Control of soil rot of sweet potato by the incorporation of the fresh aerial tissue of Geranium carolinianum L. into the soil

In a previous study, we found that a 70% aqueous ethanol extract of the fresh aerial tissue of Geranium carolinianum L. showed antimicrobial activity against the pathogen causing soil rot of sweet potato. As the appropriate time for cultivation of sweet potato and the growing period of G. carolinianum do not overlap in Okinawa Prefecture, Japan, the fresh aerial tissue is available in order to control soil rot of sweet potato. Thus, we examined the control effect of fresh aerial tissue against soil rot of sweet potato. The various trials (a single repetition of 20 m²) were performed in fields that had undergone 8 years of continuous cropping of sweet potato at Okinawa Prefectural Agricultural Experiment Station, Horticultural branch. After harvest, when the disease severity was evaluated by determining the necrotic area of the storage root, the incorporation of fresh aerial tissue (5000 kg 1000 m^-2) into the soil was considered to be highly effective, with a protective value of 75.4. This result shows that G. carolinianum could be used as a biological agent for the control of soil rot of sweet potato.     

甘薯茎腐病的研究进展

甘薯茎腐病是由达旦提狄克氏菌Dickeya dadantii Samson et al.引起的细菌性甘薯病害,属于我国新发生病害,其蔓延迅速、防治困难,严重影响甘薯的品质和产量,已成为我国南方甘薯产区主要病害之一。文章对该病症状、病原菌分类、致病机制、全基因组测序概况和防治措施等方面的研究进展进行了综述,并指出了今后的研究方向。     

首次发现巴西果胶杆菌(Pectobacterium brasiliense)引起甘薯茎腐病

<正>Dickeya和Pectobacterium属细菌的植物寄主广泛,包括十字花科、茄科、百合科、伞形花科和禾本科等科的农作物^[1],所引发的细菌性软腐病严重影响农作物的产量和品质,造成严重经济损失,威胁农业生产和粮食安全。Dickeya和Pectobacterium属不同种的菌株能侵染同一种植物,产生相似的病症。如已发现能侵染马铃薯并导致软腐病害的有D. solani、D. dianthicola、D. dadantii、D.chrysanthemi、D. zeae、P. versatile、P. carotovorum、P. brasiliense、P. atrosepticum、P. betavasculorum、P. parmentieri、P. parvum、P. peruviense、P. polaris、P. actinidiae和P. punjabense等种的细菌^[2-3]。     

Identification and pathogenicity of Botryosphaeriaceae species associated with root and stem rot of sweet potato in Brazil

The sweet potato (Ipomoea batatas) is characterized by the production of tuberous roots rich in starch and is one of the most produced and consumed vegetables in Brazil. Botryosphaeriaceae, among other fungi, are known to cause root and stem rot of sweet potato. However, no representative and accurate study has been performed for the correct identification of these fungal species in sweet potato in Brazil. Therefore, this study aimed to identify the Botryosphaeriaceae species associated with root and stem rot of sweet potato and confirm their pathogenicity. Tuberous roots and stems of sweet potato with rot symptoms were collected in production fields and markets and used for fungal isolations. The identification of fungi was based on the morphology of reproductive structures and phylogenetic analyses of the gene regions ITS, tef1-α, and rpb2. The following species were identified: Lasiodiplodia theobromae, L. hormozganensis, Macrophomina phaseolina, M. euphorbiicola, M. pseudophaseolina, and Neoscytalidium dimidiatum. For the pathogenicity test, one representative isolate for each species was inoculated in healthy tuberous roots and in 30-day-old healthy seedlings. Black and necrotic lesions on tuberous roots and stems were observed in all replications and resulted in the death of some seedlings. This is the first report of L. hormozganensis, M. pseudophaseolina, and M. euphorbiicola, as causal agents of the stem and root rot of sweet potato and N. dimidiatum as a causal agent of stem rot worldwide.     

Distribution of polygalacturonase, total phenolic substances, polyphenol oxidase and peroxidase in rot zones in sweet potato

Botryodiplodia theobromae causes a spreading rot of sweet potato, while Botrytis cinerea, Phoma exigua var. foveata and Fusarium solani var. coeruleum cause rots of limited extent. Cladosporium cucumerinum does not rot sweet potato tuber tissue. Whichever of these fungi is inoculated into tubers, a zone at the margin of the lesion can be clearly distinguished, from slightly affected but uninfected tissue on one side and infected rotted tissue on the other, by its high content of phenolic substances and polyphenol oxidase and peroxidase activities. Polygalacturonase is present in this zone for spreading B. theobromae lesions but not for the limited lesions caused by the other fungi. Total content of phenolic substances is generally greater in and around limited lesions.     

Generation and soil detection of nitrate-nonutilizing mutants of Diaporthe destruens causing foot rot of sweet potato

Journal of General Plant Pathology - Three nitrate-nonutilizing (nit) mutants of a soil-borne fungus, Diaporthe destruens, pathogen of foot rot of sweet potato, were generated with a...     

银杏茎腐病的防治试验

 前言炭腐病菌[Macrophomina phaszoli(Maubl.) Ashby]在江苏、浙江、安徽、山东、福建,江西等地發现。受害植物有黄麻、芝麻、豇豆、花生、向日葵、大麻、番藷、烟草、棉花等作物及松、柏、麻櫟、板栗、洋槐、杜仲及銀杏等的苗木。銀杏受害很重,在南京是育苗的障碍。     

甘薯对马铃薯腐烂茎线虫趋化性的影响

由马铃薯腐烂茎线虫侵染造成的甘薯茎线虫病是一种严重影响甘薯产量和品质的病害。线虫向寄主根部移动及取食危害可能是受寄主释放的化感信息物质控制。为最终明确甘薯中对线虫具有高效引诱能力的物质,本研究利用水琼脂平板法测试了甘薯不同品种与不同组织对线虫的引诱作用。结果表明不同品种甘薯薯块和薯茎对马铃薯腐烂茎线虫引诱能力具有一定差异,感线虫品种栗子香的薯块对线虫的引诱率要高于其他测试品种。随着薯块/薯茎在水琼脂平板上放置时间延长,其吸引线虫的效果增加,96 h后引诱率达到20%。同一品种甘薯茎的引诱能力显著高于薯块、薯叶。甘薯中所含对线虫具引诱作用的活性物质对热稳定,80℃加热8 h后薯茎对线虫引诱率与新鲜茎相比无显著差异,为4.5%。甘薯茎经过不同有机溶剂分别萃取后,乙醇萃取物对线虫的引诱率为6.7%,显著高于其他萃取物。本文初步明确了甘薯中所含线虫趋化物的性质,为其开发应用奠定了基础。     

Bacterial wilt of sweet potato caused by <Emphasis Type="Italic">Ralstonia solanacearum</Emphasis> in Taiwan

During the last decade, a new bacterial disease has impaired the yield of vegetable sweet potato (30–80%) in Taiwan. Infected plants developed stunting, root and stem rot, vascular discoloration and wilting. Ten bacterial isolates that caused the same symptoms in sweet potatoes after inoculation were reisolated and classified as Ralstonia solanacearum phylotype I biovar 4 based on physical and molecular analyses. Moreover, these isolates also caused wilting in convolvulaceous, solanaceaous and cruciferous plants. This report is the first of bacterial wilt of sweet potato caused by R. solanacearum in Taiwan.     

<Emphasis Type="Italic">Helicobasidium mompa</Emphasis> isolates from sweet potato in continuous monoculture fields

 Isolates of the violet root rot fungus Helicobasidium mompa were collected from herbaceous and tree plants. Their host preference was studied by inoculation experiments using carrots, sweet potatoes, and apple stocks. It was found that sweet potato isolates from Kyushu produced infection cushions on carrots and sweet potatoes but not on apple stocks. Other isolates did not show host preference. Sweet potato isolates were also characterized by ready hyphal mass (sclerotium) production. They were thought to have adapted to the habitat with high disturbance by annual tillage. Received: July 15, 2002 / Accepted: September 26, 2002     

9种生物制剂对甘薯长喙壳菌的抑制作用及防治效果

为筛选防治甘薯黑斑病的生物农药,测定了9种生物制剂对甘薯长喙壳菌孢子萌发和菌丝生长的抑制作用,并进行了防治效果验证。结果表明,四霉素对分生孢子萌发以及菌丝生长均表现出最强的抑制作用,EC50分别为0.10和0.15 mg/L;丁子香酚次之,EC50分别为0.24和0.93 mg/L。四霉素对薯苗黑斑病具有较好的防治效果,当接种甘薯长喙壳菌分生孢子浓度为5×104孢子/m L时,四霉素有效用量6与9 mg/L处理的防治效果分别为66.67%和78.57%;当接种浓度为5×105孢子/m L时,四霉素有效用量6与9 mg/L处理的防治效果分别为77.44%和90.23%。本研究为生物农药应用于甘薯黑斑病的防治提供了依据。     

5种杀菌剂对储藏期甘薯黑斑病的防效及对薯块的安全性评价

通过药液浸渍的方法比较了不同杀菌剂对储藏期甘薯黑斑病的防治效果,调查了各处理甘薯的出苗情况和农药残留情况。结果表明,储藏90d后,12.5%粉唑醇SC 80mg/kg、粉唑醇25mg/kg+甲基硫菌灵210mg/kg和粉唑醇25mg/kg+百菌清800mg/kg对黑斑病的防效可达90%以上,各药剂处理对甘薯出苗没有不良影响。720g/L百菌清SC、70%噁霉灵WP、50%多菌灵WP和70%甲基硫菌灵WP在甘薯薯块中的残留量符合相关标准。而12.5%粉唑醇SC 20mg/kg和80mg/kg两处理在甘薯薯块中的残留量高于欧盟规定的最大残留限量标准。     

甘薯茎腐病症状及其病原鉴定

 甘薯茎腐病是危害甘薯的一种严重病害,甘薯茎、叶柄、叶片和块根均可被害。该病典型症状是茎基部发黑和变软腐烂,叶发黄,茎和块根维管束黑褐色,引起块根腐烂、有臭味。通过对甘薯茎腐病典型症状样本的采集、病原菌的分离和纯化以及致病性测定,明确该病害是一种细菌病害。通过对甘薯茎腐病菌的菌体形态和培养特性观察发现,病原菌是革兰氏阴性细菌,菌体短杆状,大小约为2.36 μm×0.4 μm, 周生鞭毛,可在烟草上激发过敏性反应(HR)。Biolog测定、脂肪酸分析、16S rDNA序列分析、MALDI-TOF质谱鉴定和8个看家基因(dnaX、rplB、fusA、gapA、gyrA、purA、recA和rpoS)的序列系统发育分析,发现该病原菌与达旦提狄克氏菌Dickeya dadantii高度一致。这些结果说明,浙江省发生的小番薯病害是甘薯茎腐病,病原为D. dadantii。     

Identification and use of a wild plant with antimicrobial activity against Ralstonia solanacearum, the cause of bacterial wilt of potato

Fresh aerial tissue and roots of 14 wild plants in Okinawa prefecture were investigated for their antimicrobial activity against Ralstonia solanacearum , which causes bacterial wilt of potato. A 70% aqueous ethanol extract of fresh aerial tissue of Geranium carolinianum L. showed strong antimicrobial activity against R. solanacearum . This extract also showed antimicrobial activity against the pathogens causing common scab of potato and soil rot of sweet potato. The antimicrobial substance could be extracted with hot water, and was effective against R. solanacearum in soil. In the field test, a treatment combining incorporation of dried aerial tissue into the soil and solarization was highly effective for control of bacterial wilt of potato. These findings suggest that G. carolinianum L. could be used as a biological agent for the control of bacterial wilt of potato.     

侵染甘薯的DNA病毒研究进展

甘薯是重要的粮食作物和食品加工及工业原料。我国是世界上最大的甘薯生产国。病毒病是甘薯上的重要病害,目前世界上已报道的侵染甘薯的DNA病毒主要归属于双生病毒科Geminiviridae和花椰菜花叶病毒科Caulimoviridae。近年来,双生病毒等DNA病毒严重影响我国甘薯的产量、品质以及食品加工产业。本文简介了甘薯在我国的重要地位和种植情况;具体介绍了侵染甘薯的菜豆金色花叶病毒属Begomovirus、玉米线条病毒属Mastrevirus及杆状DNA病毒属Badnavirus的病毒特征、分子变异、分类现状和检测方法。结合甘薯生产的实际情况,提出了目前甘薯DNA病毒研究中存在的问题及思考。本文旨在为我国甘薯DNA病毒病的综合防控提供理论依据。     

我国甘薯脱毒种薯种苗繁育存在的问题及建议

病毒病是甘薯的重要病害, 种植脱毒健康种苗是防治病毒病?提高甘薯产量最有效的方法?近年来, 我国甘薯病毒及其传播介体的发生呈现出新的特点, 传统的脱毒种薯种苗繁育体系不能满足当前甘薯生产的需要?本文综述了当前我国甘薯病毒的种类及危害现状, 分析了我国甘薯脱毒种薯种苗繁育中存在的问题, 对规范和完善我国甘薯脱毒种薯种苗繁育体系提出了建议?     

甘薯脱毒技术及增产效果研究

作者于１９８８～１９９５年研究了甘薯病毒及甘薯脱毒技术,明确了侵染山东甘薯的主要病毒种类是甘薯羽状斑驳病毒和甘薯潜隐病毒,在国内首次分离侵染甘薯的烟草花叶病毒,探明了其生物学特性。筛选出适合山东甘薯茎尖培养基的最佳激素配比,浓度,ｐＨ值。探索了脱毒薯的增产机理和增产效果,提出了组织培养,茎尖苗检测,脱毒薯速率与推广应用的配套技术规程,培养出徐薯１８等１２个品种的脱毒苗,平均增产４２．９％出干率提高     

基于Dickeya dadantii特有标志基因检测甘薯茎腐病菌

 甘薯细菌性茎腐病是由达旦提狄克氏菌(Dickeya dadantii)引起的一种检疫性病害,近年来在我国多地发生,严重威胁我国甘薯产业的发展。建立特异灵敏的检测D. dadantii的方法对于鉴定检疫病原菌、田间监测病原菌和防控病害有重要意义。本研究对Dickeya属菌株的全基因组序列进行比较基因组学分析,筛选到D. dadantii特有的标志基因,针对标志基因设计引物,其中针对编码登录号为WP_077245517未知蛋白基因的1对引物Dad1-F(5′-CATATCAACCAGACCAGCCGTT-3′)和Dad1-R(5′-CGGCCTGCTTTTAAACAACGTATTA-3′)能只从D. dadantii扩增到167 bp目的片段。由此建立了特异灵敏的常规PCR和实时荧光定量PCR检测D. dadantii的方法,为鉴定检疫甘薯茎腐病病原菌和田间监测病害提供了有效方法。     

基于Dickeya dadantii特有标志基因检测甘薯茎腐病菌

 甘薯细菌性茎腐病是由达旦提狄克氏菌(Dickeya dadantii)引起的一种检疫性病害,近年来在我国多地发生,严重威胁我国甘薯产业的发展。建立特异灵敏的检测D. dadantii的方法对于鉴定检疫病原菌、田间监测病原菌和防控病害有重要意义。本研究对Dickeya属菌株的全基因组序列进行比较基因组学分析,筛选到D. dadantii特有的标志基因,针对标志基因设计引物,其中针对编码登录号为WP_077245517未知蛋白基因的1对引物Dad1-F(5′-CATATCAACCAGACCAGCCGTT-3′)和Dad1-R(5′-CGGCCTGCTTTTAAACAACGTATTA-3′)能只从D. dadantii扩增到167 bp目的片段。由此建立了特异灵敏的常规PCR和实时荧光定量PCR检测D. dadantii的方法,为鉴定检疫甘薯茎腐病病原菌和田间监测病害提供了有效方法。     

中国甘薯病毒的血清学检测

 作者用4种甘薯病毒抗体(IgG),3种血清学方法(DAS-ELISA、Dot-blot-ELISA和ISEM)对北京,江苏、四川、山东四省(市)的253份甘薯病毒病样品进行了检测。结果表明:上述地区甘薯中普遍存在甘薯羽状斑驳病毒(SPFMV)和甘薯潜隐病毒(SPLV),尚难确定是否存在甘薯轻斑驳病毒(SPMMV)和甘薯花叶菜花叶状病毒(Sweet Potato Caulimo-like Virus,SPCLV)。21%的显症样品同上述4种病毒的抗血清不产生反应,显示我国甘薯上尚存在其它病毒。用Dot blot-ELISA和ISEM检测甘薯病毒比用DAS-ELISA灵敏准确。