百合枯萎病发生规律及防治研究

百合枯萎病是甘肃省百合产区近年来新发生的一种重要病害。研究证明,百合枯萎病系由尖孢镰刀菌(Fusarium oxysporum Schlecht.)、串珠镰刀菌(F.moniliform Sheldon)和茄病镰刀菌[F.solani(Mart.)Sacc.]侵染所致。病菌以菌丝体在种球内,或以菌丝体、厚垣袍子及菌核随病残体在土壤中越冬,成为翌年的主要初侵染源。病害的发生与连作、线虫、栽培技术及气候因素等密切相关。多菌灵对此病有显著防治效果。     

浙江省荸荠上镰刀菌种类及其致病性

作者从浙江省11个县市采集病、健株及球茎标样共669个,经分离、纯化、鉴定,获以下7个镰刀菌种;尖孢镰刀菌(Fusarium oxysporum)、锐顶镰刀菌(F.acuminatum)、半裸镰刀菌(F.semitectum)、层出镰刀菌(F.proliferatum)、茄病镰刀菌(F.solani)、禾谷镰刀菌(F.graminearum)和木贼镰刀菌(F.equiseti)。田间观察和接种试验证明:F.oxysporum是引起荸荠茎秆枯萎的主要病原,这是一种新的危险性病害。病株矮小、黄化、基腐、后期倒伏。1986～1990年少数县市发病率达40％～50％。人工接种证明:F.acuminatum也属强致病性的种类。而F.proliferatum和F.solani则是引起贮藏期球茎腐烂的主要病原。其余种类仅具微弱或无致病性。     

浙江省铁皮石斛根腐病病原真菌的鉴定

为明确铁皮石斛根腐病病原真菌,于其主产地浙江省金华市武义县收集铁皮石斛根腐病病株,采用平板分离方法对病原真菌进行分离,使用镰刀菌种特异性引物并结合ITS和TEF序列分析及形态学鉴定确定该镰刀菌的分类地位。结果表明,共分离纯获得真菌117株,其中有105株镰刀菌;经分子生物学分析及形态学鉴定结果显示,分离出的镰刀菌为层出镰刀菌Fusarium prolife‐mum、茄病镰刀菌F. solani、尖孢镰刀菌F. oxysporum和厚垣镰刀菌F. chlamydosporum四个种,其中层出镰刀菌在数量上具有优势地位,占总镰刀菌数的44.8%;茄病镰刀菌、尖孢镰刀菌、厚垣镰刀菌分别占总镰刀菌数的21.0%、15.2%和19.0%。在致病性测定中发现层出镰刀菌和茄病镰刀菌并不具备致病性,尖孢镰刀菌的致病性明显弱于厚垣镰刀菌,表明厚垣镰刀菌为浙江省金华市武义县铁皮石斛根腐病的主要致病菌。     

甘肃定西地区甘蓝枯萎病病原菌的分离与鉴定

自2009年起,甘肃定西地区出现了甘蓝植株矮化、叶片黄化、枯萎甚至死亡的现象。2015年8月,我们采集了田间病株样本,使用常规组织分离法对病原菌进行了分离和纯化,依据柯赫氏法则进行了病原菌确认,并通过形态学和分子生物学方法对病原菌进行了鉴定。结果表明病原菌的形态学特征与尖孢镰刀菌Fusarium oxysporum一致,其rDNA-ITS、rDNA-IGS以及EF-1α序列与尖孢镰刀菌F.oxysporum相似性达99%,基于病原菌及尖孢镰刀菌各代表专化型EF-1α序列构建的系统发育树将该菌与尖孢镰刀菌黏团专化型F.oxysporum f.sp.conglutinans聚为一类,故引致甘肃定西地区甘蓝枯萎病的病原菌为尖孢镰刀菌黏团专化型F.oxysporum f.sp.conglutinans。     

芽孢杆菌BH1防治大豆根腐病的效果及机制

芽孢杆菌BH1分离于大豆根际，在温室试验中表现出较好的防治效果。田间试验对尖孢镰刀菌引起的大豆根腐病防效达56．1％，增产7．6％。该菌株发酵无菌滤液对尖孢镰刀菌F3、茄孢镰刀菌W1和镰刀菌Sl孢子萌发和菌丝生长有抑制作用；对热处理较稳定。对其抗利福平标记株B-R^ -4与大豆根系的亲和性研究表明，BH1可定殖于无菌土和病土中生长的大豆根际，且动态变化趋势相似，但在无菌土中数量略高于病土。组织印记法表明：B-R^ -4可在整个大豆根系生长。扫描电镜观察发现，BH1主要存在于根表凹陷处，在根尖或侧根处则很少。透射电镜观察，根细胞间隙内未检测到BH1。在大豆根际的定殖试验说明，B-R^ -4与大豆根系有很好的亲和性，对营养和空间位点的竞争是其拈抗病原菌的主要机制。     

河北廊坊大豆枯萎病病原镰刀菌的分子鉴定

 为明确河北廊坊中国农科院植保所试验基地大豆孢囊线虫病田内大豆枯萎病病原镰刀菌的种类,对362份罹病枯萎大豆植株进行病原真菌分离,得到335株真菌;使用镰刀菌通用引物鉴定出镰刀菌(Fusarium spp.) 279株,占分离菌株83.3%;镰刀菌特异性引物、测序等分子生物学技术结合形态学特征进一步鉴定镰刀菌种类,鉴定出尖孢镰刀菌(F. oxysporum)189株,占分离菌株56.4%;茄病镰刀菌(F. solani)67株占20.0%、禾谷镰刀菌(F. graminearum)16株占4.8%、木贼镰刀菌(F. equiseti)3株、层出镰刀菌(F. proliferaum)2株、燕麦镰刀菌(F. avenaceum)和厚孢镰刀菌(F. chlamydosporum)各1株;致病性测试结果表明数量最多的尖孢镰刀菌(F. oxysporum)中约92.8%菌株具有不同程度的致病力;这些结果表明该试验基地大豆枯萎病的优势病原菌为尖孢镰刀菌(F. oxysporum);研究结果可为大豆枯萎病的防治提供科学依据,并为大豆孢囊线虫与尖孢镰刀菌复合侵染大豆的研究奠定基础。     

大白菜枯萎病病原镰刀菌种类的初步研究

 2014~2016年,由于栽培管理及重茬等原因,大白菜枯萎病在我国大面积发生,造成了巨大的经济损失。为了明确引起大白菜枯萎病的病原菌,本课题组从山东、内蒙古、河北、甘肃等大白菜主产区采集了具有典型枯萎病症状的病样,并对样品中的病原菌进行了分离和鉴定。形态学鉴定结果表明:分离物分别具有尖孢镰刀菌 (Fusarium oxysporum)、茄病镰刀菌 (F. solani) 和木贼镰刀菌 (F. equiseti)的形态学特征。柯赫氏法则验证结果表明:3种病原菌均能使大白菜发病,且发病症状与田间症状一致。此外,基于病原菌的rDNA-ITS和mt SSU序列的测序比对,3种病原菌与尖孢镰刀菌、茄病镰刀菌和木贼镰刀菌的同源性分别达99%~100%,这与形态学鉴定结果相一致。尖孢镰刀菌引起白菜枯萎病为国内首次报道,而茄病镰刀菌和木贼镰刀菌引起白菜枯萎病为国内外首次报道。     

云南灯盏花根腐病的2种新病原鉴定及防治药剂的室内筛选

引起云南省灯盏花根腐病的病原为茄病镰刀菌(Fusarium solani)、尖孢镰刀菌(F.oxysporum)和半裸镰刀菌(F.semitectum)3种真菌,茄病镰刀菌和尖孢镰刀菌为灯盏花根腐病的2种新病原,其中茄病镰刀菌为主要致病菌,其分离率为42.86%,茄病镰刀菌有伤接种发病率为70%,无伤接种发病率为56.7%。采用室内生长速率法测定了50%多菌灵可湿性粉剂、70%甲基硫菌灵可湿性粉剂、64%恶霜·锰锌可湿性粉剂、10%苯醚甲环唑水分散粒剂、10亿活芽胞/g 枯草芽胞杆菌·荧光假单胞杆菌可湿性粉剂5种供试杀菌剂对灯盏花根腐病主要病原茄病镰刀菌的毒力。结果表明：5种供试药剂对茄病镰刀菌都有抑制作用。对茄病镰刀菌的有效中浓度（EC50）分别为0.000 4、0.050 7、0.053 5、0.081 3和8.624 0 mg/mL,其中50%多菌灵可湿性粉剂有效中浓度最低,相对抑制效果最好。5种药剂的毒力相关系数均在0.89以上,表明药剂质量浓度与抑制作用呈较高相关性。     

草莓枯萎病的生物防治

本文介绍了利用非病原尖孢镰刀菌防治草莓枯萎病的简况。分离和培养非“病原尖孢镰刀菌的方法,单用或与土壤消毒并用对草莓枯萎病的防治效果以及防治机制等。     

芽孢杆菌BH_1防治大豆根腐病的效果及机制

芽孢杆菌BH1分离于大豆根际,在温室试验中表现出较好的防治效果。田间试验对尖孢镰刀菌引起的大豆根腐病防效达56.1%,增产7.6%。该菌株发酵无菌滤液对尖孢镰刀菌F3、茄孢镰刀菌W1和镰刀菌S1孢子萌发和菌丝生长有抑制作用;对热处理较稳定。对其抗利福平标记株B R+ 4与大豆根系的亲和性研究表明,BH1可定殖于无菌土和病土中生长的大豆根际,且动态变化趋势相似,但在无菌土中数量略高于病土。组织印记法表明:B R+ 4可在整个大豆根系生长。扫描电镜观察发现,BH1主要存在于根表凹陷处,在根尖或侧根处则很少。透射电镜观察,根细胞间隙内未检测到BH1。在大豆根际的定殖试验说明,B R+ 4与大豆根系有很好的亲和性,对营养和空间位点的竞争是其拮抗病原菌的主要机制。     

厚朴苗根腐病的病原菌鉴定

 经病原菌分离培养、致病性测定、形态特征观察及专化型试验结果表明,厚朴苗根腐病由尖镰孢霉内的一个新的专化型(Fusarium oxysporum Schlecht f. sp. magnoliae)为害所致。     

Disease Development Following Infection of Tomato and Basil Foliage by Airborne Conidia of the Soilborne Pathogens Fusarium oxysporum f. sp. radicis-lycopersici and F. oxysporum f. sp. basilici

ABSTRACT Fusarium oxysporum f. sp. radicis-lycopersici, the causal agent of Fusarium crown and root rot of tomato, and F. oxysporum f. sp. basilici, the causal agent of Fusarium wilt in basil, are soilborne pathogens capable of producing conspicuous masses of macroconidia along the stem. The role of the airborne propagules in the epidemics of the disease in tomato plants was studied. In the field, airborne propagules of F. oxysporum f. sp. radicis-lycopersici were trapped with a selective medium and their prevalence was determined. Plants grown in both covered and uncovered pots, detached from the field soil, and exposed to natural aerial inoculum developed typical symptoms (82 to 87% diseased plants). The distribution of inoculum in the growth medium in the pots also indicated the occurrence of foliage infection. In greenhouse, foliage and root inoculations were carried out with both tomato and basil and their respective pathogens. Temperature and duration of high relative humidity affected rate of colonization of tomato, but not of basil, by the respective pathogens. Disease incidence in foliage-inoculated plants reached 75 to 100%. In these plants, downward movement of the pathogens from the foliage to the crown and roots was observed. Wounding enhanced pathogen invasion and establishment in the foliage-inoculated plants. The sporulation of the two pathogens on stems, aerial dissemination, and foliage infection raise the need for foliage protection in addition to soil disinfestation, in the framework of an integrated disease management program.     

Prevalence and pathogenicity of spinach root pathogens of the genera Aphanomyces, Phytophthora, Fusarium, Cylindrocarpon, and Rhizoctonia in Sweden

In a 4-year disease survey in commercial spinach fields, pathogens were isolated from spinach root pieces placed on selective agar media. Aphanomyces cladogamus was the most abundant pathogen, followed by Phytophthora. cryptogea and Fusarium oxysporum. Rhizoctonia solani was found only occasionally. Other pathogens isolated were F. redolens, F. sambucinum and Cylindrocarpon destructans. P. cryptogea was the most severe pathogen, causing death of most plants, but A. cladogamus also caused severe root damage. Isolates of F. oxysporum ranged from highly pathogenic, i.e. P. oxysporum f.sp. spinaciae race 1. to moderately pathogenic and non-pathogenic, Rhizoctonia solani isolates also varied widely in their pathogenicity. Only a small number of the F. redotens and F. sambucinum isolates were pathogenic and most C. destructans isolates were weakly pathogenic. Isolation frequencies were relatively stable from year to year, but P. cryptogea was isolated more frequently in autumn than in spring. No clear relationships were found between pathogen prevalence and disease severity index of surveyed field plants, between pathogen prevalence and plant developmental stage, or between prevalence of the different pathogens isolated.     

Sporulation of Fusarium oxysporum f. sp. lycopersici on Stem Surfaces of Tomato Plants and Aerial Dissemination of Inoculum

ABSTRACT Plants exhibiting symptoms of wilt and xylem discoloration typical of Fusarium wilt caused by Fusarium oxysporum f. sp. lycopersici were observed in greenhouses of cherry tomatoes at various sites in Israel. However, the lower stems of some of these plants were covered with a pink layer of macroconidia of F. oxysporum. This sign resembles the sporulating layer on stems of tomato plants infected with F. oxysporum f. sp. radicis-lycopersici, which causes the crown and root rot disease. Monoconidial isolates of F. oxysporum from diseased plants were assigned to vegetative compatibility group 0030 of F. oxysporum f. sp. lycopersici and identified as belonging to race 1 of F. oxysporum f. sp. lycopersici. The possibility of coinfection with F. oxysporum f. sp. lycopersici and F. oxysporum f. sp. radicis-lycopersici was excluded by testing several macroconidia from each plant. Airborne propagules of F. oxysporum f. sp. lycopersici were trapped on selective medium in greenhouses in which plants with a sporulating layer had been growing. Sporulation on stems was reproduced by inoculating tomato plants with races 1 and 2 of F. oxysporum f. sp. lycopersici. This phenomenon has not been reported previously with F. oxysporum f. sp. lycopersici and might be connected to specific environmental conditions, e.g., high humidity. The sporulation of F. oxysporum f. sp. lycopersici on plant stems and the resultant aerial dissemination of macroconidia may have serious epidemiological consequences. Sanitation of the greenhouse structure, as part of a holistic disease management approach, is necessary to ensure effective disease control.     

大蕉枯萎病病原菌鉴定及TEF-1α序列分析

 近年来,大蕉枯萎病在广东省东莞市发生严重,为了有效控制病害发生蔓延,生产上急需明确大蕉枯萎病的病原。本研究收集了我国华南地区的12株大蕉枯萎病病原菌及19株包括1号及4号生理小种的单孢菌株,以来源于澳大利亚的1号、2号、3号和亚热带4号生理小种以及4株非病原尖孢镰孢菌作对照,通过病原菌形态鉴定、致病性测定、4号小种(Foc 4)及热带4号小种(TR4)的分子特异检测、以及基于翻译延伸因子(TEF-1α)序列的系统发育分析,对大蕉枯萎病病原菌进行鉴定。同时,对我国华南地区不同来源的香蕉枯萎病病原菌的遗传发育关系及致病性分化情况进行了研究。结果表明:(1)引起大蕉枯萎病的病原菌主要是1号生理小种或者是与1号生理小种亲缘关系较近的一个新的系统发育谱系,该谱系可能为 1 号生理小种变异演化而来;(2)大蕉枯萎病病原菌对大蕉和粉蕉都有较强的致病力,但不能侵染香蕉;我国的1号小种存在一定的分化,其中有一个类群只能感染粉蕉,另一个类群既能感染粉蕉也能感染大蕉;(3)大蕉与粉蕉枯萎病的病原菌在致病性及遗传发育关系上都存在一定的交叉和分化。     

United States Department of Agriculture-Agricultural Research Service studies on polyketide toxins of Fusarium oxysporum f sp vasinfectum: potential targets for disease control

A group of 133 isolates of the cotton wilt pathogen Fusarium oxysporum Schlecht f sp vasinfectum (Atk) Sny & Hans, representing five races and 20 vegetative compatibility groups within race 1 were used to determine the identity, biosynthetic regulation and taxonomic distribution of polyketide toxins produced by this pathogen. All isolates of F oxysporum f sp vasinfectum produced and secreted the nonaketide naphthazarin quinones, bikaverin and norbikaverin. Most isolates of race 1 (previously denoted as races 1, 2 and 6; and also called race A) also synthesized the heptaketide naphthoquinones, nectriafurone, anhydrofusarubin lactol and 5-O-methyljavanicin. Nine avirulent isolates of F oxysporum from Upland cotton roots, three isolates of race 3 of F oxysporum f sp vasinfectum, and four isolates of F oxysporum f sp vasinfectum from Australia, all of which previously failed to cause disease of Upland cotton (Gossypium hirsutum L) in stem-puncture assays, also failed to synthesize or secrete more than trace amounts of the heptaketide compounds. These results indicate that the heptaketides may have a unique role in the virulence of race 1 to Upland cotton. The synthesis of all polyketide toxins by ATCC isolate 24908 of F oxysporum f sp vasinfectum was regulated by pH, carbon/nitrogen ratios, and availability of calcium in media. Synthesis was greatest below pH 7.0 and increased progressively as carbon/nitrogen ratios were increased by decreasing the amounts of nitrogen added to media. The nonaketides were the major polyketides accumulated in synthetic media at pH 4.5 and below, whereas the heptaketides were predominant at pH 5.0 and above. The heptaketides were the major polyketides formed when 10 F oxysporum f sp vasinfectum race 1 isolates were grown on sterilized stems of Fusarium wilt-susceptible cotton cultivars, but these compounds were not produced on sorghum grain cultures. Both groups of polyketide toxins were apparently secreted by F oxysporum f sp vasinfectum, since half of the toxin in 2-day-old shake culture was present in the supernatant. Secretion was enhanced by calcium. Glutamine and glutamic acid inhibited both nonaketide and heptaketide syntheses, even at low nitrogen     

镰刀菌酸在尖孢镰刀菌侵染过程中的产生规律及运输过程探究

 镰刀菌酸(FSA)是尖孢镰刀菌产生的主要毒素之一,对病害的发展起到主导作用,但是其产生及运输机制尚不清楚,明确镰刀菌酸在寄主体内的产生过程及运输方式对防控作物枯萎病的发生具有重要的理论意义。本研究以黄瓜品种津春4号和尖孢镰刀菌黄瓜专化型菌 (Fusarium oxysporum f. sp. cucumerinum) 为试材,进行温室营养液培养试验,对不同侵染时期植株体内的病原菌及镰刀菌酸进行定量分析,结合韧皮部烫伤及分根根盒装置,探究镰刀菌酸的运输及分配机制。结果表明,病原菌的侵染首先从根尖或者侧根原基侵入根系,随后侵入维管组织并局限在木质部导管中,快速大量繁殖并开始产生毒素镰刀菌酸,镰刀菌酸主要通过木质部运输到叶片,发病期(11 dpi)叶片中镰刀菌酸含量是根系中镰刀菌酸含量的10倍。病原菌主要借助镰刀菌酸加速植物萎蔫死亡,并且镰刀菌酸含量与病原菌数量的相关性关系呈显著正相关。本研究进一步明确了病原菌侵染与镰刀菌酸产生的关系,病原菌在根系定殖成功后快速繁殖进入潜育期,随后产生毒素镰刀菌酸,并通过木质部运往地上部,促进叶片萎蔫,加速病原菌进入腐生阶段。在实际生产中我们可以在病害发生前期,未产生大量镰刀菌酸之前加强田间管理,以抑制或减轻枯萎病的发生。