共查询到20条相似文献,搜索用时 203 毫秒
1.
玉米灰斑病现已成为北方玉米产区的主要病害之一,但国内外关于玉米灰斑病菌Cercospora zeaemaydis Tehon & Daniels致病力分化等方面的研究较少,尚未建立该病菌生理分化的鉴别寄主系统,无法明确我国是否存在玉米灰斑病菌致病性分化类群或生理小种及优势菌群和分布,限制了有针对性地进行品种合理布局和抗病育种工作,因此研究玉米灰斑病菌致病性分化鉴别寄主体系是一项重要的基础性工作。作者采用田间成株期鉴定技术,对不同的玉米灰斑病菌菌株进行致病力划分,研究其鉴别寄主体系。 相似文献
2.
3.
花生褐斑病和网斑病田间混发流行过程及其产量损失研究 总被引:2,自引:1,他引:1
通过田间小区人工接种试验,分析比较了花生褐斑病和网斑病单独及混合发生的流行过程及对花生产量损失的影响。结果表明,在病害混发初期,病害间无明显的相关性,随着病情加重,病害间的负相关性逐渐增大并达到显著水平,说明病害间有明显的抑制作用。在不同生育期接种发病情况有所差异,在开花初期和盛花期接种,褐斑病和网斑病的病情较重,而在开花末期接种的病情较轻,但都能表现病害间的抑制作用。病害混发时造成的产量损失小于各病害单独造成损失之和,对白沙1016和四粒红接种2种病菌,病害混合发生所造成产量损失约为各病害单独引起损失之和的77.2% ~ 85.7%和76.1% ~ 79.6%。在不同生育期接种2种病菌,2个品种产量的损失均随着侵染时期的推迟而逐渐降低。 相似文献
4.
采用人工接种方法,将烟草立枯病病菌菌株TRs-5接种于烟草云烟87的不同部位,观察其发病效果。研究了菌株接种体在不同接种温度和培养时间对发病效果的影响,并比较了其与稻纹枯病病菌菌株RRs08-22-2接种于水稻品种中优679的致病效果。结果表明,菌株TRs-5既能侵染烟草幼苗近地表的茎基部,导致其发病,也能侵染烟草成株苗叶面形成坏死病斑。在温度28℃环境下接种比在20℃的导致发病更严重。用培养2 d的菌丝体接种比培养4 d的导致更大的病斑。在寄主烟草上,菌株TRs-5比菌株RRs08-22-2的致病力强,但在寄主水稻上,菌株TRs-5比菌株RRs08-22-2的致病力弱。初步发现这2个病菌与2个寄主之间存在致病专化现象。 相似文献
5.
人工接种对新月弯孢菌侵染玉米籽粒的影响 总被引:2,自引:0,他引:2
研究了人工接种不同接种时期和方法对新月弯孢菌侵染玉米籽粒的影响,结果表明:玉米弯孢叶斑病菌可以侵染玉米果穗籽粒,使玉米籽粒产生褐色病斑。伤口接种法能使玉米果穗100%发病;花丝通道接种也可导致果穗发病,但其发病频率很低;而花丝喷雾接种和苞叶喷雾接种病菌不能成功侵染玉米果穗籽粒;吐丝后10 d和乳熟期接种只能引起接种点籽粒发病,病菌扩展不好;但籽粒形成期接种的玉米果穗籽粒不仅接种点发病,而且其周围的籽粒也感染了病菌,病菌扩展情况较好。试验明确,玉米籽粒形成期采用伤口接种是使玉米籽粒发生弯孢叶斑病的一种较为理想的人工接种方法。 相似文献
6.
[目的]为探讨根肿病菌接种浓度与时期对寄主发病的交互作用及根肿病菌侵染后寄主的抗性响应.[方法]通过苗期盆栽试验,系统地研究了接种根肿病菌浓度(105、106、107、108 cfu/mL)及时期(0、10、20 d)对白菜发病率及防御酶活性的影响.[结果]发病率及病情指数与接种根肿病菌浓度呈正相关,108 cfu/mL为最佳侵染浓度,白菜幼苗出现第一片真叶后10 d接种侵染效果最佳.根肿病侵染后,根肿病发病程度与呼吸速率和气孔导度呈正相关,根系活力随病情指数先升高后降低,植株受根肿病侵染后光合作用降低,呼吸作用增强,植物生长受抑制;防御酶POD、PAL、PPO与发病率呈负相关,丙二醛含量与发病率呈正相关,植株抵抗病害能力降低.[结论]研究为根肿病的侵染和防控提供参考. 相似文献
7.
对2006-2014年峨山县3个主栽玉米品种灰斑病的发生流行规律进行了调查,并研究了同一品种不同播种期对病害发生流行的影响。结果表明,不同玉米品种开始发病及进入暴发流行期时间存在差异,病害发生严重度也不同。表现为发病越早的品种,受害的严重度越高。总体看,本县玉米灰斑病于7月上、中旬进入喇叭口期开始发病,当温度适宜、降雨量偏大、相对湿度偏高时,有利于灰斑病的发生与流行,8月中、下旬进入抽雄期至灌浆期时迅速暴发流行。播种期的早晚与病害的发生流行轻重和最终玉米产量的高低关系密切。株发病率、病情指数随播种期的推迟而上升,最后,导致的产量损失率随之也逐渐上升。玉米灰斑病发病始期在7月上旬,抽雄期至成熟期玉米灰斑病病情发展最快。 相似文献
8.
9.
玉米圆斑病防治研究 总被引:2,自引:0,他引:2
目前吉林省推广的玉米骨干自交系吉63果穗上发生的穗腐症状是由Hel-minthosporium carbonum Ullstrup侵染引起的圆斑病。从病斑形态和培养性状与小斑病菌迥然不同。经温室苗期和田间成株期人工接种证明,圆斑病菌除为害吉63和少数自交系外,不侵染T型、M型等不育系及多数正常系玉米的果穗。从果穗抽出到灌浆期是圆斑病菌侵染发病的关键时期。病菌主要在病株残体里以菌丝体越冬,已腐烂的病组织则丧失生活力。六年共鉴定655份自交系、品种及杂交种,有184份材料的果穗感病,以吉63及其选系后代发病最重。经测定吉63感染圆斑病是由隐性感病基因所控制。 相似文献
10.
研究了玉米灰斑病菌侵染四个抗病和感病的玉米品种时,叶片内部活性氧代谢酶及细胞过氧化产物含量的动力学变化。结果表明,抗、感病品种的SOD、CAT及POD酶活性在病茵侵染后都变化显著,抗病品种各酶活性变化幅度比感病品种大。叶片内过氧化产物MDA含量则相反,抗病品种沈试29在接种第13天时叶片MDA含量只为18.46nmol/g,而感病品种铁单9为23.14nmol/g,抗病品种比感病品种增加幅度小。说明活性氧代谢在植物抗病机制中起着重要作用,抗病品种对活性氧代谢的酶调节能力强,病菌侵染后细胞过氧化程度低,在痛菌侵染时活性氧清除酶活性最大增加值与发病程度呈显著正相关。 相似文献
11.
砂仁叶枯病是一种发生普遍而严重的病害。该病有四种症状类型:叶枯型、斑枯型、星斑型和叶鞘病斑。以前者为主。根据病原菌的形态、培养性状、致病性及寄主范围鉴定为围小丛壳菌(Clomerella cingulata (Stonem.) Spauld.et Schrenk),分生孢子阶段为盘长孢状刺盘孢(Co-lletotrichum gleosporioides (Penz.) Sacc.)。病菌生长量和产孢量依培养和光照条件而异。寄主范围广,在参试的23科39种植物中,有9科15种植物发病。 相似文献
12.
Maize production in temperate countries is threatened by late wilt, caused by Magnaporthiopsis maydis. Plant infection occurs early after sowing, but symptoms appear from flowering onwards. The disease is mainly controlled by genetic resistance, which is often partially expressed in the field. Development of disease symptoms is also highly dependent on environmental conditions. This study looked at whether production and growth of susceptible maize are affected by M. maydis under environmental conditions that are suboptimal for disease development. In addition, the effect of water availability on disease development under optimal conditions was determined. Pot experiments were conducted in an open-air enclosure in 2013, 2015 and 2016. Under unfavourable conditions for disease (low air temperature and relatively high air humidity), aboveground symptoms did not appear in the plants despite growth and production variables being clearly altered by the fungus. When air temperatures and humidity were optimal for disease development (air temperatures relatively high and humidity rather low), leaf symptoms on inoculated plants became apparent but with secondary importance compared to decreases in growth and production. The pathogen also affected the root:aboveground biomass ratio to a greater extent when the plants were under good water conditions than under deficit irrigation. Under optimal conditions and with good soil water content, the infected crop may end its cycle without symptoms, with the disease undetected, although reductions in yield and aboveground biomass can occur. 相似文献
13.
14.
Ya-Li Fang Yao-Yao Zhou Xin Li Yue Gao De-Long Wang Min-Jie Liu Zhi-Jia Zhang 《Plant pathology》2022,71(2):251-261
Northern corn leaf blight (NCLB) caused by Setosphaeria turcica is a major foliar disease of maize. The early-stage infection events of this pathogen on maize leaves are unclear. We investigated the optimum temperature for conidial germination and appressorium formation, and characterized penetration and growth of S. turcica in maize leaf sheath and onion epidermis cells, including use of histological staining to assess plant cell viability. The results showed that the optimum temperature for conidial germination and appressorium formation was 20°C. On the maize leaf sheath, the appressoria were formed by germinated conidia, and penetration on the epidermal cells occurred at 8 h postinoculation (hpi). Round vesicles developed beneath the appressoria. Between 16 and 24 hpi, the branched invasive hyphae invaded three to five adjacent cells at most infection sites. The invasive hyphae tended to move along the cell wall and crossed from one cell to another. In the onion epidermis cells, the appressoria formed at 8 hpi, and in most cases the epidermal cells were penetrated through the juncture of the cell walls. At 16–24 hpi, the primary hyphal terminus swelled to a vesicle. The maize leaf sheath cells died at 8 hpi, whereas the onion cells did not. Our findings documented in detail the penetration and invasive hyphal growth in maize leaf sheath and onion epidermis, as well as viability of plant cells, at the early stages of infection, and provide a foundation for elucidating the underlying mechanism of S. turcica–maize interactions. 相似文献
15.
广东南瓜细菌性叶枯病及其病原鉴定 总被引:1,自引:0,他引:1
在广东省雷州市发生一种南瓜(Cucurbita moschata)叶枯病,病株叶片边缘开始出现水渍状病斑,逐步发展成大病斑,后期病斑焦枯;在叶片上也可形成近圆形水渍状病斑,伴有黄色晕圈,后期病斑联合形成不规则大枯斑;叶柄和匍匐茎被侵染后呈水渍状腐烂。从病斑上分离到一种细菌,在KB培养基上,菌落为椭圆形,乳白色,半透明,边缘参差不齐,紫外灯照射下产生荧光反应。致病性测定结果表明,该病原细菌可侵染6个南瓜品种引起与田间症状相同的叶枯病。生理生化试验结果表明,该病原细菌与丁香假单胞丁香致病变种(Pseudomonas syringae pv. syringae)的特性一致。应用假单胞菌属特异引物Ps-for/Ps-rev和丁香假单胞丁香致病变种组群特异性引物Group III-F/Group III-R,可从该病原细菌中扩增出预期大小分别为1 018 bp和750 bp的目的片段。应用丁香致病变种syrB基因特异性引物B1/B2,可从该病原菌中扩增出预期大小为750 bp的丁香霉素基因片段。基于16S rDNA与gyrB基因序列系统进化分析均表明,南瓜叶枯病菌株与已报道的P. syringae pv. syringae菌株HS191(CP006256)亲缘关系最近,二者聚类在一起形成一个小分支。人工接种条件下,该病原细菌还可侵染西葫芦、丝瓜、茄子、番茄、菜豆、扁豆等植物。这些结果表明,引起广东省南瓜叶枯病的病原为丁香假单胞丁香致病变种(Pseudomonas syringae pv. syringae)。这是首次在中国发现丁香假单胞丁香致病变种引起南瓜叶枯病。 相似文献
16.
Involvement of a phytotoxic peptide in the development of the Northern leaf blight of corn 总被引:2,自引:0,他引:2
Bilha Bashan Rachel Abadi Yehouda Levy 《European journal of plant pathology / European Foundation for Plant Pathology》1996,102(9):891-893
Non pathogenic isolates ofExserohilum turcicum successfully infect corn plants in the presence of syntheticE. turcicum toxin during inoculation. The toxin significantly increased the number of appressoria and the ramification of germinating conidia both on host leaves and on artificial media. These findings indicate that this toxin plays an important role in infection of Northern leaf blight.This article is dedicated to the memory of Yehouda Levy who passed away recently. 相似文献
17.
哈茨木霉SH2303防治玉米小斑病的初步研究 总被引:2,自引:0,他引:2
哈茨木霉SH2303是本实验室分离获得的1株具有生防效果的菌株,该菌株能够较好的防治玉米小斑病。通过离体叶片试验确定哈茨木霉SH2303诱导玉米抗小斑病的持效期达15 d。盆栽及大田试验表明,防治玉米小斑病防效分别达到78.1%和56.3%。盆栽试验表明,哈茨木霉 SH2303处理的叶片在挑战接种小斑病菌后第36 h,玉米体内防御反应酶系PAL和SOD活性达到峰值。同时,防御基因Pal和Sod的表达水平也明显上升。综合分析表明,哈茨木霉SH2303的诱导抗性作用是防治玉米小斑病的重要机制之一。 相似文献
18.
立枯丝核菌侵染玉米的研究 总被引:7,自引:0,他引:7
用获自水稻及玉米的立枯丝核菌(Rhizoctonia solani Khn) AG-11A接种玉米发生典型纹枯症状,其致病力显著强于AG-4。玉米拔节期,上位叶鞘抗性较强,抽雄及抽丝期抗性减弱,下位叶鞘无论在拔节期或抽雄、抽丝期,均较上位叶鞘感病。接种玉米后8小时,形成侵染垫及附着胞,从这些结构上形成侵入钉侵入,AG-4侵染上位叶鞘时,常以菌丝直接穿透表皮或从气孔侵入。在去掉菌体的叶鞘表面,发现有周边光滑或稍破损的侵入孔。接种后12小时,在叶鞘细胞中发现菌丝,它们在穿过细胞壁进入邻近细胞时,明显变细。接种后16小时,新生出的菌丝从气孔成丛出现。 相似文献
19.
玉米大斑病菌人工接种方法研究 总被引:2,自引:0,他引:2
The efficient and accurate method of inoculating Exserohilum turcicum on maize is most important for studying the corn leaf blight. In this study, four approaches including spore suspension spraying, inoculation with grinding infected maize leaves, inoculation liquid inoculum into the leaf whorl and inoculation with inoculated sorghum seeds were compared with natural induction in fields during different growth stages of maize in the greenhouse and field. The results showed that disease incidence of all varieties tested were up to 100% by inoculating with inoculated sorghum seeds during the booting stage (11 to 12 leaf stages). This method will not only guarantee the enough pathogen inocula but also be easy to use, and could be an effective way for disease resistance identification in field and greenhouse. 相似文献
20.
由黄褐假单胞Pseudomonas fulva侵染引起的辣椒细菌性叶斑病是近期在新疆北疆加工辣椒生产区发现的一种新病害。为评估辣椒品种对细菌性叶斑病的抗性水平,采用苗期人工接种结合田间调查,鉴定了生产中13个主栽辣椒品种对细菌性叶斑病的抗性。结果表明,供试材料对细菌性叶斑病均无免疫性,但不同辣椒品种对辣椒叶斑病抗性差异较大,‘改良佳线1号’和‘丰力红冠’为抗病品种;‘佳线4号’、‘新丰6号’、‘秦椒王’、‘陕早红’、‘宝丰2号’为耐病品种;‘红安6号’、‘朝天椒’为感病品种,高感品种为‘金塔’、‘铁皮椒’、‘红龙13’和‘超级韩国甜椒’。研究结果为辣椒的抗病育种和病害防治提供了基础。 相似文献