人工合成抗纹枯病小麦新种质的鉴定

小麦纹枯病是影响我国小麦生产的主要土传病害。培育、推广抗纹枯病小麦品种是防治该病害最经济、有效的方法。普通小麦中抗源匮乏,严重制约抗纹枯病小麦育种的进展。为发掘人工合成小麦中纹枯病新抗源,本试验通过人工接种、抗病鉴定方法,在江苏省和北京市两地,对来源于国际玉米小麦改良中心的102份人工合成六倍体小麦品系,进行4年的纹枯病抗性的多环境鉴定。结果表明,人工合成小麦品系间对小麦纹枯病抗性存在差异,在其中进行小麦纹枯病抗源的筛选是有效的。与普通小麦品种扬麦158、扬麦12相比,这102份人工合成小麦的大部分对纹枯病的抗性表现抗或中抗水平,其中一些品系在多年多点鉴定中表现稳定抗性,如ZC93、ZC111、ZC112、ZC123、ZC172、ZC206和ZC221表现为抗病水平,病情指数低于目前最好的普通小麦抗源,可作为抗纹枯病小麦育种的新抗源。     

1994 - 2002年小麦品种(系)抗条锈性鉴定与监测

1994—2002年经对3822份小麦品种(系)材料抗条锈性鉴定结果表明,冬小麦抗条锈性优于春小麦,甘肃品种抗条锈性优于国内其它省区品种。田间抗条锈性监测结果表明,我国主要生产品种均表现感病,甘肃主要生产品种仅陇鉴127等少数几个品种抗病,抗源材料中也仅有中四等少数品种表现抗病,结合抗病性鉴定、监测结果及田间综合农艺性状观察,筛选出20余份可供育种利用的抗源材料。同时在针对今后抗条中31、32号等主要小种类型的抗病育种、抗病性监测等方面进行了讨论。     

小麦改良的可利用资源：黑麦抗病基因

黑麦(Secale cereale)蕴藏着丰富的抗病基因,是改良小麦抗性的重要资源,黑麦抗病基因的导入一直是小麦育种的重要研究课题。本文综述了黑麦抗病基因的染色体定位、分子标记研究和含黑麦抗病基因的小麦种质资源在我国小麦育种中的应用,对应用中存在的问题进行了分析,并对今后的研究方向进行了展望。     

茶树种质资源抗病性鉴定

１９８７～１９９５年开展了茶树种质资源抗病性鉴定研究．经田间和室内鉴定试验,从３４份资源材料中筛选出对茶轮斑病高抗材料１份,抗性材料１１份;从３０份资源材料中筛选出对茶苗根结线虫病高抗材料５份,抗性材料１３份．从而为抗病育种或推广生产提供了抗源材料,同时也为抗性机制及遗传规律研究提供了基础．     

小麦种质对茎基腐病抗性评价及优异种质筛选

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。     

抗茎腐病转基因小麦新种质的筛选

为拓宽小麦茎腐病(又称茎基腐病)抗源种类,筛选抗茎腐病小麦新种质,对43份转TaPIMP1、AtNPR1和Gastrodianin基因小麦纯合株系,进行目的基因表达分析,以及茎腐病、纹枯病和赤霉病抗性鉴定。结果表明,转基因株系的目的基因均能正常表达;转基因株系间茎腐病抗性差异明显,24份转基因株系茎腐病抗性,比受体对照扬麦12显著提高;转基因株系茎腐病抗性与纹枯病抗性相关性显著,与赤霉病相关性不显著。结合农艺性状鉴定,筛选出5份抗茎腐病转基因株系,其中2份兼抗纹枯病和赤霉病,1份兼抗纹枯病,可作为长江中下游麦区茎腐病备用抗源。     

小麦叶锈病新抗源筛选

小麦叶锈病是小麦生产的主要病害之一,发病严重时往往导致大幅度减产。叶锈菌生理小种的变异易导致抗病基因抗性的丧失,因此不断获得新抗源对小麦抗病育种至关重要。小麦近缘植物中含有丰富的小麦育种所需的抗病基因。本研究从小麦-近缘植物双二倍体、附加系、代换系或易位系等创新种质中筛选出小麦叶锈病新抗源,为利用这些新抗源打下基础。苗期对116份供试材料人工接种美国堪萨斯州流行的小麦叶锈菌混合生理小种 (Lrcomp) ,其中部分材料人工接种09-9-1441-1等5个中国当前流行的叶锈菌生理小种进行抗性鉴定,筛选获得新抗源。116份种质中,31份免疫、近免疫或高抗Lrcomp。含有希尔斯山羊草、尾状山羊草、拟斯卑尔脱山羊草、两芒山羊草、卵穗山羊草、沙融山羊草、柱穗山羊草、顶芒山羊草、小伞山羊草、偏凸山羊草、中间偃麦草、茸毛偃麦草、长穗偃麦草、粗穗披碱草、栽培黑麦、非洲黑麦、提莫菲维染色质的部分种质免疫或高抗Lrcomp,而含二角山羊草、无芒山羊草、沙生冰草、多年生簇毛麦和一年生簇毛麦染色质的种质表现中感至高感Lrcomp。希尔斯山羊草4S染色体、尾状山羊草C#1和D#1染色体和两芒山羊草、顶芒山羊草中可能含有未被报道的抗Lrcomp的新基因,值得进一步向小麦转育。小麦-粗穗披碱草1HtS.1BL罗伯逊易位系对Lrcomp及 09-9-1441-1和09-9-1426-1等5个中国当前流行叶锈菌生理小种近免疫,值得利用染色体工程等方法获得小片段抗病易位系应用于我国小麦抗叶锈育种。     

240份玉米自交系纹枯病抗性鉴定与评价

在人工接种条件下,连续3年对240份玉米自交系纹枯病抗性进行鉴定和评价,分析了玉米纹枯病抗性与主要农艺性状的相关性。结果表明,玉米纹枯病抗性资源较为缺乏,240份自交系中无免疫或高抗的材料,有中抗自交系4份、感病自交系18份、高感自交系218份。旅大红骨、Reid、PA和塘四平头类群自交系中未发现玉米纹枯病抗源,PB类群和Lancaster类群自交系纹枯病抗性相对较好,今后应主要从这两类种质中寻找玉米纹枯病抗源。玉米纹枯病病情指数与株高、穗位高、穗位高/株高、穗下节间数和穗下平均节间长均呈极显著负相关,这些表型可以作为非接种条件下筛选抗玉米纹枯病种质的参考指标。     

广西玉米种质资源对纹枯病的抗性鉴定

在人工接种条件下,对860份玉米材料进行了纹枯病抗性鉴定和评价,旨在为进一步开展玉米纹枯病抗性育种和分子生物学研究奠定基础。结果显示,在鉴定的860份玉米材料中,没有发现免疫的材料,高抗、抗、中抗、感和高感的比例分别为3．49％、28．60％、26．16％、10．35％和31．40％;在农家种、群体种和杂交种（组合）等杂合体中,抗病材料所占比例较大,而自交系等纯合体中,感病材料所占比例较大,表明玉米杂合体种质资源材料中可能蕴藏着不同的抗纹枯病基因,特别是广西农家种中可能存在对纹枯病具有稳定抗性的材料,值得进一步研究和利用。     

广西玉米种质资源对纹枯病的抗性鉴定

在人工接种条件下,对860份玉米材料进行了纹枯病抗性鉴定和评价,旨在为进一步开展玉米纹枯病抗性育种和分子生物学研究奠定基础。结果显示,在鉴定的860份玉米材料中,没有发现免疫的材料,高抗、抗、中抗、感和高感的比例分别为3.49%、28.60%、26.16%、10.35%和31.40%;在农家种、群体种和杂交种（组合）等杂合体中,抗病材料所占比例较大,而自交系等纯合体中,感病材料所占比例较大,表明玉米杂合体种质资源材料中可能蕴藏着不同的抗纹枯病基因,特别是广西农家种中可能存在对纹枯病具有稳定抗性的材料,值得进一步研究和利用。     

小麦种质抗纹枯病性的鉴定和遗传分析

对2300余份创新种质和引进种质抗纹枯病性进行了自然病地初步鉴定,在此基础上选择一批抗性好的种质进行了人工病圃鉴定,共评选出高抗纹枯病的创新种质14份,引进种质21份。这些种质都兼抗1－3种其它病害,且综合性状较好,其中创新种质最好,为抗纹枯病育种提供了良好的种质材料。还选用7个抗纹枯病性不同的亲本组配成半双列杂交组合。采用Hayman法进行了基因效应分析,结果表明,抗纹枯病性的遗传不符合加性－显性模型。     

Mapping of QTL conferring resistance to sharp eyespot (Rhizoctonia cerealis) in bread wheat at the adult plant growth stage

Key message

Seven sharp eyespot resistance QTL were detected consistently across five environments and delimited to seven DNA marker intervals, respectively, six of which were independent of plant height and heading time.

Abstract

Sharp eyespot, caused mainly by the soil-borne fungus Rhizoctonia cerealis, is one of the important diseases of bread wheat (Triticum aestivum L.). This disease has escalated into a major threat to wheat production in some regions of the world. Wheat resistance to sharp eyespot can be a potential means to reduce the needs for application of fungicides and agricultural inputs. In the present study, the winter wheat lines, Luke and AQ24788-83, both of which possess quantitative resistance to sharp eyespot, were crossed and a population consisting 241 recombinant-inbred lines (RILs) was constructed. These RILs were assessed for sharp eyespot resistance by conducting five field and greenhouse trials during the period from 2008 to 2012, and they were genotyped with 549 simple-sequence repeat DNA markers. Seven quantitative trait loci (QTL) were detected consistently across the five trial environments to be associated with the sharp eyespot resistance. They were mapped on chromosomes 1A, 2B, 3B, 4A, 5D, 6B, and 7B. Four of these QTL are unequivocally novel, while it is possible that the other three might also be novel. Plant height and heading date of the 241 RILs were recorded in the four field trials. All of the seven disease resistance QTL were independent of plant height and heading time except one that was significantly associated with plant heading time. This association might be attributed genetically to a single QTL, or to different but closely linked QTL. In the case of single QTL, pleiotropism might be involved or the sharp eyespot resistance might be conferred in a physical instead of physiological nature.     

28份人工合成小麦对禾谷孢囊线虫、纹枯病、条锈病和叶锈病的抗性

为了发现具有兼抗多种病害的小麦种质,本研究采用田间病圃法和人工接种法,对28份人工合成小麦的禾谷孢囊线虫、纹枯病、条锈病和叶锈病进行了抗性鉴定。人工合成小麦对这些病害表现不同程度的抗性反应。C2和C20对鉴定的4种病害都具有抗性,C5、C10和C25对这些病害都表现感病。8份材料对Heterodera avenae和H. filipjevi两种病原线虫都表现抗性反应型,也有的材料只抗一种线虫。供试材料对纹枯病的抗性表现较好,其中19份材料表现抗性反应型。9份材料对接种的条锈菌小种CY30、CY31、CY32和CY33均表现抗性反应型,5份材料对叶锈菌小种THT和PHT都具抗性。     

Surveys of diseases of winter wheat in England and Wales, 1976–1988

Samples from 300 – 400 randomly selected winter wheat crops were taken annually at growth stage 73 – 75 from 1976 to 1988 with the exception of 1983 and 1984. The number of samples from each region was proportional to the area of wheat grown in each region. The percentage of the area of the top two leaves affected by diseases, the severity of ear and stem base diseases and, in 6 years, the severity of take-all were recorded. Septoria tritici and Septoria nodorum were, on average, the most severe of the foliar diseases and eyespot (Pseudocercosporella herpotrichoides) was the most severe of the stem base diseases. Regional differences in levels of S. tritici, brown rust, sharp eyespot and nodal fusarium were significant. Cultivar resistance affected disease severity, and previous cropping patterns particularly affected take-all and eyespot. Eyespot and sharp eyespot were less severe in late- than in early-sown crops. The percentage of crops treated with a fungicidal spray increased from 14% in 1976 to over 90% between 1983 and 1985. Use of benzimidazole fungicides applied at growth stage 31 declined, while use of morpholines from flag leaf emergence onwards increased between 1985 and 1988.     

蜡样芽孢杆菌B3-7在大田小麦根部的定殖动态及其对小麦纹枯病的防治效果

为了阐明蜡样芽孢杆菌B3-7在大田条件下的生态适应性以及对于小麦纹枯病的生防效果,通过利用绿色荧光蛋白编码基因gfp标记生防菌株B3-7,室内比较了GFP标记菌株和原始出发菌株在菌落形态、生长特性,生物薄膜产生以及在小麦根部定殖等方面的特性,结果发现GFP标记菌株和出发菌株在上述特性方面无明显差别。在此基础上,大田条件下测定了GFP标记菌株在小麦根部的定殖动态和对于小麦纹枯病的生防效果。结果发现,GFP标记菌株在小麦根部能够长期定殖,其存在量在小麦分蘖期最大,每克根重达到105CFU,拔节期后,该细菌数量一直维持在104CFU之上。同时发现,生防菌株能够有效降低小麦纹枯病的严重度和提高罹病小麦的产量。小麦分蘖期、孕穗期和灌浆期生防菌对于小麦纹枯病的防治效果分别达到60%、34%,34%,小麦成熟后产量提高13%—15%。结果表明,B3-7在大田条件下具有较好的生态适应性和防治小麦纹枯病的能力。     

Combined application of Bacillus subtilis NJ-18 with fungicides for control of sharp eyespot of wheat

Antagonistic bacterium, Bacillus subtilis NJ-18, can biologically control several plant diseases. A combined strategy of wheat sharp eyespot control consisting of B. subtilis NJ-18 and fungicides was evaluated. Greenhouse and field tests were conducted to determine the effect of combining the B. subtilis NJ-18 with the fungicides flutolanil and difenoconazole for the control of wheat sharp eyespot caused by Rhizoctonia cerealis Van der Hoeven. The sensitivity of B. subtilis NJ-18 to fungicides flutolanil and difenoconazole was tested. The growth of NJ-18 was unaffected by flutolanil in a broth medium, and the survival of NJ-18 spores on wheat seed was unaffected by difenoconazole. In greenhouse experiments, disease control obtained with a combination of NJ-18 and either fungicide was better than the control obtained with the bacterium or fungicides alone, and some combinations of bacterium plus fungicide demonstrated a small synergistic effect in reducing disease. Similar results were obtained with repeated field experiments. In addition to providing a highly effective disease control, the use of combinations enabled a reduced level of fungicide application. Overall, the results suggest that the combination of B. subtilis strain NJ-18 and flutolanil or difenoconazole represents a promising new tool for the control of sharp eyespot of wheat.