Allelopathy of decomposed maize straw products on three soilborn diseases of wheat and the analysis by GC-MS

In northern China, the soil-born diseases of wheat have been getting more and more serious under a new farming system that returns maize straw to the field. In order to investigate the allelopathy of the decomposed maize straw products on three soil-born diseases of wheat, culture dish and pot experiments were conducted and the compounds in the products were identified by gas chromatography-mass spectrometry （GC-MS）. Culture dish experiments showed that the mycelial growth, sclerotia formation amount and total weight of Rhizoctonia cerealis were promoted at concentrations of 0.03, 0.06 and 0.12 g mL-1 and inhibited at concentration of 0.48 g mL-1 of the decomposed products. No significant effects were found of the product concentrations on average weight of the sclerotia. Mycelial growth of Gaeumannomyces graminis was promoted at almost all concentrations except the highest one. Mycelial growth and spore germination of Bipolaris sorokiniana were significantly inhibited by all concentrations of the decomposed products, with enhanced inhibition effects along with the increased concentrations. The length, number and dry weight of roots together with the root superoxide dismutase activity were promoted by the lowest concentration （0.03 g mL-1）, with a synthetic effect index of 0.012, and inhibited by other concentrations. The ion leakage of roots was increased and the root peroxidase activity of roots was lowered by all the treatments. Pot experiments revealed that occurrence of the sharp eyespot was reduced by 0.03 and 0.06 g mL-1 of decomposed products after irrigation. However, the incidence rates and disease indexes were significantly increased by 0.12, 0.24 and 0.48 g mL-1 of decomposed products. The results indicated that incidence rates and disease indexes of the take-all were significantly promoted after being irrigated with the decomposed products, while occurrences of the common rot didn＇t change, significantly. GC-MS results showed that the compounds of the decomposed products included organic acids, esters, hydrocarbons, amides and aldehydes, with the proportions 25.26, 24.01, 17.22, 14.39 and 7.73%, respectively. Further analysis investigated that the allelochemicals identified in straw decomposed products contained p-hydroxybenzoic acid （9.21%）, dibutyl phthalate （6.94%）, 3-phenyl-2-acrylic （5.06%）, 4-hydroxy-3,5-dimethoxybenzoic acid （2.26%）, hexanoic acid （1.73%）, 8-octadecenoic acid （1.06%）, 3-（4-hydroxy-3-methoxy-phenyl）-2-propenoic acid （1.04%）, 4-hydroxy-3-methoxy-benzoic acid （0.94%） and salicylic acid （0.94%）.

Chinese wheat mosaic virus: A long-term threat to wheat in China

In China, a soil-borne virus causing a disease of winter wheat and associated with Polymyxa graminis, has been reported for many years and is now recognized as a new species, Chinese wheat mosaic virus(CWMV). Since the determination of its genomic sequence, more progress has been made in understanding its genomic structure and functions. Molecular and serological methods have been developed to help survey the distribution of the virus and to provide the basic information needed for disease forecasting and control. At present, the best countermeasure is cultivation of resistant wheat varieties. In addition, development and application of some auxiliary countermeasures, such as rotation of non-host crops, delayed seed-sowing, reasonable application of nitrogen fertilizer, and treatment of imported seeds with fungicides before sowing, may be helpful for controlling the disease. The viral distribution and damage, virion properties, genome organization and spontaneous mutation, temperature sensitivity, and disease management options are here reviewed and/or discussed to help in developing more cost-effective countermeasures to control the disease in the future.

Remote Monitoring of Wheat Streak Mosaic Progression Using Sub-Pixel Classification of Landsat 5 TM Imagery for Site Specific Disease Management in Winter Wheat

Wheat streak mosaic (WSM), caused by Wheat streak mosaic virus is a viral disease that affects wheat (Triticum aestivum L.), other grains, and numerous grasses over large geographical areas around the world. To improve disease management and crop production, it is essential to have adequate methods for monitoring disease epidemics at various scales and multiple times. Remote sensing has become an essential tool for monitoring and quantifying crop stress due to biotic and abiotic factors. The objective of our study was to explore the utility of Landsat 5 TM imagery for detecting, quantifying, and mapping the occurrence of WSM in irrigated commercial wheat fields. The infection and progression of WSM was biweekly assessed in the Texas Panhandle during the 2007-2008 crop years. Diseased-wheat was separated from uninfected wheat on the images using a sub-pixel classifier. The overall classification accuracies were >91% with kappa coefficient between 0.80 and 0.94 for disease detection were achieved. Omission errors varied between 2% and 14%, while commission errors ranged from 1% to 21%. These results indicate that the TM image can be used to accurately detect and quantify disease for site-specific WSM management. Remote detection of WSM using geospatial imagery may substantially improve monitoring, planning, and management practices by overcoming some of the shortcomings of the ground-based surveys such as observer bias and inaccessibility. Remote sensing techniques for accurate disease mapping offer a unique set of advantages including repeatability, large area coverage, and cost-effectiveness over the ground-based methods. Hence, remote detection is particularly and practically critical for repeated disease mo- nitoring and mapping over time and space during the course of a growing season.

小麦黄花叶病抗性研究及育种应用进展

小麦黄花叶病是一种全球性的土传病毒病,严重时会导致小麦产量大幅下降。小麦黄花叶病毒(WYMV)是主要的病原体之一,属于马铃薯Y病毒科(Potyviridae)大麦黄花叶病毒属(Bymovirus),以禾谷多黏菌(Polymyxa graminis)为媒介感染小麦。目前已鉴定出14个抗WYMV的基因位点,图位克隆了1个抗病基因,证实了3个基因具有抗病性调控功能,已育成多个抗病小麦品种(系)。本文从小麦黄花叶病毒的病原体特性、病害分布、小麦抗性遗传和抗病育种等方面,综述了WYMV及小麦抗病性的研究进展,并对WYMV抗性基因挖掘和小麦抗病育种应用进行了展望。

小麦对黄花叶病的抗性鉴定及典型品种的遗传分析

本研究针对来自江苏、河南、四川、湖北、日本和美国的37个小麦品种,在进行小麦抗黄花叶病的抗病性鉴定、调查的基础上,结合分子生物学检测(RT-PCR和ELISA),证实小麦品种扬辐9311对小麦黄花叶病毒(WYMV)表现免疫。将该品种与表现高感的小麦品种进行杂交和回交,通过对其后代抗感分离的调查与分析,确定了小麦品种扬辐9311对黄花叶病的抗性受一对显性基因控制,并为寻找小麦抗黄花叶病基因的分子标记提供理论依据和实验材料。同时,本文对小麦抗黄花叶病表现的影响因素及宁麦9号的抗病性进行了分析和讨论。

几种药剂对小麦黄矮病的防治效果

为明确病毒抑制剂对小麦黄矮病的预防和防治效果,在小麦起身期将大麦黄矮病毒GAV株系接种于小麦陕恳9740上,喷施杀虫剂(2.5%吡虫啉可湿性粉剂2000倍液)与病毒抑制剂(20%病毒A可湿性粉剂500倍液、3.95%病毒必克可湿性粉剂500倍液、5%菌毒清水剂500倍液和2%菌克毒克水剂300倍液)的不同组合,于小麦开花期统计发病率、病情指数和小麦叶片黄化率,结果表明,各组合均能早期预防和防治小麦黄矮病发生和发展,且预防效果优于防治效果,其中病毒必克与吡虫啉组合的平均预防和防治效果最显著,分别为58.08%和53.03%。进一步利用病毒必克在室内进行防治性试验,发现病毒必克能够抑制GAV对叶绿素的破坏,可减轻大麦黄矮病毒对小麦的危害。

分子标记辅助选育兼抗赤霉病、白粉病和黄花叶病毒病的小麦新品系

小麦赤霉病、白粉病和黄花叶病毒病是长江中下游麦区的主要病害,因此培育多抗品种是小麦绿色生产的基础。扬麦18是多抗高产小麦品种,具有抗赤霉病基因Fhb1、抗白粉病基因Pm21和抗黄花叶病毒病数量性状位点(QTL)QYm.njau-5A,其不足是株高较高、抗倒性差。扬麦22是抗白粉病的高产品种,携带抗白粉病基因PmV,但中感赤霉病,高感黄花叶病毒病。为了培育矮秆抗倒、兼抗3种病害的小麦新品系,以扬麦18/扬麦22重组自交系群体(RIL)为材料,研究Fhb1、QYm.njau-5A在群体中的分布及其对株高、粒质量的遗传效应,并对多基因聚合效率进行评估。结果表明,在RIL群体中,Fhb1、QYm.njau-5A的分布频率分别为49.0%、50.5%,符合Hardy-Weinberg定律,说明二者可在亲子代自由传递;Fhb1阳性RIL组群的平均病小穗数显著低于Fhb1阴性RIL组群,Pm21、PmV阳性RIL家系均表现为高抗白粉病;单个QYm.njau-5A能够满足抗小麦黄花叶病毒病的育种需求;Fhb1对株高、粒质量没有显著影响;QYm.njau-5A对株高有显著的增效作用,对粒质量没有显著影响;育成兼抗3种病害的矮秆高产新品系(组合)扬17J103、扬杂麦1号进入区域试验。研究结果为利用分子标记辅助选择技术培育矮秆多抗小麦新品种提供了优异的育种材料和理论依据。

山东省小麦土传花叶病毒病的分布与病原鉴定

小麦土传花叶病毒病是侵染小麦的一种重要病害,该病害病原有多个病毒种类,主要为小麦黄花叶病毒(WYMV)和中国小麦花叶病毒(CWMV),由禾谷多黏菌以持久性方式传播为害。为明确该病害在山东的最新分布状况,于2013-2016年采用田间调查,结合dot-ELISA和RT-PCR检测等方法对小麦土传花叶病毒病进行了研究。结果表明,小麦土传花叶病毒病主要分布在鲁南地区,而鲁中、鲁东、鲁北等为零星发生区。WYMV主要分布在临沂、济宁、泰安和枣庄等地;CWMV主要分布在烟台、威海、青岛、临沂和德州等地;烟台、威海、青岛、临沂为两种病毒的混发区。对CWMV主要分布区域(文登、荣成、胶州、莒南、平原、沂水、福山)的CWMV的CP基因进行系统进化聚类分析发现,CWMV的CP基因同源性为94.7%~98.3%,在进化树中聚类为两组,其中,平原、文登、福山和莒南分离物与日本分离物(登录号:AB299272.1)亲缘关系较近,沂水、荣成和胶州分离物与江苏大丰分离物(登录号:EF121374.1)亲缘关系较近。

我国粮食作物病毒病发生与防控现状

近年来,我国水稻、小麦、玉米病毒病发生严重,造成重大经济损失。本文就近年来水稻、小麦和玉米等主要粮食作物上水稻条纹叶枯病、水稻黑条矮缩病、南方水稻黑条矮缩病、小麦黄花叶病以及玉米粗缩病的发生现状、防控情况,以及防控过程中存在的问题作简要概述,并展望下一阶段防控任务。

小麦基础日粮添加酶制剂对肉仔鸡生产性能和血液某些指标的影响

在小麦基础日粮中添加国产酶 (EⅠ )和进口酶 (EⅡ )两种粗酶制剂 ,研究其对肉仔鸡生产性能、血液某些代谢激素水平和新城疫抗体效价的影响。试验将 192只 7日龄AA肉仔鸡分成 6组 ,基础日粮中分别添加 0 % ,0 0 5 % ,0 1%和 0 5 %EⅠ ,0 0 5 %和 0 1%EⅡ ,试验期 42d。结果表明 ,7～ 49日龄时 ,添加 0 0 5 %～ 0 5 %EⅠ各组和添加 0 0 5 %～0 1%EⅡ各组分别使肉仔鸡增重提高 6 7%～ 9 1% (P <0 0 1)和 2 2 %～ 6 5 % (P <0 0 5 ) ,料重比分别降低 2 9%～9 9% (P <0 0 1)和 1 6 %～ 2 9% (P >0 0 5 )。 0 1%EⅠ组和 0 0 5 %EⅡ组使 2 1日龄肉仔鸡血液胰岛素样生长因子(IGF 1)水平提高 14 7%和 2 2 6 % (P <0 0 1) ,使 49日龄肉仔鸡血液T3水平提高 5 3 8% (P <0 0 5 )和 2 4 0 % ,胰岛素(Ins)水平提高 2 3 6 % (P <0 0 5 )和 15 7% ,T4含量却极显著下降 (P <0 0 1) ,血清新城疫抗体效价提高 2 8 8%和7 3% (P >0 0 5 )。粗酶制剂的添加对肉仔鸡屠宰性能无明显影响。

江苏小麦条纹病毒病的发生及其病原的RT-PCR分析

为了确诊在江苏小麦上新发生的一种病毒病害,采用ELISA、RT-PCR和序列测定等方法对其病原进行了精确鉴定,并对此病的田间发生流行规律进行了调查分析。结果表明,该病主要症状表现为沿叶脉产生断续或连续的褪绿或黄化条纹,后期心叶枯死或产生枯孕穗,症状于日最低气温高于15℃连续7 d后开始表现。病株主要出现在稻套麦田中,病害轻重与麦田中灰飞虱的越冬基数大小密切相关,病田发病率最高可达70.0%以上。经Dot-ELISA检测,病叶与水稻条纹病毒(rice stripe virus,RSV)抗血清呈阳性反应,以已发表的RSV日本T分离物的相应基因片段序列设计的引物可在症状明显的小麦叶片中扩增出预期目的条带。测序结果表明,小麦来源江苏盐都分离物的CP和NS3基因与水稻来源的RSV江苏洪泽分离物和日本T分离物对应基因片段核苷酸序列同源性达95%以上,与同一地区灰飞虱来源的RSV分离物对应基因片段核苷酸序列同源性达97%以上。根据以上结果确认该病病原为水稻条纹病毒,初步命名为小麦条纹病毒病。

大麦黄矮病毒的冰核活性与作物霜冻的关系

对大麦黄矮病毒(Barley Yellow Dwarf Virus,BYDV)的冰核活性,以及它的侵染与作物霜冻的关系进行了研究.利用人工摸拟霜箱,测试了接种BYDV的小麦等作物植株的霜冻温度,并用ELISA法检测了供试植株的病毒含量.结果表明,接种样品与对照相比,感病品种的霜冻温度升高1—2℃以上,抗病品种的霜冻温度变化不大.离体叶片测定结果表明,“中7902”的叶片中,病毒含量与霜冻温度成正相关,说明BYDV可以起到异源冰核(heterogeneous ice nuclei)的作用,它的侵染能影响作物的抗霜冻能力.用“Vali小液滴冻结法”检测提纯的BYDV,证明BYDV具冰核活性,从而首次发现病毒也能起到生物冰核的作用.

小麦品种对梭条斑花叶病毒病抗病特性的研究——Ⅰ.抗病性与抗病毒和抗介体能力的关系

研究了小麦抗病品种SK-4、SN7859和感病品种8201-69、81-5对梭条斑花叶病毒病的抗病性与其抗病毒(WSSMV)和抗传毒介体禾谷多粘菌(Polymyxa graminis Led.)的能力之间的关系。结果表明:小麦品种的抗病性与它们抗病毒的能力一致;与它们抗传毒介体的能力有一定的相关性,但不尽一致。具体表现为抗病品种SK-4抗病毒和抗介体能力均强,SN7859抗病毒能力强,但抗介体能力较弱;感病品种81-5抗病毒能力弱,但抗介体能力较强,而8201-69则抗病毒和抗介体的能力均弱。

大麦黄矮病毒运动蛋白及其介导的小麦抗病性研究进展

麦黄矮病毒依靠介体蚜虫传播引起小麦黄矮病,对我国麦类作物生产造成严重威胁。本文结合本课题组的研究,对大麦黄矮病毒编码的运动蛋白的生化特性、生物学功能及其介导小麦的抗病性等方面的研究进展进行了综述。该运动蛋白在病毒构成中能够结合病毒核酸,并与宿主细胞膜系统相互作用,是一个与黄矮病毒系统侵染相关的致病因子。

病毒抑制剂对小麦黄矮病防治效果的研究

为明确不同致病机理的病毒抑制剂对小麦黄矮病的预防和防治效果,在小麦苗期将大麦黄矮病毒GAV株系接种于小麦阿勃上,喷施杀虫剂(毒死蜱)与病毒抑制剂(病毒特、好普、嘧肽核苷病毒唑、1.5%植病灵乳剂)的不同组合。结果表明,病毒特与毒死蜱组合的平均预防和防治效果最好。

基于高光谱遥感的小麦黄花叶病害等级监测研究

为了构建小麦黄花叶病的遥感监测技术,在小麦返青期、拔节前期和拔节后期测定了不同黄花叶病等级下的冠层反射率,并同步调查与病害等级相关的小麦株高、含水量、氮含量、色素含量等农学参数,筛选出适宜监测小麦黄花叶病的植被指数,并构建病害等级监测模型。结果表明,小麦黄花叶病的反射光谱敏感波段在返青期和拔节前期集中于560~720nm范围,而拔节后期则集中于800~900nm区域。随病害等级的增加,光谱反射率在可见光波段逐渐增加,而在近红外波段区域降低。植被指数与病害等级相关性在不同生育时期间存在显著差异,整体上以拔节前期最好,决定系数(r^(2))为0.72~0.82,而拔节后期模型精度急剧下降(r^(2)=0.26~0.72)。在植被指数中,整体上以表征色素变化的mND705模型预测精度最好,r^(2)和RMSE分别为0.59~0.68和0.79~0.98。采用偏最小二乘回归(PLSR)建立黄花叶病害分级模型,三个时期的模型精度均高于植被指数模型,且整体上以返青期和拔节期前期估算效果较好,模型验证r^(2)为0.93~0.97,RMSE为0.24~0.32。因此,利用PLSR模型可以准确评价返青至拔节期前期小麦黄花叶病害等级。

春小麦病毒病的鉴定——Ⅱ 生物学特性及血清学鉴定

试验证明,春小麦病毒病毒原的传毒介体为灰飞虱(Laodelphax striatella Fallen),不能经卵传毒。土壤、种子、蚜虫、叶蝉及汁液磨擦接种均不传毒。生物学测定及田间调查表明,该病毒的症状为矮化、丛生、叶片有条纹花叶、条点及植株早枯。症状表现与感病时期及温度有关,日温高于30℃则隐症。在鉴别寄主上的反应与日本 Toriyama 的报道一致。黍(Panicummiliaceum),无芒雀麦(Bromus inermis Leyss),野稗(Echinochloa crusgalli(L.)Beauv)为新确定的寄主。该病毒在谷子及黍上造成大面积危害,并在谷子上表现特殊症状。ELISA 测定结果表明,该病毒与小麦丛矮病的抗血清呈阳性反应。以上结果及电镜观察(已报道)确定该病毒为北方禾谷花叶病毒(NCMV),又名小麦丛矮病毒(WRSV)。

中国大麦黄矮病毒及BYDV-GAV株系研究进展

大麦黄矮病毒(Barley yellow dwarf virus,BYDVs)隶属于黄症病毒科(Luteovirdae)黄症病毒属(Luteovirus),由该病毒引起的小麦黄矮病最早在美国发生并报道,此后在国外其他地域也曾有过发生报道。在我国,小麦黄矮病最早于1960年在陕西、甘肃发生并报道,近年来,在我国其他地区也有发生,该病害被称为麦类作物上的“癌症”,对麦类作物生产影响较大,为害严重时,造成麦类作物产量大幅降低。BYDV株系的划分依据为其传毒介体蚜虫的传播专化性,即一个病毒株系只能由一种或两种蚜虫进行传播,根据ICTV国际病毒委员会分类系统报道,目前国际上确定的该病毒株系有BYDV-MAV、BYDV-PAV、BYDV-RMV、BYDV-SGV等,我国鉴定有BYDV-PAV、BYDV-GPV、BYDV-GAV、BYDV-RMV 4个株系,GAV为我国流行株系。主要从BYDV的为害症状、株系分化、传播介体、基因组结构和功能、病害防治方面进行相关综述,着重介绍BYDV-GAV株系的抗性鉴定、抗性基因等方面的相关研究进展,以期为该病害的抗病育种和防治提供一定的理论基础。

小麦病毒病的研究

通过对小麦病毒病的发病条件及发病症状进行介绍,综合论述了在当前能够有效避免病毒病发生和流行的防治措施,以期为小麦病毒病的避害、减害提供参考,以利于小麦的稳产和增产,同时促进了该领域的发展也为相关领域的研究提供帮助。

不同发病级别小麦黄花叶病病毒含量的分析

为明确小麦黄花叶病毒(wheat yellow mosaic virus,WYMV)在不同发病级别、不同组织部位含量的差异,从小麦黄花叶病发病的田块,选取发病典型的级别为0、1、2和3级的小麦样本;取无病毒田块的健康小麦样本为空白对照,利用实时荧光定量PCR(real-time fluorescent quantitative PCR,RT-qPCR)技术,分别对小麦的根、茎、叶进行小麦黄花叶病毒含量的绝对定量。结果表明,在感病样品中,小麦根部的WYMV含量都显著多于叶部(P<0.05),发病0级小麦根部的病毒含量是叶部病毒含量的13.97倍。在不同发病级别的小麦组织中,随着发病级别的加重,根、茎、叶中的病毒含量都是显著增加的(P<0.05)。根中的病毒含量先是快速增加而后缓慢增加,0级到1级,根中病毒量增加3.95×10^(6)copies·μL^(-1),而1级到3级,病毒增加量仅为1.45×10^(6)copies·μL^(-1);茎和叶中病毒含量呈现匀速增加的趋势,且茎中病毒含量与发病级别呈强正相关性(R^(2)=0.9967)。本研究明确了感病小麦根部WYMV的含量最多,同时发现在尚未显症的发病0级小麦中,根部WYMV含量远大于对照组;茎部WYMV的含量与症状关系最为密切,茎部病毒含量越高,小麦显症越明显。