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1.
对40份初选萝卜种质分别接种Xcc8004和XccBJ两个菌株,进行黑腐病苗期抗性鉴定,对其中8份代表性萝卜种质肉质根切片接种Xcc8004进行抗性鉴定和27份萝卜种质幼苗接种8个效应物基因进行过敏反应鉴定。结果表明:不同萝卜种质苗期对黑腐病的抗性存在显著差异,筛选出高抗Xcc8004的材料3份、抗病1份、中抗4份,高抗XccBJ的材料1份、抗病2份、中抗5份。萝卜苗期对Xcc8004和XccBJ的抗病性极显著相关,幼苗和肉质根对Xcc8004的抗病性极显著相关。筛选出17份对不同效应物表现过敏反应的萝卜种质。对效应物XC0241表现过敏反应的种质数最多,对XC0542和XC0541表现过敏反应的种质数次之。不同抗源对不同效应物的过敏反应程度有所不同。稳定可靠抗病资源的获得为萝卜抗病育种和抗病机理的深入研究提供了基础材料。 相似文献
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绿豆枯萎病是影响绿豆产量最严重的病害之一。筛选苗期抗性资源,培育抗病品种对枯萎病防治具有重要意义。本研究采用剪根浸根接种法,对来自全国18个省市及国外的215份绿豆核心种质资源和85份绿豆新品系进行了苗期枯萎病抗性鉴定。结果显示,不同地区种质间的枯萎病抗性水平存在差异。国内产区中,东北、华东、华中地区约50%的种质具有枯萎病抗性;华北地区抗枯萎病种质占比40.4%;西北、西南和华南地区种质抗病水平较高;国外材料抗病种质占比40.0%。本研究共筛选出17份高抗(HR)枯萎病种质资源,并利用部分材料建立了枯萎病抗性研究RIL群体;6份高抗高代品系材料,在田间全生育期表现高抗且农艺性状优异。本研究期望为今后抗枯萎病绿豆新品种选育及抗性遗传相关研究提供优异资源和理论依据。 相似文献
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抗青枯病烟草种质资源在云南省的评价 总被引:2,自引:0,他引:2
筛选出抗性稳定的种质资源是选育抗病品种的重要基础。本文采用人工接种和病田自然发病方法鉴定了48份烟草种质的青枯病抗性表现。土壤盆栽接种鉴定表现为高抗的材料有CF207、岩烟97、TI448A、DB101、G80、RG17、GTH-1等7份材料,表现抗病的有MSK149、Oxford 2028、NC95、YN108、K346、K358、Enshu FC、Oxford 207、RG11等9份材料。苗期恒温水培接种鉴定结果表明,Oxford 207和岩烟97表现为高抗,Enshu FC表现抗病,抗病材料与云烟85和K326杂交F1的抗性表现为中感至抗病。田间自然发病鉴定结果表明,我国审定的中抗青枯病的品种RG17、RG11、K358和K346,在云南省田间抗性表现为中抗,产值较高。TI448A田间表现为抗青枯病,但易感黑胫病和空茎病。Oxford 2028和Oxford 207田间表现为抗病至高抗,产值较高。G3和岩烟97田间分别表现为高抗和抗病,产值较低。根据接种鉴定和田间病圃2年抗性鉴定,筛选出育种潜力较大的青枯病抗源Oxford 207、Enshu FC,岩烟97和TI448A。 相似文献
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《基因组学与应用生物学》2015,(6)
本研究采用田间自然鉴定和离体叶片接种鉴定的方法,研究了7个薄皮甜瓜种质对白粉病的抗性,并分析了气孔大小、气孔密度和叶绿素含量与白粉病抗性的关系。结果表明,离体叶片接种鉴定和田间自然鉴定的白粉病抗性结果一致,共鉴定出5个抗病种质,2个感病种质,四倍体的抗病性优于二倍体;气孔大小和叶绿素含量与病情指数呈负相关,气孔密度与病情指数呈正相关,除气孔大小与离体鉴定病情指数呈显著性相关外,其它指标与病情指数相关性不显著,抗病种质和感病种质在气孔大小、气孔密度和叶绿素含量上差异均不显著,因此,气孔大小、气孔密度和叶绿素含量与薄皮甜瓜白粉病抗性不相关。 相似文献
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结球甘蓝根肿菌鉴定和种质抗性评价 总被引:1,自引:0,他引:1
采集湖北省长阳县火烧坪乡根肿病重发区的病土和病根,通过病原菌形态和PCR鉴定,确定是芸薹根肿菌,然后利用欧洲ECD鉴别系统确定生理小种为ECD17/31/13,此病原菌致病力极强。采用田间苗期人工接种鉴定,与田间成株期自然诱发鉴定相结合,对88份甘蓝种质进行抗性评价和筛选,结果表明:苗期获得1份高抗,7份抗病,17份耐病材料;成株期获得4份高抗,4份抗病,15份耐病材料。2个时期88份材料群体抗性鉴定级别基本一致,93.18%材料成株期病指比苗期高。CR21在2个时期均为高抗,抗性最强,表现稳定;CR55在苗期发病最严重,病指达到76.19,成株期为74.10;CR54在成株期发病最严重,病指达到81.54,苗期为75.97,2个时期发病率均达到100%。根肿病菌的鉴定和致病力的确定,及甘蓝种质抗性评价为抗病品种选育和抗病机理的研究奠定基础。 相似文献
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小麦种质对茎基腐病抗性评价及优异种质筛选 总被引:1,自引:0,他引:1
小麦茎基腐病是由镰孢菌侵染引起的一种世界性土传病害,近年来已严重威胁到我国小麦的安全生产。为筛选具有茎基腐病抗性的小麦种质资源,本研究采用孢子悬浮液浸种法,分别以国外抗病材料Sunco和中国品种陕253为抗病和感病对照,对670份我国小麦品种(系)进行了茎基腐病温室苗期抗性鉴定。结果发现,我国供试品种(系)感病材料(病情指数>30)所占比例达到84%,且包含多个近年来小麦生产中的主推品种,表明我国小麦品种总体抗性水平低是导致茎基腐病近年来发病频率与程度不断增加的重要原因之一。经多轮筛选,发掘获得15份抗病表现稳定、抗性水平与抗病对照Sunco相仿的材料。15份材料平均病情指数在10.9~19.4之间,其株高、抽穗期等农艺性状表现出较为丰富的变异,为我国小麦抗茎基腐病品种选育和抗性遗传研究提供了种质资源。 相似文献
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芝麻枯萎病是芝麻主要真菌病害之一,由尖孢镰刀菌芝麻专化型(FOS,Fusarium oxysporum f.sp.sesami)引起,主要在苗期和成株期发生。为精准评价营养生长时期(2对真叶~现蕾)芝麻种质对FOS菌株的抗性水平,试验分析了FOS菌液浓度、蘸根接菌时间、致病力等条件下芝麻种质枯萎病病症及病情指数变化规律,建立了营养生长期芝麻枯萎病抗性精准鉴定方法。结果表明,1×10^6 cfu/mL^5×10^6 cfu/mL浓度下,植株蘸根接菌处理1~2周即可发病;第4周样本枯萎病病情指数趋于稳定。上述方法反映不同芝麻种质营养生长期对FOS菌株的抗性水平以及不同FOS菌株的致病力。营养生长期芝麻枯萎病发生可分为0~4级共5个等级。采用上述鉴定方法对42份芝麻种质进行抗枯萎病鉴定结果显示,野生种Sesamum radiatum Thonn.ex Hornem.高抗枯萎病(DI=0),而S.angustifolium(Oliv.)Engl.高感枯萎病(DI=100)。40份栽培种资源中,高感(HS)种质比例极高(55%),抗病种质比例较低(27.5%)。研究结果为深入开展芝麻抗枯萎病遗传机理分析提供了技术支持。 相似文献
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小麦种质对麦长管蚜的抗性鉴定与评价 总被引:11,自引:0,他引:11
2002-2005年连续4年,选用蚜情指数法对小麦种质进行麦长管蚜田间自然感蚜抗性鉴定,从2000份小麦种质中筛选出不同抗性材料34份,占总鉴定材料的1.7%,其中高抗种质5份、抗性种质9份、中抗种质20份。利用苗期室内接虫法,对部分抗感小麦种质进行鉴定,结果表明,苗期的抗性表现与成株期基本一致。对杂交组合临远207(抗)×Witchita(感)的F1、F2的抗性遗传分析表明,临远207对麦长管蚜的抗性由1对显性单基因控制。 相似文献
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玉米种质资源抗矮花叶病鉴定 总被引:1,自引:1,他引:1
采用苗期人工接毒和全生育期田间蚜虫传毒自然感染相结合的方法,于2002-2005年对893份玉米种质资源进行了由甘蔗花叶病毒(SCMV)引起的矮花叶病田间抗性鉴定。结果表明,表现抗病类型(高抗~中抗)材料有66份,占鉴定材料总数的7.4%。其中,表现高抗矮花叶病的有10份材料,表现抗病的有10份材料,表现中抗的有46份材料。鉴定材料表现为4种反应类型:①兼抗病毒汁液摩擦接种和蚜虫传毒类型,其中抗性突出的有赤L031、哲4678、宁74、赤L022、哲357和2019等6份自交系和农家种白苞谷;②抗病毒汁液摩擦接种但不抗蚜虫传毒类型;③抗蚜虫传毒但不抗病毒汁液摩擦接种类型;④不抗病毒汁液摩擦接种和蚜虫传毒类型。 相似文献
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小白菜种质资源对小菜蛾的抗性评价 总被引:7,自引:1,他引:6
本文就小白菜种质资源对小菜蛾的抗性进行室内鉴定,结果表明268份材料的虫害指数分布在18.10~100.00之间,种质资源间抗虫性差异达到显著水平.聚类分析将268份种质资源分为6大类,与高抗、抗、中抗、中感、感、高感相对应,其中筛选出高抗和抗性材料分别为6和11份.对268份材料的主要形态性状与虫害指数和抗性级别的相关分析表明,小白菜种质资源叶面的皱缩度与抗虫性存在一定的相关性,认为从叶面平滑型的种质资源中筛选抗虫性材料的可能性更大. 相似文献
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Tyryshkin LG 《Genetika》2006,42(3):377-384
Of 153 accessions reported to be resistant to leaf rust (Puccinia recondita Rob. ex. Desm.), only 70 were not affected by a pooled P. recondita population. According to phytopathological tests (inoculation with test clones), 14 accessions contained the Lr19 gene; 36, the Lr24 gene; 1, the Lr41 gene; and 19 presumably had the Lr9 gene. The presence of these resistance genes was confirmed by hybrid analysis for 26 accessions. Of 28 accessions reported to carry new effective resistance genes other than the known genes, 23 were affected by the P. recondita population. In four of the other five accessions, resistance proved to be controlled by known genes. Possible causes of false identification of new effective leaf rust resistance genes in wheat are discussed. 相似文献
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大白菜骨干自交系的苗期抗病性评价 总被引:1,自引:0,他引:1
为明确大白菜骨干自交系的抗病性,本研究于2012-2014年,对课题组保存和创制的203个大白菜自交系进行了霜霉病、病毒病、黑腐病、黄萎病和根肿病的苗期抗性评价。结果显示,高抗上述病害的自交系分别有7、9、0、31和12个;只抗其中一种病害的自交系82个;兼抗两种病害的有61个,兼抗三种病害的自交系有28个,兼抗四种病害的自交系有4个。自交系11-234、04-622、12-85、13-108和09-894综合抗病性最优。此外,春大白菜、夏大白菜和秋大白菜三种生态类群间,以及四种叶球抱合类群间的抗病性表现出明显差异。 相似文献
14.
国外引进水稻种质资源的稻瘟病抗性基因检测与评价 总被引:2,自引:0,他引:2
为了筛选出福建省水稻稻瘟病重发区育种中可利用的新抗性资源,在福建省上杭县对156份外引水稻种质资源进行了2年田间自然诱发鉴定,并对Pi2、Pi9、Pi5、Pi54、Pikm、Pita、Pia和Pib等8个稻瘟病抗性基因做了分子检测。结果表明:156份资源对苗瘟、叶瘟、穗颈瘟和综合抗性表现抗病的分别有10份、14份、29份和26份,且苗瘟抗性级别与叶瘟抗性级别(r=0.816,P<0.01)、苗瘟抗性级别与穗颈瘟抗性级别(r=0.347,P<0.01)、以及叶瘟抗性级别与穗颈瘟抗性级别(r=0.344,P<0.01),均呈极显著正相关。分子标记检测到携带稻瘟病抗性基因Pi9、Pi2、Pi54、Pikm、Pi5、Pib、Pia和Pita的水稻资源分别有1、6、20、22、37、88、101和106份,其中携带稻瘟病抗性基因Pi9和Pi2的水稻资源的抗性表现较好,表现抗病的超过60%,携带其他稻瘟病抗性基因的水稻资源表现抗病的均在50%以下;水稻资源携带0~6个稻瘟病抗性基因,随着携带抗性基因数目增加,抗病率呈上升趋势,综合抗性等级呈下降趋势。进一步研究发现,携带Pi9+Pi5+Pikm+Pia、Pi5+Pib+Pita+Pikm+Pia和Pi2+Pi54+Pib+Pita+Pikm+Pia等3个基因型的水稻资源,稻瘟病抗性较好。最后,筛选了8份稻瘟病抗性较好的材料,提供育种者参考、利用。 相似文献
15.
为挖掘海南普通野生稻稻瘟病抗性资源,2010年诱发鉴定了41个居群410份材料苗期叶瘟,2011年接种稻瘟病菌(YC25)鉴定了37个居群121份材料穗颈瘟,2012年调查了80个居群2461份材料田间自然状态的抗病性。结果表明:苗期叶瘟抗性鉴定有21份高抗、117份抗病。苗期抗、高抗叶瘟性的138份材料中穗颈瘟鉴定4份高抗和3份抗病,14份表现为田间自然抗病。苗期叶瘟鉴定不抗病或未作此鉴定材料中,4份表现为抗穗颈瘟和田间自然抗病。这些抗性材料来自海口、文昌、万宁、三亚、澄迈、东方等地。本研究为海南普通野生稻资源进一步研究和抗稻瘟病育种利用提供参考 相似文献
16.
采用针刺叶片接种法、温室地面水层保湿方式,对146份普通菜豆种质资源进行抗普通细菌性疫病鉴定和评价,结果表明,该接种方法简便实用,保湿方式效果良好,鉴定结果准确;从146份普通菜豆种质中筛选出抗病种质(R)2份、中抗(MR)种质50份、感病(S)种质81份、高感种质(HS)13份。本研究表明针刺叶片接种、温室地面水层自然蒸发保持湿度可以作为大规模菜豆抗普通细菌性疫病鉴定的适宜方法。 相似文献
17.
C. Sez C. Martínez M. Ferriol S. Manzano L. Velasco M. Jamilena C. Lpez B. Pic 《The Annals of applied biology》2016,169(1):91-105
Tomato leaf curl New Delhi virus (ToLCNDV) is a bipartite begomovirus (family Geminiviridae) first reported in India and its neighbouring countries. ToLCNDV severely affects zucchini crop (Cucurbita pepo) in the main production areas of Southern Spain since 2012. This emerging begomovirus is a serious threat to this and other cucurbit crops. Breeding resistant cultivars is the most promising method for disease control, but requires the identification of sources of resistance in the Cucurbita genus. In this work, we screened for ToLCNDV resistance a large collection of Cucurbita spp. accessions, including landraces and commercial cultivars of the main cultivated species, C. pepo, Cucurbita moschata and Cucurbita maxima and wild species. The screening was performed using mechanical and whitefly inoculation. The level of resistance was assessed by scoring symptom severity and by measuring the virus content with quantitative polymerase chain reaction in selected genotypes. Diversity in the response was observed within and among species. Severe symptoms and high viral amounts were found at 30 days after mechanical and whitefly inoculation in C. pepo, in all accessions belonging to the Zucchini morphotype and to other morphotypes of both subspecies, pepo and ovifera, and even in the wild relative Cucurbita fraterna. C. maxima was also highly susceptible. This species showed characteristic symptoms of leaf decay and intense yellowing, different from those of mosaic, curling and internode shortening found in C. pepo. The only species showing resistance was C. moschata. Four accessions were symptomless or had some plants with only mild symptoms after three independent rounds of mechanical inoculation with different inoculum sources. Two of them also remained symptomless after virus inoculation with viruliferous whiteflies. ToLCNDV was detected in these asymptomatic accessions at 15 and 30 days post inoculation, but viral amounts were much lower than those found in susceptible genotypes, suggesting a high level of resistance. The symptoms in the susceptible accessions of this species were also different, with a characteristic leaf mottling, evolving to a severe mosaic. The newly identified C. moschata resistant accessions are good candidates for breeding programmes to avoid the damage caused by ToLCNDV. 相似文献
18.
葫芦科蔬菜种质资源对南方根结线虫的抗性评价 总被引:8,自引:1,他引:7
根据不同种质的来源地、农艺性状等背景信息,从国家蔬菜种质资源中期库中选取具代表性的444份主要瓜类作物地方品种,分属葫芦科7个属的13个种或变种,采用病土接种法进行苗期根结线虫抗性鉴定,得出了不同葫芦科作物对南方根结线虫的抗性分布范围。忽略基因型差异,不同作物的平均病级指数从小到大的顺序为:冬瓜、西瓜、丝瓜、节瓜、苦瓜、越瓜、甜瓜、菜瓜、瓠瓜、黄瓜、中国南瓜、印度南瓜、美洲南瓜。通过抗性鉴定,共获得27份抗根结线虫种质(病级指数1~2),包括12份冬瓜、3份苦瓜、7份丝瓜和5份西瓜。 相似文献
19.
J. L. Sherwood 《Journal of Phytopathology》1985,112(1):48-55
The association of “pathogenesis-related” (PR) proteins with protection from superinfection, systemic acquired resistance and production of localized necrotic lesions was examined with a system using tobacco mosaic virus (TMV) and Nicotiana sylvestris. Leaves of N. sylvestris with a mosaic from earlier inoculation with a systemically infecting strain of TMV (TMV-C) and control plants were challenged with a necrotizing strain of TMV (TMV-P), RNA of TMV-P and turnip mosaic virus (TuMV). TMV-P virions produced localized necrotic lesions only in the dark green areas of the mosaic of TMV-C infected plants. Both RNA of TMV-P and TuMV produced localized necrotic lesions in both light green and dark green areas of the mosaic of TMV-C infected plants. All three challenge inocula produced localized necrotic lesions in previously uninoculated plants. Six days after challenge inoculation proteins were extracted from separated dark green and light green mosaic leaf tissue, and leaf material from control plants. Proteins were separated by electrophoresis in a 5 % polyacrylamide spacer gel and 10 % polyacrylamide running gel. PR proteins were found in tissue where localized necrotic lesions were produced as a result of challenge inoculation, but not in tissue that was not superinfected. PR proteins were not found in light green or dark green mosaic leaf tissue as a result of TMV-C inoculation. No PR proteins were evident in protein extracts from light green tissue challenged with TMV-P, although PR proteins were produced in dark green tissue, where necrosis occurred, from the same leaves. Systemic acquired resistance (reduction in size of lesions formed by a challenge inoculation) to TuMV or RNA of TMV-P and PR protein concentration was measured at various times in light green areas of mosaic leaves where dark green areas of the mosaic leaves had been inoculated with TMV-P. No quantitative or temporal relationship between the onset of resistance and PR protein production was found. It is concluded that PR proteins are a result of pathogen induced necrosis and not significantly involved in the mechanism(s) of viral induced resistance. 相似文献