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研制了几种诱导疫霉菌产生游动孢子囊的蔬菜汁混合培养液,测定了各培养液诱导苎麻疫霉游动孢子囊的效果以及其对苎麻疫霉菌游动孢囊产生量、形态特征、游动孢子释放、卵孢子产生量、卵孢子的形态、菌丝生长和菌落形态等生物学性状的影响。试验结果显示,各配比培养液均能很好地诱导游动孢子囊的产生,且以较低浓度的培养液对孢子囊诱导效果较好,而高浓度则有利于卵孢子的产生,不同培养液中产生的游动孢子囊均能正常释放游动孢子。其中西红柿∶黄瓜=1∶2配比的培养液简单易行且诱导效果最好,是V8C的理想替代培养液。 相似文献
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为探寻非寄主和寄主种子分泌物中抗病信号分子,通过显微观察,采用菌丝生长速率法和离体接种法对不同种子分泌物处理后大豆疫霉Phytophthora sojae的游动孢子数、孢子囊数、游动孢子释放后残留的空囊数、成囊和未成囊的游动孢子数、萌发和未萌发的胞囊数、菌落直径、卵孢子数进行测量,并计算抑制率,明确非寄主菜豆和寄主大豆抗病品种、感病品种种子分泌物对大豆疫霉游动孢子趋化性、生长发育和侵袭力的影响。结果显示,非寄主菜豆种子分泌物不吸引大豆疫霉游动孢子,显著抑制大豆疫霉孢子囊形成、胞囊萌发和卵孢子产生,抑制率依次为97.3%、73.0%和17.5%,然后溶解胞囊,最终导致游动孢子对下胚轴侵袭力降低,抑制率为67.1%。寄主大豆种子分泌物能吸引大豆疫霉游动孢子,感病品种种子分泌物吸引力高于抗病品种。感病品种种子分泌物对大豆疫霉生长发育无显著影响,但促进大豆疫霉游动孢子侵袭力;抗病品种种子分泌物显著抑制大豆疫霉孢子囊形成、胞囊萌发和卵孢子产生,抑制率依次为86.6%、34.3%和12.8%,然后溶解胞囊,但作用强度小于非寄主菜豆种子分泌物,最终导致游动孢子对下胚轴的侵袭力降低,抑制率为24.2%。表明非寄主菜豆和寄主大豆抗病品种的种子分泌物对大豆疫霉有抑菌活性,大豆疫霉的非寄主和寄主抗病性与种子分泌物有关。 相似文献
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恶疫霉有性杂交后代的生物学研究 总被引:1,自引:1,他引:1
将2个带有不同抗药性标记的恶疫霉菌株配对,培养36 d后诱导其卵孢子萌发,从3760个单卵孢株中,获得50株带有双亲标记的杂交个体。对其中32株杂交个体的生长速率、有性和无性繁殖能力、卵孢子和游动孢子萌发率、致病力及对高温的耐受力等生物学性状进行测定。结果显示,测试的32株杂交个体在LBA培养基上均能较好地生长,有24株的杂交个体的生长速率介于2亲本之间;在LBA和SL培养基上,大多数杂交个体均能产生较大数量的卵孢子,有37%的杂交个体在SL培养基上产卵孢子能力显著大于双亲,仅有1个杂交个体不产生卵孢子;在人工培养条件下,大多数供试杂交个体可以产生较大数量的孢子囊,其中15株杂交个体产孢子囊能力处于双亲之间;被测的杂交个体产生的卵孢子或游动孢子均可以萌发形成有效的单孢株,有22株的杂交个体的卵孢子萌发率大于50%;被测的杂交个体接种在苹果上都有较强的致病力,有16株杂交个体的致病力显著大于双亲。表明在群体水平上恶疫霉有性杂交后代具有较强的生活能力,提示同宗配合恶疫霉不同菌株间的有性重组,对该种的群体遗传多样性可能具重要作用。 相似文献
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“霜霉威(Propamocarb)”“甲霜灵(Metalaxyl)”对我国辣椒疫霉菌作用方式比较及交互抗性的研究 总被引:7,自引:0,他引:7
通过霜霉威(Propamocarb商品名普力克)、甲霜灵(Metalaxyl商品名瑞毒霉)对辣椒疫霉菌(Phytophthora capsici)6个菌株作用方式的体外测定结果表明,霜霉威浓度在2000ppm时对P. capsici孢子囊和卵孢子的形成,游动孢子的释放、游动及休止孢萌发、菌丝体的生长没有明显的抑制作用。而甲霜灵对P. capsici的各种孢子的产生及菌丝体的生长有较强的抑制作用,对菌丝体生长抑制的Ec_(50)和Ec_(95)分别为0.5596ppm和2.1511ppm;对孢子囊形成抑制的Ec_(50)和Ec_(95)分别为0.1520ppm和15.0032ppm。0.1ppm的甲霜灵可显著抑制卵孢子的生成。但500ppm的甲霜灵对于游动孢子的释放和休止孢萌发没有明显的抑制作用。对霜霉威和甲霜灵的体内活性试验结果表明,800ppm的霜霉威对辣椒疫霉菌的内吸保护防效达94%,1.0ppm的甲霜灵对该病的防效达100%。室内初步试验结果表明,甲霜灵与霜霉威对P. capsici没有交互抗性。 相似文献
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福建省大豆疫病病原鉴定及其核糖体DNA-ITS序列分析 总被引:35,自引:3,他引:35
从福建省龙海大豆根腐病株上分离的疫霉菌株中,选取6个代表菌株,对病原菌进行了形态特征、致病性、寄主范围鉴定及核糖体DNA-ITS序列分析,结果表明,该菌为疫霉属真菌,在黑麦琼脂培养基上生长缓慢,菌丝致密、无隔,形成菌丝膨大体,近直角分支,分支处稍缢缩。水培后产生大量椭圆形孢子囊,不形成乳突,通过内层出方式产生新孢子囊,游动孢子在孢子囊内形成,同宗配合,藏卵器球形,雄器侧生;接种后可出现典型的大豆疫病症状;人工接种只侵染大豆、豇豆和菜豆等少数豆科植物。其核糖体DNA-ITS序列分析表明,分离菌株与GenBank中大豆疫霉的ITS序列的同源性均为99.8%,仅有2个碱基的差异,结合形态特征和致病性测定,将这些病原菌鉴定为Phytophthora sojae. 这是首次报道大豆疫霉菌在福建省存在。 相似文献
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稻曲病菌无性孢子萌发及在不同培养基上生长特性 总被引:3,自引:0,他引:3
采用不同的培养基研究稻曲病菌孢子萌发及病菌生长特性.结果表明,稻曲病菌厚垣孢子和分生孢子在蒸馏水和2%蔗糖溶液中3h不能萌发;6h时分生孢子、厚垣孢子分别萌发产生次生分生孢子和分生孢子;新采集的黄色和黑色稻曲球上的厚垣孢子在2%蔗糖溶液中的萌发率均高于其在蒸馏水中的萌发率.供试的9种固体培养基中,以马铃薯蔗糖琼脂培养基(PSA)最适于病原菌生长.生长速率为2.54 mm/天;病菌在7种培养液中振荡培养7天后,在马铃薯葡萄糖培养液(PDB)中菌丝干重最大,达24.5mg/mL,在大米汁和马铃薯蔗糖培养液(PSB)中产生的分生孢子量最多,孢子浓度分别为2.63×107和2.28×107个/mL;而固、液态的Czapek、稻秆汁和胁本哲氏培养基均不适宜于稻曲病菌的培养. 相似文献
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ABSTRACT Phytophthora nicotianae was added to pasteurized soil at the rate of 500 laboratory-produced chlamydospores per gram of soil and exposed to temperatures ranging from 35 to 53 degrees C for 20 days. The time required to reduce soil populations to residual levels (0.2 propagule per gram of soil or less) decreased with increasing temperatures. Addition of cabbage residue to the soil reduced the time required to inactivate chlamydospores. Temperature regimes were established to simulate daily temperature changes observed in the field, with a high temperature of 47 degrees C for 3 h/day, and were good estimators of the efficacy of soil solarization for the control of P. nicotianae in soil. Cabbage amendment reduced the time required to inactivate chlamydospores of P. nicotianae and its effect was more pronounced at lower temperature regimes. 相似文献
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ABSTRACT Aluminum (Al) is toxic to many plant pathogens, including Thielaviopsis basicola and Phytophthora parasitica var. nicotianae. Because fungi-toxicity of Al has been described in soils over a wide pH range, multiple species of Al may be responsible for pathogen suppression. The goals of this work were to determine the sensitivity of T. basicola and P. para-sitica var. nicotianae to Al over a range of pH values, quantify the toxicity of monomeric Al species to production of sporangia of P. parasitica var. nicotianae and chlamydospores of T. basicola, and detect the accumulation of Al in pathogen structures. A complete factorial treatment design was used with Al levels ranging from 0 to 100 muM and pH levels ranging from 4 to 6 in a minimal salts medium. The chemistry of test solutions was modeled using GEOCHEM-PC. Colonies were grown in 5% carrot broth, and after 1 or 2 days, the nutrient solution was removed, colonies were rinsed with water, and Al test solutions were added to each of four replicate plates. After 2 days, propagules were counted and colonies were stained with the Al-specific, fluorescent stain lumogallion. The oomycete P. parasitica var. nicotianae was sensitive to multiple monomeric Al species, whereas sensitivity of T. basicola to Al was pH-dependent, suggesting that only Al(3+) is responsible for suppression of this fungal pathogen. Chlamydospore production by T. basicola was inhibited at pH values <5.0 and Al levels >20 muM, whereas sporangia production by P. parasitica was inhibited at Al levels as low as 2 muM across all pH values tested. The lumogallion stain was an effective technique for detection of Al in fungal tissues. Aluminum accumulated in sporangia and zoospores of P. parasitica var. nicotianae and in nonmelanized chlamy-dospores of T. basicola, but not in cell walls of either organism. The differential sensitivity of the two organisms may indicate that true fungi respond differently to Al than members of the oomycota, which are more closely related to plants. 相似文献
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荧光假单胞菌拮抗菌株对烟草疫霉的抑菌机制及控病效果 总被引:2,自引:1,他引:1
为探讨烟草根际生防细菌对烟草疫霉Phytophthora nicotianae的抑菌机制,从重庆地区连作烟田健康烟株根际土壤分离获得5株荧光假单胞菌Pseudomonas fluorescens拮抗菌株。通过平板对峙及代谢产物抑菌试验筛选对烟草疫霉具有高效拮抗作用的菌株,其中,P-72-10菌株抑菌效果最强,抑菌带半径达13.0 mm,相对抑制率为68.57%,且该菌株代谢产物对烟草疫霉菌丝生长有明显的抑制作用,相对抑制率达25.39%~46.03%;显微观察发现该菌株可引起烟草疫霉菌丝的分支增多,菌丝顶端膨大呈畸形,多数菌丝中间或顶端细胞的细胞壁加厚、原生质浓缩和产生类似厚壁孢子的细胞。在温室盆栽条件下P-72-10菌株对烟草黑胫病也表现出良好的控病效果,对抗病和感病品种的相对防效分别为53.57%和66.37%。 相似文献
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ABSTRACT A microbioassay was developed for the discovery of compounds that inhibit Phytophthora spp. This assay uses a 96-well format for high-throughput capability and a standardized method for quantitation of initial zoospore concentrations for maximum reproducibility. Zoospore suspensions were quantifiable between 0.7 and 1.5 x 10(5) zoospores per ml using percent transmittance (620 nm). Subsequent growth of mycelia was monitored by measuring optical density (620 nm) at 24-h intervals for 96 h. Full- and half-strength preparations of each of three media (V8 broth, Roswell Park Memorial Institute mycological broth [RPMI], and mineral salts medium) and four zoospore concentrations (10, 100, 1,000, and 10,000 zoospores per ml) were evaluated. Both full- and half-strength RPMI were identified as suitable synthetic media for growing P. nicotianae, and 1,000 zoospores per ml was established as the optimum initial concentration. The assay was used to determine effective concentration values for 50% growth reduction (EC(50)) for seven commercial antifungal compounds (azoxystrobin, fosetyl-aluminum, etridiazole, metalaxyl, pentachloronitrobenzene, pimaricin, and propamocarb). These EC(50) values were compared with those obtained by measuring linear growth of mycelia on fungicide-amended medium. The microbioassay proved to be a rapid, reproducible, and efficient method for testing the efficacy of compounds that inhibit spore germination in P. nicotianae and should be effective for other species of Phytophthora as well. The assay requires relatively small amounts of a test compound and is suitable for the evaluation of natural product samples. 相似文献
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ABSTRACT Phytophthora nicotianae is a common and destructive pathogen of numerous ornamental, agronomic, and horticultural crops such as tobacco, tomato, and citrus. We have developed a species-specific polymerase chain reaction (PCR) assay for rapid and accurate detection of this pathogen in irrigation water, a primary source of inoculum and an efficient means of propagule dissemination. This PCR assay consists of a pair of species-specific primers (PN), customization of a commercial soil DNA extraction kit for purification of DNA from propagules in irrigation water, and efficient PCR protocols for primer tests and sample detection. The PN primers proved adequately specific for P. nicotianae in evaluations with 131 isolates of P. nicotianae, 102 isolates from 15 other species of Phytophthora, and 64 isolates from a variety of other oomycetes, true fungi, and bacteria. These isolates originated from a wide range of host plants, three substrates (plant tissue, soil, and irrigation water), and numerous geographic locations. The detection sensitivity is between 80 and 800 fg DNA/mul. The assay detected the pathogen in naturally infested water samples from Virginia and South Carolina nurseries more rapidly and accurately than standard isolation methods. Use of this PCR assay can assist growers in making timely disease management decisions with confidence. 相似文献
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ABSTRACT Epidemics of citrus brown rot from 1994 to 1997 in the south-central and east-coast citrus areas of Florida were characterized and the causal Phytophthora spp. identified. Two species of Phytophthora, P. palmivora and P. nicotianae, were consistently associated with brown rot. Epidemics caused by P. palmivora appeared to be initiated on immature fruit dropped on the orchard floor. The soilborne fungus infected and sporulated on these fruit and was then disseminated to fruit above 1 m in the canopy. In contrast, infection by P. nicotianae, the common cause of root rot, was confined to the lowest 1 m of the canopy. Fruit infected by P. palmivora produced large amounts of ellipsoidal sporangia available for splash dispersal, whereas those infected by P. nicotianae produced far fewer spherical sporangia. Isolates from brown rot epidemics were compared with P. nicotianae from citrus in Florida and Texas, P. citrophthora in California, P. palmivora, and selected Phytophthora spp. from other hosts. Brown rot symptoms produced by the different pathogenic citrus isolates on inoculated fruit were indistinguishable. Morphology, mating behavior, and isozyme patterns of brown rot isolates from 1988 to 1997 matched P. palmivora from citrus roots, other host plants, and other locations, but were different from characterized isolates of P. citrophthora in California and P. nicotianae in Florida and Texas. Cellulose acetate electrophoresis of the isozyme glucose-6-phosphate isomerase rapidly identified the causal citrus pathogen from infected fruit and soil isolation plates. Although P. palmivora is an aggressive pathogen of citrus roots, bark, and fruit, populations in orchard soils were low compared with P. nicotianae. 相似文献
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深绿木霉T2菌株对百合疫霉拮抗作用及机制 总被引:2,自引:0,他引:2
本文采用对峙培养、抗生物质测定、对扣培养、圆盘滤膜法、酶活性测定等方法,研究了深绿木霉对百合疫霉病菌的拮抗作用及机制。结果表明,深绿木霉T2菌株具有较强的营养竞争与重寄生作用;并发现其有抗生物质和溶菌酶类产生,对峙培养60 h时,深绿木霉生长速率是百合疫霉的3.68倍,能够与其竞争营养,抑制了百合疫霉的生长与扩展,深绿木霉寄生在百合疫霉菌丝上生长,导致百合疫霉菌丝降解;其代谢产物能够抑制百合疫霉的生长,48 h时难挥发性和易挥发性代谢产物对百合疫霉的抑菌率分别为85.07%和79.10%;深绿木霉T2菌株的发酵液有较高的β 1,3 葡聚糖酶活性,并在第5天达到峰值,为18.54U;深绿木霉发酵液对百合疫霉菌丝有降解作用。 相似文献
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玉米灰斑病研究方法:Ⅰ玉米灰斑病菌孢子的培养 总被引:1,自引:0,他引:1
为了明确玉米灰斑病菌的产孢条件,将玉米灰斑病菌接种到马铃薯蔗糖(PSA)、燕麦番茄碳酸钙(OTCA)、玉米叶粉碳酸钙(MLPCA)、燕麦粉(OA)、粗面粉(CWPA)等5种培养基上,于25 ℃下培养,测定该菌生长速度、产孢时间和产孢量。结果表明,菌丝在上述培养基上生长速度均较慢,每天平均生长0.33 mm左右,其中以在OA和PSA上生长速度相对较快。基于上述结果,构建了玉米灰斑病菌孢子培养的二级分段培养法,即将菌丝块接种于加有10~15粒直径为5 mm玻璃珠的马铃薯蔗糖(PS)液体培养基三角瓶里,在25 ℃,180 r/min条件下振荡培养15 d,形成菌丝悬液,再取菌丝悬浮液涂布在MLPCA 培养基上,避光培养13 d左右,可获得大量供接种的分生孢子。长期光照促进菌丝生长,不利于孢子的形成,而长期黑暗不利于菌丝生长,但有利于孢子的形成。 相似文献