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。     

腐烂茎线虫在马铃薯不同组织中的数量动态

腐烂茎线虫病是近年来我国马铃薯生产中的一种新病害, 了解腐烂茎线虫的侵染规律对该病害的预防和控制及对马铃薯产量和品质提高具有重要意义。本研究采用盆栽法, 在苗期接种腐烂茎线虫, 研究该线虫在马铃薯不同组织中的数量动态及危害程度。结果显示, 在发芽-幼苗期(播种0 ~ 75 d), 母薯先受到腐烂茎线虫侵染; 在发棵期(播种75 ~ 90 d), 母薯和匍匐茎均检测到腐烂茎线虫; 在结薯期到成熟期(播种90 ~ 105 d), 线虫开始危害新生块茎, 随着块茎膨大危害逐渐加重。在马铃薯成熟期, 症状表现最明显, 新生块茎中线虫数量最多, 可达767.67条/g。不同时期的接种试验表明, 在匍匐茎形成期(播种后70 d)接种, 马铃薯受害最为严重, 发病率达100%, 块茎中线虫密度最高, 达到99.32条/g, 且块茎鲜重最低, 为14.02 g/个。本研究结果可为马铃薯腐烂茎线虫的适时有效防治提供参考。     

马铃薯腐烂茎线虫RPA-LFD可视化快速检测方法的建立

 马铃薯腐烂茎线虫是为害我国甘薯和马铃薯的一种重要植物病原线虫,也是我国重要的检疫性有害生物。为实现对该线虫的准确、快速且可视化的检测,本研究以马铃薯腐烂茎线虫rDNA-ITS序列为靶标构建了重组酶聚合酶结合侧流层析试纸条(RPA-LFD)的可视化快速检测体系。该体系可在39 ℃条件下15 min内特异性地完成对马铃薯腐烂茎线虫的检测,对A型(甘薯种群)和B型(马铃薯种群)单头线虫(J4)的检出底限均为3 125^-1头线虫,可以直接对土壤和甘薯茎中的马铃薯腐烂茎线虫进行检测,灵敏度可达1头(J4)/10 g土壤和1头(J4)/2 g甘薯茎组织。该体系操作简便、成本低廉、结果可视,可为马铃薯腐烂茎线虫的早期预警和口岸检疫提供技术支撑。     

陕西马铃薯腐烂茎线虫发生为害现状及影响因素

马铃薯腐烂茎线虫分布广泛、取食部位多样,是重要的植物病原线虫,对陕西马铃薯及甘薯生产影响较大.在系统调查的基础上,介绍了腐烂茎线虫为害症状识别特点及其在陕西的为害现状,提出影响马铃薯腐烂茎线虫流行的主要因素有温度,马铃薯的连作年限、熟制、品种,土壤的盐分、酸碱度.     

甘肃定西地区马铃薯线虫病病原的分离鉴定

为明确甘肃省定西市马铃薯线虫病的病原种群分类地位,采用形态学结合分子生物学的方法对该地区马铃薯上的4个线虫群体进行了鉴定,观察和测量其形态特征值,基于r DNA-ITS序列以UPGMA法构建线虫群体的系统发育树,并按照柯赫氏法则进行了致病性测定。结果表明,4个线虫群体在形态学上与马铃薯腐烂茎线虫Ditylenchus destructor一致,但群体DX27与群体DX11、DX16、DX19雌虫的体长、体长/食道长、体长/尾长值存在极显著差异。利用通用引物TW81/AB28扩增r DNA-ITS序列均获得长度为915 bp的片段;序列比对分析表明,群体DX27与其它3个群体相比在ITS1区的第96~255 bp片段内有25个碱基的差异;系统发育树显示,群体DX27与C型群体聚为1支,群体DX11、DX16、DX19与B型群体聚为1支。根据形态学特征及r DNA-ITS序列分析结果确定该病原线虫为马铃薯腐烂茎线虫,其中群体DX27属于C型,群体DX11、DX16、DX19属于B型。     

危害马铃薯的茎线虫分离鉴定

本文对采自河北张家口市察北区、危害马铃薯的线虫(编号De-Chabei)进行了形态及分子生物学鉴定,形态测量结果表明其与马铃薯腐烂茎线虫(Ditylenchus destructor Thorne)一致,采用通用引物rDNA1/rDNA2扩增rD-NA-ITS区的长度为1130bp,测序比对以及采用马铃薯茎线虫B型特异性引物DdL1/DdL2扩增得到485bp特异性片段,表明与B型或L型马铃薯腐烂茎线虫一致;再次证明该型线虫在河北马铃薯主产区的分布和危害。     

马铃薯腐烂茎线虫在国内危害马铃薯的首次报道

马铃薯腐烂茎线虫（Ditylenchus destructor Thorne）是国际公认的检疫性线虫，也是严重危害马铃薯的重要病原之一。Kuhn首次观察并描述此线虫危害马铃薯块茎，引起马铃薯干腐病，但在该种线虫被正式描述以前，一直被认为是鳞球茎茎线虫（D．dipsaci）的一个株系或小种，直至1945年，Thorne才将其确定为独立种，即马铃薯腐烂茎线虫。此后，该线虫在世界许多国家和地区报道发生，主要危害马铃薯，但在我国主要危害甘薯，未见该线虫危害马铃薯的直接报道。     

河北省甘薯镰孢菌腐烂与溃疡病的病原鉴定

为明确河北省甘薯镰孢菌腐烂与溃疡病的症状特点和病原种类,在不同种植区采集储藏期和育秧期病样,描述其症状特征;对病原菌进行分离纯化,采用柯赫氏法则回接验证,依据病原菌的形态特征和基因序列确定病原菌种类。结果表明,在储藏期甘薯发病可导致薯块表面腐烂的占总病薯的59.09%,端部腐烂的占40.91%;薯块带有褐色轮纹病斑的占61.36%,病斑没有轮纹或者轮纹不明显的占38.64%;发病初期薯块内部病斑浅、黑褐色的占27.27%,发病后期薯块内部形成空腔、布满白色菌丝的占72.73%;病斑带有苦味的占59.09%,病斑没有苦味或苦味不明显的占40.91%;在育秧田发病导致薯秧溃疡,表现为主茎基部呈点片发生黑色或者褐色病斑,部分有开裂。分离的病原菌能够同时侵染薯块和薯秧;病原菌单瓶梗产孢,大型分生孢子稍弯,两端钝圆,多数3~7个分隔,顶细胞钝圆,基细胞足跟较明显。其rDNA-ITS、EF-1α、β-tubulin基因序列与茄镰孢菌Fusarium solani的同源性分别为97%、99%和98%。初步确定甘薯镰孢菌腐烂与溃疡病的病原菌为茄镰孢菌F.solani。     

内蒙古自治区鄂尔多斯市马铃薯腐烂茎线虫种类鉴定研究

<正>0 引言马铃薯腐烂茎线虫(Ditylenchus destructor Thorne)又名甘薯茎线虫,属于侧尾腺纲垫刃目粒线虫科茎线虫属。马铃薯腐烂茎线虫病是国际公认的一种检疫性疾病,是马铃薯重要病害之一^[1]。该线虫主要侵染植物地下部分,在没有高等寄生植物的情况下,依靠取食土壤中的真菌维持生存^[2],寄主范围广^[3]。近几年,马铃薯腐烂茎线虫危害逐渐上升,可导致马铃薯减产20%～83%,严重时甚至绝收。     

黑龙江腐烂茎线虫群体的分离和鉴定

 本研究对分离自黑龙江省马铃薯中的1个线虫群体Hp1进行形态观察与测量,采用线虫通用引物对其rDNA-ITS进行扩增与序列分析,利用PAUP软件以ML法构建系统发育树,并测定其致病性。结果显示,该线虫群体有6条侧线,头部略缢缩,口针明显,中食道球呈长纺锤形,食道峡部窄而细长;雌虫阴门稍突起,后阴子宫囊较长;雄虫交合刺略向腹面弯曲,引带短,具交合伞。其形态测量值与腐烂茎线虫(Ditylenchus destructor)基本一致。rDNA-ITS PCR扩增片段916 bp,经BLAST比对,该ITS序列与腐烂茎线虫序列相似度最高。系统发育树显示,该群体没有与腐烂茎线虫A、B基因型群体聚在一起,而是与C、D型群体聚为1个分支,且与C型亲缘关系更近。据此,将群体Hp1鉴定为腐烂茎线虫C基因型,这是首次在黑龙江省发现腐烂线虫为害马铃薯。     

不同类型杀线剂对甘薯茎线虫趋化性的影响

实验室条件下研究了涕灭威、甲氨基阿维菌素苯甲酸盐和丙溴磷在低剂量胁迫下对甘薯茎线虫趋化性的影响。结果表明:在无药剂胁迫情况下甘薯茎线虫对灰霉菌、半裸镰刀菌的趋化性最强,其次为马铃薯,对甘薯无趋性。在含有5～5×10-2μg/mL涕灭威、甲氨基阿维菌素苯甲酸盐和丙溴磷的水琼脂平板,线虫的趋化性均受到抑制,且甲氨基阿维菌素苯甲酸盐的抑制活性高于其他2种药剂;线虫经10-1～10-3μg/mL的涕灭威、甲氨基阿维菌素苯甲酸盐和丙溴磷浸渍24h后采用灭菌去离子水清洗3次并恢复24h后,线虫的趋性仍受到抑制。值得注意的是,在含5×10-3μg/mL丙溴磷水琼脂或经丙溴磷10-3～10-4μg/mL处理后,线虫的趋性发生了改变,表现出对甘薯块具有一定的趋性。     

Stem and bulb nematode, Ditylenchus dipsaci, associated with a dry rot of potato tubers

About 10% of the ware-sized tubers from a 1990 potato crop were found to have dry rot. The affected tubers had well defined circular patches of dry rot, either with the tuber surface depressed and cracked, or with deep, open cavities where the tuber surface had disintegrated. The rotted tissues contained large numbers of the stem and bulb nematode, Ditylenchus dipsaci. This is the first recorded case in the UK; dry rot of potato tubers is usually caused by the potato tuber nematode D. destructor.     

Detection of the root lesion nematode Pratylenchus penetrans in potato tubers

The root lesion nematode Pratylenchus penetrans parasitizes a wide range of economically important crops, including potato (Solanum tuberosum). Damage by P. penetrans impacts not only the potato yield but can also reduce the tuber quality. Detailed information on tuber infection by P. penetrans is scarce for most cultivars and molecular detection of nematodes from infected tubers is needed. The objective of this study was to assess tuber symptomatology due to P. penetrans infection in 10 potato cultivars and to provide an accurate molecular methodology for nematode detection using tuber peels. Sprouts of certified potato seed from cultivars Agata, Agria, Camel, Désirée, Dirosso, Kennebec, Laura, Picasso, Royata, and Stemster were planted in 2 L pots, and soil was inoculated with 4 P. penetrans/g of soil. Sixty days after inoculation, tubers were harvested, inspected for lesions, and the number of nematodes/g of potato peel assessed. Observations of tubers with symptoms showed the presence of P. penetrans in superficial layers of peels around the lenticels and injured necrotic tissue. Different nematode stages were detected in tubers of all inoculated cultivars, varying from 4 to 46 nematodes/g of potato peel. Species-specific primers showed suitable sensitivity and reproducibility for the detection of P. penetrans in tuber potato peel samples. The molecular detection of P. penetrans directly from tuber peels can facilitate routine nematode inspections of potato seed tubers or cull potatoes for nematode detection, and prevent further dissemination of this species.     

The yam nematode (Scutellonema bradys), a potential threat to potato (Solanum tuberosum) production in West Africa

Potato (Solanum tuberosum) production in Africa is rapidly expanding and becoming increasingly important. As its geographical production range broadens, so does its potential to host new pests and diseases. Following the discovery that potato can be affected by Scutellonema bradys, further studies were undertaken to assess its potential pathogenicity on potato under screenhouse and field conditions, and on marketed tubers. Potato plants inoculated with S. bradys produced tubers with substantial cracking and evident tuber rot, compared with tubers from uninoculated plants. Symptoms of nematode infection on tubers included a scaly appearance, surface cracking as well as deeper tissue cracks, distortions, and darkened surface patches. In most cases these patches were related to sub‐surface rot. Nematodes were recovered from the soil, roots and tubers of inoculated plants. Eight weeks after inoculation, the reproduction factor of the nematode was greatest (2·0) at the lowest inoculation rate assessed (1000 nematodes per 2·5‐L pot) and least (0·4) at the highest inoculation rate (5000 nematodes per pot). In the screenhouse, potato tuber weights were low and mostly unaffected by nematode inoculation rate, except at 5000 nematodes per pot. In the field, non‐inoculated plants yielded over nine times more tubers than plants inoculated with 2000 S. bradys. Low densities of S. bradys were also recovered from 10 of 15 (67%) samples collected from market stalls, indicating field infection. This study confirms that potato can host and be damaged by S. bradys, raising its prospect as a likely significant biotic constraint to the crop.     

The influence of drought and cyst nematodes on potato growth. 4. Effects on crop growth under field conditions of four cultivars differing in tolerance

In field experiments carried out in 3 years with and without fumigation and irrigation 4 cultivars of potato differed in their tolerance of cyst nematodes (Globodera pallida). Ground cover, tuber and foliage fresh and dry yields were determined at regular intervals. From these measurements, intercepted radiation, radiation use efficiency for production of total and tuber dry matter and the apparent amount of intercepted radiation at tuber initiation were calculated and compared for all the treatments. The results indicate that cultivars which best maintained ground cover in the absence of nematodes also maintain it best in the presence of nematodes. Such cultivars gave the highest yields at all levels of nematode infestation because the radiation use efficiencies were far less affected by nematodes than was intercepted radiation. The similarity of the responses to nematode infection and to drought and the absence of interaction between these two stress factors facilitated crop simulation modelling. The relationships found here may well be wider used, though they will have to be validated for other cultivars and growing conditions.