广东省新推广大豆品种病害的初步调查   总被引：1，自引：0，他引：1  

高翔  陈晓兰  潘汝谦  严小龙  廖红 《植物保护》2012,38(2):147-151

本文采用普查和定点调查以及传统的植物病害鉴定方法,在2006年6月至2010年10月对广东省新推广高产优质大豆品种的病害种类、发生危害及分布进行了调查.发现病害共有12种,其中真菌病害9种,分别是锈病、霜霉病、红冠腐病、丝核菌叶枯病、炭疽病、白绢病、白粉病、镰刀菌根腐病和煤烟病;细菌性病害、线虫病害和病毒病害各1种,分别为细菌性叶斑病、根结线虫病和花叶病.主要病害为锈病、霜霉病、红冠腐病、花叶病、丝核菌叶枯病和炭疽病等.不同季节大豆的主要病害发生情况不同.春大豆以霜霉病发生较为严重;而夏大豆则以红冠腐病、锈病、花叶病毒病和丝菌核叶枯病发生较严重.  相似文献   

引起大豆红冠腐病的冬青丽赤壳菌快速分子检测     

陆辰晨  祝秀丽  汪连军  邵沛泽  谌运清  盛志超  杨万风 《植物检疫》2018,(5)

利用冬青丽赤壳菌(Calonectria ilicicola)的β-tublin基因特异性序列设计PCR引物,能成功将大豆红冠腐病菌与其他近似种及相关种区分开,灵敏度达到1 ng/μL,可以用于检测接种发病的植株样品。同时建立了C.ilicicola的实时定量PCR检测体系,灵敏度提高1 000倍。本研究建立的方法对冬青丽赤壳菌引起的大豆红冠腐病的实时监测有重要的指导意义。  相似文献   

警惕花生黑腐病菌的入侵   总被引：2，自引：1，他引：1  

潘汝谦  关铭芳  徐大高  邓铭光 《植物保护》2011,37(1):164-165

2009年在我国广东省发现了花生黑腐病,该病害的典型症状是花生茎基部、果针和豆荚以及整个根系变黑腐烂,在温暖潮湿条件下,罹病部位产生大量红色小点,是病原菌的子囊壳。病原菌为冬青丽赤壳菌（Calonectria ilicicola Boedijin &; Reitsma）,无性阶段是寄生柱枝孢（Cylindrocladium parasiticum Crous, Wingfield &; Alfenas）。花生黑腐病菌可侵染花生和大豆等20多种作物。应警惕花生黑腐病菌的入侵,及时有效地防止病害蔓延。  相似文献   

玉米镰孢菌穗、茎腐病侵染循环的相互关系     

邹庆道  陈捷  张子君 《植物保护学报》2003,30(4):435-436

玉米穗腐病和茎腐病是玉米主要病害。茎腐病多数病株明显发生根腐,茎基节间产生不规则状褐斑,随后很快变软,内部空松,导致果穗下垂、籽粒干瘪、整株青枯或黄枯,明显减产。玉米穗腐病的主要致病菌为串珠镰孢菌Fusarium moniliforme和禾谷镰孢菌Fusarium graminearum,茎腐病的主要致病菌除腐霉菌外,也有与穗腐病相同的禾谷镰孢菌  相似文献   

大豆疫霉和大豆疫病   总被引：1，自引：0，他引：1  

彭金火 《植物检疫》1998,12(3):177-182

大豆疫霉和大豆疫病彭金火谭红赵改萍（大连动植物检疫局大连１１６００１）（国家动植物检疫局北京）由疫霉引起的大豆（ＧｌｙｃｉｎｅｍａｘＬ．）根腐和茎腐病（大豆疫病）于１９４８年最先见于美国的印第安纳州,公开报道则在１９５５年。Ｋａｕｆｍａｎｎ＆Ｇｅｒｄ...  相似文献   

大豆疫霉选择性分离技术研究   总被引：17，自引：1，他引：16  

王晓鸣  马淑梅 《植物病理学报》1998,28(1):78-78

 由大豆疫霉(Phytophthora spiae)引起的大豆疫霉根腐和茎腐病广泛分布于世界大豆主产区。是大豆毁灭性病害之一。  相似文献   

大豆疫霉根腐病在我国的发生及防治对策   总被引：6，自引：0，他引：6  

朱振东  王晓鸣  戴法超 《植物保护》1999,25(3):47-49

由大豆疫霉根腐病菌Ｐｈｙｔｏｐｈｔｈｏｒａｓｏｊａｅ引起的大豆疫霉根腐和茎腐病１９４８年发现于美国印第安纳州,１９５１年俄亥俄州首次报道,此病目前已传播到世界各国大豆产区,是严重影响大豆生产的主要病害之一［１］。鉴于大豆疫霉菌的破坏性和毁灭性,１９８...  相似文献   

印度大豆不同株龄接种露湿漆斑菌所致病害的产量损失估计   总被引：1，自引：0，他引：1  

Sriv.  SK 赵云芬 《植物医生》1998,11(1):42-42

印度大豆不同株龄接种露湿漆斑菌所致病害的产量损失估计Ｓ．Ｋ．Ｓｒｉｖａｓｔａｖａ等印度的大豆（Ｇｌｙｃｉｎｅｍａｘ（Ｌ．）Ｍｅｒｉｌ）种植面积约为３６０万公顷,产量为２８０吨,因此是一种很重要的油料作物,在该类作物中名列第三。侵染大豆的众多病原物可引...  相似文献   

一种值得关注的花生新病害：花生新赤壳菌基腐病     

潘汝谦  盖云鹏  邓铭光  陈兴龙  徐大高  纪春艳 《植物保护》2012,38(3):180-183

2010年在我国广东省首次报道了由侵管新赤壳菌(Neocosmospora vasinfecta)侵染引起的花生新赤壳菌基腐病.罹病花生植株萎蔫、植株茎基部和根系变黑腐烂,在潮湿条件下,罹病部位有浅红色子囊果.这是我国大陆首次报道的花生新病害.该病害在广东省的多个市县有发生,严重的发病率高达30％.除广东省外,该病在我国江西省也有分布和危害,其致病菌可进一步鉴定为侵管新赤壳菌非洲变种(N.vasinfecta var.africana).在广东省也发现了由侵管新赤壳菌侵管变种(N.vasinfecta var.vasinfecta)引起的大豆茎枯病.对侵管新赤壳菌的文献进行了简要的综述.  相似文献   

2009年甘肃省玉米穗腐病、茎基腐病的发生危害   总被引：8，自引：0，他引：8  

郭满库  王晓鸣  何苏琴  刘永刚  金社林  曹世勤  魏宏玉 《植物保护》2011,37(4):134-137

2009年对甘肃省9个市的21个县、区玉米穗腐病、茎基腐病的发生危害情况进行了全面调查,并采集病害标样,进行病原分离。调查结果表明,玉米穗腐病、茎基腐病在全省各玉米种植区均普遍严重发生,病田率100%,病穗率和病株率平均为63.57%和34.47%。初步分离结果表明,全省玉米穗腐病、茎基腐病的主要致病菌为禾谷镰刀菌、黄色镰刀菌和轮枝镰孢菌,但在地区间的分布有明显差异。  相似文献   

Histopathology of red crown rot of soybean     

Ryo Yamamoto  Akio Nakagawa  Shinji Shimada  Setsuko Komatsu  Seiji Kanematsu 《Journal of General Plant Pathology》2017,83(1):23-32

Histopathological analyses of red crown rot (RCR) of soybean were performed using field-grown and indoor-grown soybean plants. These analyses revealed that soybean plants formed a periderm to prevent pathogen invasion. When a break formed in the periderm, an additional periderm newly differentiated into the inner cells and prevented pathogen invasion. If the pathogen reached the intravascular tissues, some xylem parenchyma cells died, and the vessels were occluded by gum. Periderm formation and vessel occlusion were observed not only in slightly diseased soybean plants, but also in seriously diseased plants, indicating that both reactions function as part of the defense response against RCR.  相似文献   

Phylogenetic diversity of <Emphasis Type="Italic">Calonectria ilicicola</Emphasis> causing Cylindrocladium black rot of peanut and red crown rot of soybean in southern China     

Yunpeng Gai  Qiaowen Deng  Xinglong Chen  Mingfang Guan  Xiang Xiao  Dagao Xu  Mingguang Deng  Ruqian Pan 《Journal of General Plant Pathology》2017,83(5):273-282

Calonectria ilicicola Boedijin & Reitsma (anamorph: Cylindrocladium parasiticum Crous, Wingfield & Alfennas) is an important pathogen worldwide, which causes Cylindrocladium black rot (CBR) in peanut (Arachis hypogaea L.) and red crown rot (RCR) in soybean [Glycine max (L.) Merr.]. We isolated the CBR and RCR pathogens from heavily diseased peanut and soybean fields in southern China and assessed their pathogenicity. Two inoculation methods were applied separately to evaluate the pathogenicity of different C. ilicicola strains on peanut cultivar Yueyou 13. Our results indicate that the Chinese C. ilicicola strains exhibited a range of virulence on peanut, with strains of soybean origin exhibiting a weak virulence relative to strains isolated from peanut. Multilocus sequence type analysis indicates that the C. ilicicola strains partitioned into two distinct clades, which were heavily structured based on geographical origin. Phylogenetic results demonstrated that the origins of C. ilicicola in southern China were multiple. This study also revealed that the backgrounds of CBR pathogens may be different from those of RCR pathogens.  相似文献   

大豆种质资源对大豆孢囊线虫的抗性评价     

刘树森  杨巧  简恒 《植物病理学报》2015,45(3):317-325

 大豆孢囊线虫(Heterodera glycines Ichinohe,SCN)是大豆(Glycine max (L.) Merrill)生产中的毁灭性害虫,种植抗性品种是控制其危害、减少产量损失的最佳途径。本研究通过温室盆栽实验评价了300份大豆种质对大豆孢囊线虫3号和4号生理小种的抗性。分别筛选到高抗和中抗3号生理小种的大豆种质27份和21份;高抗和中抗4号生理小种的大豆种质11份和9份。在所有供试材料中有10份材料同时对大豆孢囊线虫3号和4号生理小种表现高抗。线虫侵染实验表明,抗性材料对大豆孢囊线虫的发育有阻碍作用,并能显著降低最终形成的孢囊数。  相似文献   

淡紫拟青霉发酵滤液对大豆胞囊线虫趋化性的影响   总被引：5，自引：0，他引：5  

孙漫红  刘杏忠 《植物病理学报》2004,34(4):376-379

 实验室条件下,研究了大豆胞囊线虫幼虫对大豆根和根浸出液的趋化性以及淡紫拟青霉代谢产物对其趋化性的影响。结果表明,大豆胞囊线虫二龄幼虫(J₂)对大豆根存在着一定的趋化性,而淡紫拟青霉发酵滤液对J₂存在明显的驱避性。在根浸出液、真菌滤液及其混合液剂处理下,大豆胞囊线虫J₂在WA平板上靠近处理液的0~1cm区间中分布率存在极显著差异(P <0.0 1),而加样时间(液剂与线虫同时放置或提前2 4h处理)对其分布率没有显著影响。大豆幼根蘸取滤液后对线虫J₂在该区间的分布与不经处理的幼根差异显著(P <0.0 5),证明淡紫拟青霉发酵滤液可以明显地降低线虫与大豆根的亲和力,并强烈抑制线虫对大豆根的侵染。  相似文献   

Identification of a second Asian soybean rust resistance gene in Hyuuga soybean     

Kendrick MD  Harris DK  Ha BK  Hyten DL  Cregan PB  Frederick RD  Boerma HR  Pedley KF 《Phytopathology》2011,101(5):535-543

ABSTRACT Asian soybean rust (ASR) is an economically significant disease caused by the fungus Phakopsora pachyrhizi. The soybean genes Rpp3 and Rpp?(Hyuuga) confer resistance to specific isolates of the pathogen. Both genes map to chromosome 6 (Gm06) (linkage group [LG] C2). We recently identified 12 additional soybean accessions that harbor ASR resistance mapping to Gm06, within 5 centimorgans of Rpp3 and Rpp?(Hyuuga). To further characterize genotypes with resistance on Gm06, we used a set of eight P. pachyrhizi isolates collected from geographically diverse areas to inoculate plants and evaluate them for differential phenotypic responses. Three isolates elicited different responses from soybean accessions PI 462312 (Ankur) (Rpp3) and PI 506764 (Hyuuga) (Rpp?[Hyuuga]). In all, 11 of the new accessions yielded responses identical to either PI 462312 or Hyuuga and 1 of the new accessions, PI 417089B (Kuro daizu), differed from all others. Additional screening of Hyuuga-derived recombinant inbred lines indicated that Hyuuga carries two resistance genes, one at the Rpp3 locus on Gm06 and a second, unlinked ASR resistance gene mapping to Gm03 (LG-N) near Rpp5. These findings reveal a natural case of gene pyramiding for ASR resistance in Hyuuga and underscore the importance of utilizing multiple isolates of P. pachyrhizi when screening for ASR resistance.  相似文献   

Differential necrotic lesion formation in soybean cultivars in response to soybean mosaic virus     

Kai Zhang  Ying Pei Song  Yu Wang  Kai Li  Le Gao  Yong Kun Zhong  A. Karthikeyan  Hai Jian Zhi 《European journal of plant pathology / European Foundation for Plant Pathology》2014,139(3):525-534

In this study, we examined the necrosis phenotype on leaves of two cultivars of soybean (ZheA8901 and Nannong1138-2) that show varying level of resistance to soybean mosaic virus (SMV). The necrotic symptoms seen on inoculated and systemic leaves of soybean cultivar ZheA8901 were reminiscent of programmed cell death (PCD). The cell death phenotypes were evaluated using the TUNEL method, quantification of hydrogen peroxide (H₂O₂) and salicylic acid, callose production, as well as by monitoring expression of defence genes GmPR-1 and GmNPR1. Our results show that SMV inoculation induced PCD on ZheA8901 is associated with rapid increase in H₂O₂, increased SA and callose accumulation and higher defence gene expression.  相似文献   

Monitoring glyphosate residues in transgenic glyphosate-resistant soybean     

Arregui MC  Lenardón A  Sanchez D  Maitre MI  Scotta R  Enrique S 《Pest management science》2004,60(2):163-166

The availability of Roundup Ready (RR) varieties of soybean has increased the use of glyphosate for weed control in Argentina. Glyphosate [(N-phosphonomethyl)glycine] is employed for the eradication of previous crop vegetation and for weed control during the soybean growing cycle. Its action is effective, and low environmental impact has been reported so far. No residues have been observed in soil or water, either of glyphosate or its metabolite, AMPA (aminomethylphosphonic acid). The objective of this work was to monitor glyphosate and AMPA residues in soybean plants and grains in field crops in Santa Fe Province, Argentina. Five sites were monitored in 1997, 1998 and 1999. Individual soybean plants were sampled from emergence to harvest, dried and ground. Analysis consisted in residue extraction with organic solvents and buffers, agitation, centrifugation, clean-up and HPLC with UV detection. In soybean leaves and stems, glyphosate residues ranged from 1.9 to 4.4 mg kg(-1) and from 0.1 to 1.8 mg kg(-1) in grains. Higher concentrations were detected when glyphosate was sprayed several times during the crop cycle, and when treatments approached the flowering stage. AMPA residues were also detected in leaves and in grains, indicating metabolism of the herbicide.  相似文献   

大豆枯萎病菌尖孢镰孢遗传多样性及大豆品种抗性   总被引：2，自引：0，他引：2  

王健生  李潇  张海峰  张正光  郑小波 《植物病理学报》2015,45(2):167-174

 了解大豆枯萎病菌的群体遗传特征及明确大豆种质对大豆枯萎病的抗性,对抗病育种、抗性品种的合理布局以及制定更有效的病害防治策略具有重要的参考价值。本研究利用随机扩增多态性DNA(random amplified polymorphic DNA,RAPD),对采自我国不同地区的大豆枯萎病菌—尖孢镰孢菌(Fusarium oxysporum)进行遗传多样性分析,筛选到10个多态性随机引物,共扩增出75条RAPD条带,其中55条为多态性条带,占73.3%。利用UPGMA法对DNA扩增图谱进行聚类分析,以相似系数0.68为阈值,55个分离物可分为9个遗传聚类组,表明我国大豆枯萎病菌具有丰富的种内遗传多样性,所划分的群体与分离物来源地不相关。同时,对上述分离物进行致病性分析,发现我国的大豆枯萎病菌具有明显的致病力分化现象。进一步利用3个代表性分离物对来自我国不同大豆产区的180个大豆品种(资源)进行抗大豆枯萎病鉴定,发现皖豆28、中黄13、中黄51、中作X08076和5D034等5个品种对大豆枯萎病具有良好抗性,占供试材料的2.8%,表明不同大豆品种对枯萎病的抗性存在一定的差异。  相似文献   

大豆和大豆疫霉菌共培养体系的构建     

孙果忠  朱振东  武小菲  崔友林  王晓鸣 《植物病理学报》2008,38(3):225-230

 本研究旨在建立一个适于分析大豆遭受大豆疫霉菌侵染后基因表达研究的互作体系。在比较了15个携带不同抗病基因的大豆基因型的组织培养情况和7个大豆疫霉菌分离物及其游动孢子单孢系的毒力变化的基础上,构建了大豆悬浮细胞和大豆疫霉菌游动孢子的共培养体系,进而分析了共培养过程中大豆细胞的活力和防御基因表达情况。结果表明,不同亲和力菌株的游动孢子引起的大豆细胞活力变化十分相似;非亲和菌株的游动孢子可诱导寄主防御基因的表达发生变化。此系统为深入开展大豆抗性机制研究提供了良好的平台。  相似文献   

Interaction between purple nutsedge,maize and soybean     

F. A. Tuor  R. J. Froud-Williams 《国际虫害防治杂志》2013,59(1):65-71

The study was designed to determine the mode of interaction between maize ( Zea mays L.) and soybean ( Glycine max Merr.) in association with purple nutsedge. This was investigated under glasshouse conditions using the replacement (substitutive) series design. Maize and soybean competed with purple nutsedge for growth resources, and purple nutsedge significantly retarded the growth and development of maize and soybean. Maize was more susceptible to purple nutsedge interference compared with soybean.  相似文献