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初步研究了茉莉酸诱导对小麦苗抗病虫能力的影响,结果显示,小麦在喷施茉莉酸后能够提高植株对麦长管蚜和小麦白粉病菌、小麦叶锈病菌的抵抗能力,可显著降低小麦白粉病、叶锈病的发病级别和病斑数量,对麦长管蚜则在体重和产仔数量上有显著的抑制作用。对小麦病虫的控制效果达40%~60%。茉莉酸诱导小麦抗病虫性初步研究@尹姣$中国农业科学院植物保护研究所!北京100094 相似文献
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茉莉酸诱导小麦幼苗对麦蚜取食行为的影响 总被引:11,自引:0,他引:11
茉莉酸可诱导小麦品种郑州891的防御反应,使麦长管蚜Sitobion avenae(F.)和禾谷缢管蚜Rhopalosiphum padi(L.)的取食行为发生明显改变。尽管此两种蚜虫在正常的小麦相干株上取食的EPG各波型参数出现的次数及历时变化较大,但经茉莉酸诱导后,都再现了NP波次数和历时显著增加、E1与E2波历时明显缩短、首次出现E1波时间显著延长以及口针在细胞间穿刺频率明显升高等变化。这说明茉莉酸诱导后,郑州891的取食适合度降低,其机理与茉莉酸诱导产生挥发性的蚜虫取食拒避剂及诱导维管液营养成份的改变有关。试验还证实;麦长管蚜和禾谷缢管蚜的嗅觉和味觉感受器在其对寄主植物适合度的鉴别中共同起作用;植物适合度不能仅由1-2个EPG波形参数作为指示因子,要视具体情况全面分析,才能得出可靠的结论。 相似文献
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植物病毒与介体蚜虫存在复杂的互作关系。前人关于植物病毒对蚜虫调控作用的研究主要集中在植物病毒通过寄主植物对蚜虫的间接影响上,未见植物病毒对介体蚜虫适合度直接调控的报道。鉴于此,我们以麦长管蚜Sitobion miscanthi (Takahashi)为试虫,以其传播的大麦黄矮病毒-GAV(Barley yellow dwarf virus GAV,BYDV-GAV)为测试病毒,以全纯人工饲料加入BYDV-GAV病毒提取液饲养麦长管蚜4 d,使之在不接触寄主植物条件下获毒,然后分别在全纯人工饲料和无毒小麦叶片上继续饲养,直至死亡。利用生命表技术分析麦长管蚜生长发育和繁殖参数。研究结果表明:在无毒小麦叶片饲养条件下,与未获毒对照麦长管蚜相比,获毒后麦长管蚜生活史参数成虫历期和产仔天数显著降低,繁殖力显著增加;种群参数内禀增长率、净繁殖率、周限增长率显著增加,平均世代周期显著降低。在全纯人工饲料条件下,与未获毒对照相比,获毒后麦长管蚜仅成虫历期和产仔天数显著下降,而其他生活史参数及种群参数均无显著差异。说明BYDV-GAV使得介体麦长管蚜在小麦叶片上的适合度显著提高,这是由麦长管蚜与寄主植物互作引起的,而病毒对介体麦长管蚜的适合度无直接调控作用。 相似文献
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小麦品种多样性对麦长管蚜的生态调控作用 总被引:3,自引:1,他引:2
为探讨麦田遗传多样性对麦长管蚜的生态效应,系统调查了麦长管蚜及其天敌的种群时序变化,并分析了对麦长管蚜空间分布的影响.结果表明,所有间作处理麦田中高峰期麦长管蚜无翅蚜的百株蚜量均显著低于单作麦田,其顺序为:小麦单作北京837(7 422.0头)>与KOK间作(5796.7头)>与红芒红间作(5406.7头)>与郑州831间作(5291.7头)>与JP2间作(4493.4头)>与中四无芒间作(4 155.0头),且麦蚜由聚集分布趋于均匀分布;蚜茧蜂发生的高峰期,各间作处理麦田中蚜茧蜂的平均数量高于小麦单作田,且差异达极显著水平(P<0.01);各间作处理麦田小麦理论产量增加,与小麦单作处理差异显著(P<0.05).表明大田小麦品种间作抗蚜品种对麦长管蚜有显著的调控作用. 相似文献
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[目的]探讨麦田间作对麦长管蚜种群的生态调控作用。[方法]田间调查小麦单作田、小麦与绿豆、小麦与豌豆以8:2行距间作田麦长管蚜种群数量及其时间动态变化;室内利用"Y"型嗅觉仪测定麦长管蚜对小麦、小麦与绿豆、小麦与豌豆不同组合气味的选择性。[结果]麦田间作不能影响麦蚜种群随时间动态变化曲线,但能在一定程度上降低麦长管蚜无翅蚜和有翅蚜的数量。室内麦长管蚜无翅蚜和有翅蚜显著选择寄主植物的气味。当小麦与绿豆或小麦与豌豆组合时对麦长管蚜没有吸引作用。[结论]非寄主植物的气味对寄主植物气味起掩盖作用,干扰蚜虫的寄主定位,这可能是间作低于单作蚜量的原因之一。 相似文献
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不同小麦品种资源苗期和成株期麦长管蚜抗性鉴定和分析 总被引:2,自引:2,他引:0
为明确小麦苗期和成株期与麦长管蚜抗性的关系,2010—2012年采用蚜量比值法对94个小麦品种进行了温室苗期人工接种和田间成株期自然感蚜麦长管蚜抗性鉴定。结果表明,43个品种连续3年在成株期对麦长管蚜表现不同程度的抗性,其中高抗品种2个,中抗品种8个,低抗品种33个;45个品种在苗期对麦长管蚜表现不同程度的抗性,其中高抗品种5个,中抗品种16个,低抗品种24个;30个品种在苗期和成株期同时表现抗蚜,占供试品种的31.91%,其中C273和兰麦(陕西柞水)在苗期和成株期均表现为高抗;小麦品种在温室苗期人工接种和田间成株期自然感蚜的蚜量比值呈极显著正相关,苗期和成株期麦长管蚜抗性表现一致的共有66个品种,占供试材料的70.21%。研究表明温室苗期人工接种是快速鉴定小麦品种麦长管蚜抗性的有效方法。 相似文献
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由于我区农作物种植面积的调整和耕作措施的变化,在未来五年内,我区棉、油、瓜、果等作物病虫害比粮食作物的病虫害严重,害虫中以蚜虫、红蜘蛛等发生较重,病害中以病毒病、霜霉病、白粉病和枯萎病等发生较重。麦蚜将中度偏轻发生。近十几年来,麦二叉蚜发生数量大为减少,其优势地位被麦长管蚜代替。但麦长管蚜主要在小麦穗部危害,南疆小麦早熟品种面积较大,穗期适宜麦长管蚜发生时期较短,危害比较轻。黄地老虎曾是我区棉花、玉米上的主要害虫,近年来在棉花、玉米地危害减轻。在未来五年内,它将保持现状,但在其他春播作物如甜菜、瓜类、蔬菜和秋白菜等地,其发生危害可能较重。我区棉花原有三种蚜虫:棉黑蚜、棉长管蚜和拐枣蚜,发 相似文献
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茉莉酸对PR-1、PR-2、PR-5和Ta-JA2基因 表达以及小麦白粉病抗性的诱导 总被引:1,自引:0,他引:1
为了探索小麦抗白粉病分子机理,明确茉莉酸对小麦白粉病抗性的诱导作用、对植物抗病性标志基因PR-1、PR-2、PR-5和本实验室克隆的1个新基因Ta-JA2的激活作用,以及抗病性变化与基因表达变化之间的相关性,本研究以感白粉病的小麦品种“中国春”、“濮麦9号” 和“周麦18”为材料,用茉莉酸甲酯(methyl jasmonate,MeJA)喷洒小麦幼苗叶片进行诱导,通过离体叶段培养法接种白粉菌(Blumeria graminis f. sp. tritici,Bgt)进行抗性鉴定;用实时定量PCR技术检测小麦叶片中PR-1、PR-2、PR-5和Ta-JA2基因的表达变化。结果表明MeJA处理可以显著提高“中国春”、“濮麦9号”和“周麦18”对白粉菌的抗病水平。茉莉酸处理显著激活了PR-1、PR-2、PR-5和Ta-JA2的转录。茉莉酸诱导的抗病性提高与抗病标志基因PR-1、PR-2、PR-5及Ta-JA2的表达增强呈正相关。植物激素茉莉酸是小麦抗白粉病反应的信号分子。 相似文献
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Field trials were conducted in spring wheat to observe effects of jasmonic acid (JA) on aphids, thrips and wheat blossom midge (WBM). Two spring wheat varieties (Triso and Kadrilj) were sprayed twice, with two concentrations of JA plus control. Wheat pests and associated natural enemies (Coccinellidae, Empididae and Aphelinidae) were surveyed by direct count and sweep net methods. Thrips larvae and adults and WBM larvae were estimated by dissecting wheat ears. Wheat midge larvae were monitored using white traps in treated and untreated plots. At the end of season, wheat yield was assessed in treated and control plots. There was a significant difference in the number of insect pests and their natural enemies between treatments in both varieties. Plants in control plots had higher numbers of aphids, thrips and midges than in treated plots. There were more aphids, thrips and midges on the variety ??Triso?? than on ??Kadrilj??. JA application enhanced wheat yield in treated plots compared to control plots. The results indicated that JA mediated induction of plant defense in wheat plants can improve resistance against insect herbivores. JA could be used to develop environmentally sound crop management with reduced insecticide applications. 相似文献
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Upon pathogen or insect attack, plants respond with production of a specific blend of the alarm signals salicylic acid (SA) and jasmonic acid (JA), which are recognized as key players in the regulation of the signaling pathways involved. SA and JA responsive genes and SA/JA cross talk were well characterized in dicotyledonous species, but little is known in monocotyledonous plants. Using qRT-PCR, the expression profiles of SA and JA responsive genes were investigated after SA and JA treatments in monocots wheat. The results showed that Glu2 and PR-2 responded almost exclusively to SA, PR-3 and LOX2 responded positively to methyljasmonate (MeJA) treatment, while Lipase and PR-1.1 were induced in response to treatment with SA or MeJA. Furthermore, either by pathogen infection or exogenous application of hormones can activate the antagonistic effect between SA and JA in wheat, which has been well elucidated in dicotyledonous species. The outcomes of SA-JA interactions could be affected by the relative concentration of each hormone. This study shed light on marker genes that can represent SA and JA pathways in wheat and provided some clues for better understanding their interactions in monocot. 相似文献
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The effect of phytohormones on the defense response of wheat against Fusarium graminearum infection was investigated. Infection of heads with F. graminearum induced accumulation of salicylic acid (SA), jasmonic acid (JA), abscisic acid (ABA), and indole acetic acid (IAA). Exogenous phytohormone treatments showed crosstalk between them and a complex effect on expression of the genes ATB2, ExpB6, LEA Td16, PR1, Pdf1.2, PR4. JA treatment reduced F. graminearum growth and fusarium head blight (FHB) symptoms while an increase in FHB was observed with ABA. Transient down-regulation of allene oxide synthase (AOS) supports a complex role for JA in wheat head. 相似文献
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Zongbiao Duan Guizhen Lv Chuncai Shen Qiaoyun Li Zhao Qin Jishan Niu 《European journal of plant pathology / European Foundation for Plant Pathology》2014,140(1):169-183
Jasmonic acid (JA) signalling plays an important role in plant resistance to pathogens. Previously, JA has been found to play a role in induced disease resistance to necrotrophic pathogens in various plant species, but current researches showed that JA also enhanced resistance to biotrophic pathogens. However, its role in wheat (Triticum aestivum L.) powdery mildew (Blumeria graminis f. sp. tritici, Bgt) resistance reaction is largely unknown. To settle this issue, several typical powdery mildew resistant and susceptible wheat varieties were employed. The sensitivity to exogenous methyl jasmonate (MeJA) to wheat powdery mildew resistance, the concentration fluctuation of endogenous JAs after Bgt inoculation, and the expression profiles of nine pathogenesis-related protein genes (PR genes) after MeJA and Bgt treatments were studied systematically. Exogenous MeJA significantly enhanced the powdery mildew resistance of the susceptible varieties. After inoculation with Bgt, endogenous JAs accumulated rapidly, reached the maxima at 2 to 5 h post-inoculation (hpi), then decreased rapidly, and the concentration was almost the same as that of un-inoculated control at 96 hpi. The expression levels of the nine PRs were measured by real time quantitative RT-PCR (qRT-PCR) at different time points after MeJA application or Bgt inoculation respectively. The MeJA and Bgt strongly activated PR1, PR2, PR3, PR4, PR5, PR9, PR10 and Ta-JA2, but almost didn’t affect Ta-GLP2a. The induced powdery mildew resistance was positively correlated with the activated PR genes. JA plays a positive role in defence against Bgt. JA is a signalling molecule in wheat powdery mildew resistance and future manipulation of this pathway may improve powdery mildew resistance in wheat breeding. 相似文献
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Peter Landgraf Ivo Feussner Astrid Hunger Dierk Scheel Sabine Rosahl 《European journal of plant pathology / European Foundation for Plant Pathology》2002,108(3):279-283
In potato plants induced for systemic resistance by infiltration with Pseudomonas syringae pv. maculicola, 12-oxo-phytodienoic acid (OPDA) accumulated in infiltrated leaves as well as in non-treated leaves of infected plants. In contrast, jasmonic acid (JA) levels increased only in infiltrated leaves, suggesting that the biosynthetic precursor of JA, OPDA, might play a role in systemic acquired resistance. 相似文献
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发生在我国的小麦黄花叶病毒病 总被引:6,自引:0,他引:6
本文对山东荣成流行的一种小麦病毒病进行了鉴定。提纯的病毒颗粒为长线状,13×100—300nm及13×350—650nm。汁液接种感染小麦,但不感染烟草、苋色藜等植物。病土、病根以及含有禾谷类多粘菌(POlymyxa graminis)游动孢子的浸液可以传毒于小麦、大麦及黑麦。此病毒与大麦黄花叶病毒(BYMV)、小麦梭条花叶病毒(WSSMV)有血清学关系,与小麦土传花叶病毒(WSBMV)无血清学关系。病叶表皮细胞中有无定形内含体。超薄切片可见风轮状内含体。实验结果表明,荣城地区发生的这种小麦病毒病是小麦黄花叶病毒所致。 相似文献
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我国几种禾谷类植物上Xanthomonas campestris致病变种的研究 总被引:1,自引:0,他引:1
从我国新疆、内蒙、西藏、北京和山东等省区的小麦、大麦、野黑麦、冰草、偃麦草和雀麦上分离到13个黑颖病菌株,在苗期、分蘖期和孕穗期,喷雾接种16属27种禾本科植物,对其中感病的6属15种植物和燕麦又做注射接种。根据各个菌株对小麦、大麦、黑麦、冰草、偃麦草和雀麦的致病性差异,初步将其划分三个致病变种:1.禾谷类致病变种[X.campestris pv.cerealis (Hagborg) Dye.]:包括7个菌株,自然条件下发生在冰草、雀麦和偃麦草上;人工接种还可侵染小麦、大麦和黑麦。2.小麦致病变种(X.campestris pv.undulosa):包括4个菌株,自然条件下发生在小麦上,人工接种可侵染大麦和黑麦,但有一个菌株注射接种能轻度侵染雀麦。3.大麦致病变种(X.campestris pv.hordei):包括2个菌株,自然条件下发生在大麦上,注射接种能轻度侵染偃麦草。13个菌株喷雾接种猫尾草、早熟禾、画眉草、马唐、狗尾草、稗草、披碱草、羊茅草和水稻、均不侵染。 相似文献
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L. Riccioni A. Inman H. A. Magnus M. Valvassori A. Porta-Puglia G. Conca G. Di Giambattista K. Hughes M. Coates R. Bowyer A. Barnes C. E. Sansford J. Razzaghian A. Prince G. L. Peterson 《Plant pathology》2008,57(4):612-622
Representative European wheat cultivars were tested under quarantine containment for their susceptibility to Tilletia indica, the cause of Karnal bunt of wheat. Fifteen winter and 15 spring wheat ( Triticum aestivum ) and 11 durum wheat ( Triticum durum ) cultivars were inoculated by boot injection just prior to ear emergence to test their physiological susceptibility. Selected cultivars were then re-tested by spray inoculation after ear emergence to determine their morphological susceptibility, which is a better predictor of field susceptibility. At maturity, the ears and seeds were assessed for incidence and severity of disease. For the physiological susceptibility tests, 13/15 winter wheat cultivars were infected and the percentage of infected seeds ranged from 1 to 32%. For spring cultivars, 13/15 cultivars were infected and the percentage of infected seeds ranged from 1 to 48%. For the durum cultivars, 9/11 were infected and the percentage of infected seeds ranged from 2 to 95%. Across all cultivars, 35/41 were infected. Based on historical Karnal bunt susceptibility categories using coefficients of infection, one cultivar was classed as highly susceptible, three as susceptible, 11 as moderately susceptible, 20 as resistant and only six as highly resistant. The spray-inoculation morphological susceptibility tests broadly confirmed the physiological susceptibility results, although lower levels of infection were observed. Overall, the range of susceptibility was similar to that found in cultivars grown in Karnal bunt affected countries. The results demonstrate that European wheat cultivars are susceptible to T. indica and thus could potentially support the establishment of T. indica if introduced into Europe. 相似文献