sensitivity-compatibility type combinations were present in these oospore progeny and within single fields. Based on these findings, we conclude that oospores likely play a role in the survival of P. capsici and that sexual recombination may significantly influence population structure. 相似文献
6.
选择对多菌灵、乙霉威和苯酰菌胺具有不同敏感性的胶孢炭疽菌 Colletotrichum gloeosporioides、辣椒疫霉菌 Phytophthora capsici 及恶疫霉菌 P.cactorum,采用菌丝生长速率抑制法及氨基酸序列比对法分析了其 β-微管蛋白氨基酸突变与敏感性的关系。结果表明,胶孢炭疽菌对苯酰菌胺、多菌灵和乙霉威的敏感性与 β-微管蛋白198位或200位氨基酸突变有关:对多菌灵敏感、对苯酰菌胺和乙霉威不敏感的胶孢炭疽菌 β-微管蛋白氨基酸198位为谷氨酸(E),200位为苯丙氨酸(F);对多菌灵已产生抗性而对苯酰菌胺和乙霉威不敏感的菌株,其 β-微管蛋白氨基酸200位由苯丙氨酸(F)突变为了酪氨酸(Y);对多菌灵高抗、对苯酰菌胺和乙霉威敏感的菌株其 β-微管蛋白氨基酸198位由谷氨酸(E)突变为了丙氨酸(A)。辣椒疫霉菌和恶疫霉菌对苯酰菌胺敏感,对多菌灵和乙霉威均不敏感。检测疫霉菌菌株 β-微管蛋白未发现氨基酸突变,但发现其 β-微管蛋白氨基酸在196~200位与胶孢炭疽菌差异较大,这可能是导致苯酰菌胺仅对疫霉菌有抑制效果的原因。 相似文献
7.
选择对多菌灵、乙霉威和苯酰菌胺具有不同敏感性的胶孢炭疽菌Colletotrichum gloeosporioides、辣椒疫霉菌Phytophthora capsici及恶疫霉菌P. cactorum,分析其β-微管蛋白氨基酸突变与敏感性的关系。结果表明,胶孢炭疽菌对苯酰菌胺、多菌灵和乙霉威的敏感性与β-微管蛋白198位或200位氨基酸突变有关:对多菌灵敏感,对苯酰菌胺和乙霉威不敏感的胶孢炭疽菌β-微管蛋白氨基酸198位为谷氨酸(E),200位为苯丙氨酸(F);对多菌灵已产生抗性而对苯酰菌胺和乙霉威不敏感的菌株,其氨基酸200位由苯丙氨酸(F)突变为了酪氨酸(Y);对多菌灵高抗,对苯酰菌胺和乙霉威敏感的菌株其氨基酸198位由谷氨酸(E)突变为了丙氨酸(A)。辣椒疫霉菌和恶疫霉菌对苯酰菌胺敏感,对多菌灵和乙霉威均不敏感。检测疫霉菌菌株β-微管蛋白未发现氨基酸突变,但发现其β-微管蛋白氨基酸在196~200位与胶孢炭疽菌差异较大,这可能是导致苯酰菌胺仅对疫霉菌有抑制效果的原因。 相似文献
8.
Iprovalicarb has been used to control Phytophthora capsici, a devastating pathogen of many economically important crops. To evaluate the risk of fungicide resistance, 158 isolates of P. capsici were examined for sensitivity to iprovalicarb by measuring mycelial growth. Values of effective concentrations for 50% mycelial growth inhibition varied from 0.2042 to 0.5540 μg/ml and averaged 0.3923 (±0.0552) μg/ml, with a unimodal distribution. This is the first report of P. capsici isolates highly resistant to iprovalicarb (resistance factor >100). Resistance of the isolates was stable through 10 transfers on iprovalicarb-free medium, and most resistant isolates had the same level of fitness (mycelial growth, zoospore production, and virulence) as their corresponding parents, indicating that iprovalicarb resistance was independent from other general growth characters. There was cross-resistance among all tested carboxylic acid amide (CAA) fungicides, including iprovalicarb, flumorph, dimethomorph, and mandipropamid, but not with non-CAA fungicides, including azoxystrobin, chlorothalonil, cymoxanil, etridiazole, metalaxyl, and zoxamide. Based on the present results, resistance risk of P. capsici to CAAs could be moderate and resistance management should be considered. 相似文献
9.
安徽省辣椒疫霉交配型的分布及在无性后代的遗传 总被引:5,自引:1,他引:4
测定了采自安徽省岳西、潜山、和县、合肥、寿县、淮南、阜南、亳州等不同地区的64 株辣椒疫霉菌株的交配型,并用10 μg / mL 的甲霜灵处理A1 交配型的菌株HN8 和A2 交配型的菌株HN3,分别获得抗性突变菌株HN8-Mrt和HN3-Mrt,进一步测定交配型在HN8、HN3 及其抗性突变株游动孢子后代中的遗传稳定性。结果发现,供试菌株中A2 交配型58 株(占90. 6% );A1 交配型6 株(占9. 4% ),未发现A0 、A1 A2 和A1 ,A2 交配型;A2 交配型全省各地均有分布,A1 交配型只出现在和县、淮南和阜南3 地;HN8-Mrt与HN8、HN3-Mrt与HN3 的交配型分别相同,各菌株单游动孢子后代的交配型均与其亲本分别相同。结果说明,辣椒疫霉交配型在安徽的分布呈不均等的态势,其中以A2 型占绝对优势;用甲霜灵处理不会诱导辣椒疫霉交配型的变异,交配型在辣椒疫霉的游动孢子后代中能稳定遗传。 相似文献
10.
A differential series is the normal method for identification of races within a plant pathogen and a host interaction. A host differential is extremely useful for phytopathological as well as breeding purposes. A set of recombinant inbred lines (RILs) were developed and characterized for race differentiation of Phytophthora root rot caused by Phytophthora capsici. The highly resistant Capsicum annuum accession Criollo de Morelos-334 was hybridized to a susceptible cultivar, Early Jalapeno, to generate the RIL population. The host differential characterized 17 isolates of P. capsici into 13 races. The establishment of a stable host differential for the P. capsici and C. annuum interaction will assist researchers in understanding the complex inheritance of resistance to Phytophthora root rot and to develop resistant cultivars. 相似文献
11.
ABSTRACT Phytophthora capsici infects cucurbitaceous and solanaceous crops worldwide. In free water, P. capsici sporangia release zoospores that may be disseminated by moving surface water. Surface irrigation sources (river system, ponds, and ditches) in three Michigan counties with a history of P. capsici-susceptible crop production were monitored for the pathogen during four growing seasons (2002 to 2005). Pear and cucumber baits were suspended in water at monitoring sites for 3- to 7-day intervals and water temperature was recorded. Baits were washed and lesions were excised and cultured on water agar amended with rifampicin and ampicillin. P. capsici was detected at monitoring sites in multiple years, even when non-host crops were planted nearby. Recovered isolates (N = 270) were screened for sensitivity to the fungicide mefenoxam and characterized for mating type (MT). P. capsici isolates resistant to mefenoxam were common in water sources from southwest and southeast Michigan. Most monitoring sites yielded isolates of a 1:1 ratio of A1:A2 MTs. Amplified fragment length polymorphism analysis of select isolates from 2002 to 2004 indicated a lack of similarity groups persisting over time and in specific geographical locations. Data suggest that P. capsici did not overwinter in any of the surface water sources monitored. Water temperatures were correlated to positive P. capsici detection from all monitoring sites. The frequent detection of P. capsici in surface water used for irrigation in the primary vegetable growing regions in Michigan suggests that this is an important means of pathogen dissemination. 相似文献
12.
Molecular analysis of the major Phytophthora species on cocoa 总被引:1,自引:0,他引:1
The internally transcribed spacer (ITS) regions of the ribosomal RNA (rRNA) gene cluster of 161 isolates of Phytophthora species involved in pod rot, stem canker and leaf blight of cocoa were analysed to determine inter- and intraspecific variation in this disease complex. The species P. palmivora , P. megakarya , P. capsici , P. citrophthora and P. nicotianae could all be clearly distinguished by PCR amplification of the ITS region followed by restriction analysis with Hae III, Hinf I, Pvu II and Alu I. This method provided a relatively rapid identification procedure for these species, and was able to distinguish isolates that had previously been misidentified by morphological methods. Sequence analysis showed that the four main cocoa-associated species formed two distinct groups, one comprising P. capsici and P. citrophthora , and the other P. palmivora and P. megakarya . Detailed sequence analysis and comparison with published literature suggested that P. capsici isolates from cocoa may be closely related to P. tropicalis , a species recently described from Cyclamen and Dianthus . 相似文献
13.
Molecular detection of Phytophthora capsici in infected plant tissues, soil and water 总被引:2,自引:0,他引:2
A species-specific PCR assay was developed for rapid and accurate detection of the pathogenic oomycete Phytophthora capsici in diseased plant tissues, soil and artificially infested irrigation water. Based on differences in internal transcribed spacer (ITS) sequences of Phytophthora spp. and other oomycetes, one pair of species-specific primers, PC-1/PC-2, was synthesized. After screening 15 isolates of P. capsici and 77 isolates from the Ascomycota, Basidiomycota, Deuteromycota and Oomycota, the PC-1/PC-2 primers amplified only a single PCR band of c . 560 bp from P. capsici . The detection sensitivity with primers PC-1/PC-2 was 1 pg genomic DNA (equivalent to half the genomic DNA of a single zoospore) per 25- µ L PCR reaction volume; traditional PCR could detect P. capsici in naturally infected plant tissues, diseased field soil and artificially inoculated irrigation water. Using ITS1/ITS4 as the first-round primers and PC-1/PC-2 in the second round, nested PCR procedures were developed, increasing detection sensitivity to 1 fg per 25- µ L reaction volume. The results suggested that the assay detected the pathogen more rapidly and accurately than standard isolation methods. The PCR-based methods developed here could simplify both plant disease diagnosis and pathogen monitoring, as well as guiding plant disease management. 相似文献
14.
辣椒疫霉对双炔酰菌胺敏感性及对其它杀菌剂的交互抗性 总被引:6,自引:6,他引:0
采用菌丝生长速率法测定了不同地区115个辣椒疫霉菌株对双炔酰菌胺的敏感性,同时测定了紫外诱导和药剂驯化的10个抗性突变体及其4个亲本菌株对双炔酰菌胺、烯酰吗啉、甲霜灵、嘧菌酯和霜脲氰的敏感性。山东青州、寿光和河北定兴、藁城4地辣椒疫霉菌株均对双炔酰菌胺较敏感,且敏感性差异不显著。不同抗性水平菌株对5种药剂的敏感性测定和相关性分析结果显示,双炔酰菌胺与其它几类药剂之间均不存在交互抗性。10个抗性突变体继代培养11代后,8个抗性突变体抗药性不能稳定遗传;2个抗性突变体抗药性不仅能够稳定遗传,且EC50值维持在很高水平,分别为1 429.524 μg/mL和6 872.476 μg/mL,因此,双炔酰菌胺的连续使用有利于抗药群体的发展。 相似文献
15.
ABSTRACT Seven hundred forty-nine isolates of Phytophthora spp. were obtained from irrigation canals in eastern Washington State during the 1992 to 1995 and 1999 growing seasons. Isolates were retrieved using pear baiting techniques. All isolates were pathogenic to pear and were present in irrigation water beginning early in fruit development. Over the course of the 5 year study, 10 and 5% of isolates were identified as P. cactorum and P. citricola, respectively, using morphological criteria. The remaining isolates could not be identified using morphological criteria. Colony morphology of these isolates was characterized during all years of the study. In 1999, more detailed studies utilizing polymerase chain reaction restriction fragment length polymorphism (PCR-RFLP) analysis of entire internal transcribed spacer (ITS) regions (ITS1, 5.8S, and ITS2) of ribosomal DNA for 180 isolates, and sequence analysis of ITS2 for 50 isolates, were used to investigate genetic variation and phylogenetic relationships among isolates. Isolates were divided into 12 groups based on their growth type on corn meal agar. Restriction digestion of the entire ITS region with three enzymes revealed 11 restriction digestion patterns among 180 isolates. PCR-RFLP and sequence data were obtained for 12 reference Phytophthora spp. (two species in each of Waterhouse's six morphological groups). Phylogenetic analysis of ITS2 regions revealed nine clades, each with strong bootstrap support. Molecular analyses revealed 23 isolates that were in the P. gonapodyides clade, 9 in the P. parasitica clade, 1 in the P. cactorum clade, 7 in the P. citricola/capsici clade, and 4 in the P. cambivora/pseudotsugae clade. The three isolates comprising clade 5 were significantly distinct from all other Phytophthora spp. in the databases and may represent a new Phytophthora sp. Colony morphology was not consistently correlated to PCR-RFLP pattern or ITS2 phylogeny, suggesting that the former criterion is insufficient for species identification. The results of this study indicate that at least nine phylogenetically distinct taxa of Phytophthora pathogenic to pear are present in irrigation water in North Central Washington. 相似文献
16.
17.
Hurtado-Gonzáles O Aragon-Caballero L Apaza-Tapia W Donahoo R Lamour K 《Phytopathology》2008,98(6):688-694
Phytophthora capsici is a soilborne pathogen that causes significant losses to pepper production in Peru. Our objective was to investigate the mechanisms by which P. capsici is able to survive and spread. During 2005 to 2007, 227 isolates of P. capsici were collected from four species of pepper (Capsicum annum, C. baccatum, C. chinense, and C. pubescens) and tomato (Solanum lycopersicum) at 33 field sites in 13 provinces across coastal Peru. All 227 isolates were of the A2 mating type and amplified fragment length polymorphism (AFLP) analysis indicates that 221 of the isolates had the same genotype. Analyses of six polymorphic single nucleotide polymorphism (SNP) loci showed fixed heterozygosity suggesting a single clonal lineage is widely dispersed. Members of the same clonal lineage were recovered during 2005 to 2007 from geographically separate locations from each of the host types sampled. Our results indicate that clonal reproduction drives the population structure of P. capsici in Peru. The impact of continuous cropping and irrigation from common river sources on the population structure in Barranca Valley are discussed. 相似文献
18.
Dispersal of Phytophthora capsici and P. parasitica from point sources buried near the upper end of 74 m-long irrigation furrows was studied with three annual host crops. Furrows next to tomato were inoculated with either P. capsici or P. parasitica , while furrows next to pepper and squash were inoculated with P. capsici only. Irrigation was carried out on a 14-day cycle. Dispersal of each fungus in the water was monitored by transplants in the furrows and the incidence of infected tomato fruit along furrows. Disease gradients on roots and shoots of all hosts were also measured. Repeated irrigations dispersed P. capsici and P. parasitica up to 70 m from the source. Fruit infection increased with increasing distances downstream, suggesting an accumulation of secondary inoculum with the repeated flow of water. Conversely, gradients of disease severity on roots of tomato and pepper peaked at the source and rapidly decreased to low levels up to 32 m downstream. Fruit and root infection upstream from source was negligible. Root and crown rot in squash was highly variable, being confined to locations near the initial inoculum in some units while developing to severe levels several meters downstream in other units. Unlike the other hosts, squash petioles were in contact with the irrigation water and may have served as routes of invasion by P. capsici. Transport of inoculum from the furrow water to the roots was limited. P. capsici isolates were more virulent on tomato roots and caused a higher incidence of buckeye rot on tomato fruit than did isolates of P. parasitica. 相似文献
19.
新疆主要农作物疫霉菌种类鉴定 总被引:11,自引:1,他引:10
1993~1995年,对侵染新疆主要农作物的疫霉菌进行了较全面的调查研究,共从9个地区的28种作物上采集表现根腐、根颈腐、果腐症状(包括病土)的病样1531个,结果从其中17种作物上分离到452个疫霉菌株。根据形态特征、生理生化特性、致病性和菌体可溶性蛋白电泳测定,鉴定为7个种:辣椒疫霉(Phytophthora capsici Leon.),恶疫霉[P.cactorum(Leb.et Cohn) Schroeter],掘氏疫霉(P.drechsleri Tucker),菸草疫霉(P.nicotianae van Breda de Haan),苎麻疫霉(P.boehm eriaeSaw.),柑桔褐腐疫霉[P.citrophthora (Sm.et Sm.) Leonian],隐地疫霉(P.cryptogea Pethyb.etLaff.)。这些疫菌是造成新疆茄果类、瓜类、棉花、苹果、梨、枸杞、草霉、红花、白术等幼苗及成株大量死亡及烂果的主要病原,在农业生产中具有十分重要的意义。 相似文献
20.
辣椒疫霉(Phytophthora capsici)对辣椒的致病力分化研究 总被引:2,自引:0,他引:2
辣椒疫霉(Phytophthora capsici Leonian)是具有重大危害性的病原卵菌,其寄主范围较广,可引致辣椒、番茄、茄子、黄瓜、南瓜等多种重要蔬菜作物的疫病。由辣椒疫霉引起的辣椒疫病是一种毁灭性病害,在世界各地的辣椒种植区普遍发生,我国尤以江苏、浙江、安徽、上海等长江中下游地区发生严重。迄今国内关于辣椒疫霉致病力分化的研究较少,且存在分歧。有报道指出辣椒疫霉菌株对辣椒的致病力差异与菌株地区来源直接相关[1];也有研究认为辣椒疫霉菌株对辣椒的致病力与地理来源不直接相关[2]。此外,辣椒疫霉菌株致病力分化和菌丝生长速率是否相关尚属未知。本文对采自安徽合肥、淮南、和县、潜山、岳西、江苏南京和四川邛崃7个县市的23个辣椒疫霉菌株对辣椒的致病力和菌丝生长速率进行了测定,旨在明确辣椒疫霉菌株对辣椒的致病力是否存在分化现象及致病力与菌株地区来源及菌丝生长速率之间的关系,为辣椒疫霉所致辣椒疫病的抗病育种和综合治理提供依据。 相似文献