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近年来, 小麦孢囊线虫病已成为我国小麦生产上的重要病害之一。掌握病原线虫的侵染动态是病害防控基础。本文在田间条件下, 对两种孢囊线虫—禾谷孢囊线虫(Heterodera avenae)和菲利普孢囊线虫(H.filipjevi)在河南郑州的侵染动态进行了比较研究, 结果显示:小麦出苗后2周即可发现孢囊线虫的二龄幼虫侵入到小麦根内, 4周后少量二龄幼虫发育为三龄, 6周后根内幼虫数量达到第一次高峰, 同时发现少量四龄幼虫。小麦出苗60 d后, 由于温度较低, 根内各虫态数量基本维持稳定;在120 d后, 温度逐渐回升, 根内二龄幼虫数量逐渐增加, 幼虫数量的第二次高峰出现在小麦出苗后150 d左右, 但入侵幼虫数量明显少于第一次。此后根内幼虫陆续发育为白雌虫和孢囊, 白雌虫数量高峰出现在小麦出苗后180 d后。H.filipjevi三龄、四龄幼虫及白雌虫出现的时间均比H.avenae的早一周。 相似文献
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北京地区小麦禾谷孢囊线虫病发生动态调查 总被引:3,自引:0,他引:3
小麦禾谷孢囊线虫病是小麦生产上的重要病害.2010-2011年对北京地区小麦禾谷孢囊线虫的发生规律进行了定期定点调查.结果表明,禾谷孢囊线虫在北京地区全年只发生1代,夏季滞育,卵孵化高峰为4月初;2龄幼虫侵染高峰为4月上旬,3龄幼虫发育高峰为4月下旬至5月初,4龄幼虫发育高峰为5月上旬,白雌虫发育高峰为5月下旬至6月上旬,10月份播种后部分2龄幼虫就可以发生侵染并且冬前发育至3龄幼虫.本研究结果可为北京地区禾谷孢囊线虫的防治提供理论依据. 相似文献
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华中地区小麦禾谷孢囊线虫分布特点 总被引:4,自引:0,他引:4
在湖北省28县(市)河南省密县,湖南省临湘县和华容县调查小麦禾谷孢囊线虫(CCN)的分布特点,结果表明;河南省6个乡镇35份样本中均值CCN孢囊,湖北省多数标本中发现CCN,在鄂中及偏东的平原地区,土壤肥活,绝对最低温度达到-10℃以下的地方,CCN分析频率和居群密度较大,同一地区同一类别土壤,CCN多分布于5~30cm土层中。 相似文献
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旱稻孢囊线虫(Heterodera elachista)孵化特性研究 总被引:5,自引:0,他引:5
为了解旱稻孢囊线虫的孵化特性,从水稻根系及根系附近土壤分离孢囊,在室内离体条件下研究不同温度及水稻根系分泌物、土壤浸液、水稻根汁等因子对2龄幼虫孵化的影响,并观察不同温度下2龄幼虫的存活能力.结果表明:旱稻孢囊线虫孵化的适宜温度范围为28~32℃,且在该温度范围初孵2龄幼虫的存活率高、存活时间相对较长,35℃下孵化率及初孵2龄幼虫的存活率、存活时间均明显下降,40℃下无线虫孵化,20℃下孢囊线虫孵化率仅为0.9%,4℃下可延长2龄幼虫的存活时间.水稻分泌物、水稻土壤浸液和水稻20倍根汁对旱稻孢囊线虫孵化具有刺激作用,5倍根汁和4 mmol/L氯化锌溶液对线虫的孵化有抑制作用.上述结果可为制定旱稻孢囊线虫防治措施提供依据. 相似文献
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山东泰安地区小麦禾谷孢囊线虫幼虫孵化特性初步研究 总被引:1,自引:0,他引:1
为大量获得研究所需的小麦禾谷孢囊线虫2龄幼虫,在室内离体条件下研究了预处理条件、孵化温度、低温预处理时间以及田间采样时期对山东泰安地区小麦禾谷孢囊线虫幼虫孵出量的影响.结果表明:5℃低温预处理条件下,孢囊浸水处理有利于幼虫孵出;低温预处理后,孵化温度为15℃处理的2龄幼虫孵出率高于20℃处理的孵出率;低温预处理时间为8周的2龄幼虫孵出率最高;6月和8月田间采集的孢囊幼虫孵出率显著高于7月和9月,其中8月采集的孢囊幼虫孵出率最高,为最佳采集时间. 相似文献
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为明确燕麦孢囊线虫在田间的水平和垂直分布,分别在小麦收获后玉米播种前和小麦播种前土壤翻耕后进行水平和垂直取样调查。调查结果表明,燕麦孢囊线虫在田间水平分布主要为聚集分布,翻耕对其水平分布影响不大; 小麦收获后翻耕前燕麦孢囊线虫在田间垂直分布主要分布于5~10cm处,占取样深度土层孢囊总数量的35.8%,翻耕后燕麦孢囊线虫的垂直分布主要在0~15cm的土层发生变化,0~10cm的孢囊数量下降而10~15cm的孢囊数量增加。在0~20cm土壤中,翻耕前与翻耕后孢囊数量分别占孢囊总数量的89.4%和88.6%。 相似文献
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河北省禾谷孢囊线虫种群密度和冬小麦产量损失的关系 总被引:3,自引:2,他引:1
为明确禾谷孢囊线虫Heterodera avenae对小麦的危害,于2011年10月—2012年6月在自然环境条件下采用定量接种方法测定了其在不同接种密度下对冬小麦产量和线虫繁殖的影响。结果表明,随着禾谷孢囊线虫接种密度的增加,小麦的株高、穗长、小穗数、分蘖数和籽粒重均呈下降趋势。小麦产量随着接种密度的增加损失率增加,在接种密度大于29个卵和2龄幼虫/g土时,小麦产量损失率均达50%以上,接种密度为465个卵和2龄幼虫/g土时损失率最大,达到77.7%;当接种密度小于116个卵和2龄幼虫/g土时,禾谷孢囊线虫的最终密度随着接种密度的增加而增加,但接种密度大于该值时,最终线虫密度则随着接种密度的增加而减少;且其繁殖系数随着接种密度的增加而降低。以小麦单株籽粒重为参数,利用Seinhorst模型拟合孢囊线虫密度与产量的关系,可知小麦对禾谷孢囊线虫的最低忍耐值为5个卵和2龄幼虫/g土,相对最低产量为0.23。 相似文献
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为探讨甘肃陇东地区大豆孢囊线虫田间侵染动态,于2017年-2019年对大豆根系和根际土壤定期定点取样,采用漂浮法、贝曼漏斗法及酸性品红染色法对土样中和根组织内线虫进行分离计数,研究其繁殖数量与气温、降雨量的关系。结果表明,2017年土壤中2龄幼虫和新鲜孢囊的数量有3个明显高峰,大豆根组织内2~4龄幼虫均出现3个明显高峰,即发生3代,平均世代历期35 d。2018年-2019年土壤中2龄幼虫和新鲜孢囊均有4个明显高峰,大豆根组织内2~4龄幼虫亦出现4个明显高峰,即发生4代。第1代侵染数量最多,是主要危害世代。最后1代侵染数量极少且发育缓慢。在2017年-2019年生长季中,线虫繁殖数量与生长季平均温度具有相关性,与累积降雨量无相关性。 相似文献
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淡紫拟青霉防治小麦禾谷孢囊线虫病研究 总被引:2,自引:0,他引:2
淡紫拟青霉作为重要的植物病原线虫生防真菌在大豆孢囊线虫和蔬菜根结线虫病害防治上开始推广应用,本研究测定了该菌抑制小麦孢囊线虫病的效果,通过设置25、50、75、100kg/hm24种不同颗粒菌剂用量及5%涕灭威颗粒剂10kg//hm2计5个处理,以不施药作为空白对照。结果表明:在小麦苗期,4种不同颗粒菌剂用量和涕灭威处理后,小麦根内孢囊线虫幼虫数量和病情指数显著低于对照; 在小麦生长后期(抽穗至扬花期),所有处理与空白对照均存在显著性差异,以100kg//hm2的防效最好,达到40.22%,这一剂量导致收获期土壤中的孢囊数量较对照减少59.82%,可见淡紫拟青霉在小麦孢囊线虫病防治上具有应用潜力。 相似文献
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燕麦孢囊线虫在河北冬麦区的种群动态 总被引:2,自引:2,他引:0
为明确河北省燕麦孢囊线虫Heterodera avenae在自然环境下的侵染与发育特点,于2009-2012年分别采用漂浮法、浅盘法和酸性品红染色法在3个不同区域对土壤中孢囊和2龄幼虫(J2)以及根系内线虫进行了系统调查,并对孢囊内卵的发育动态进行检测.在土壤中除6月上中旬未检测到J2外,周年均分离到J2.冬前J2出现小高峰,种群密度为12.3 ~18.6条/100mL土样;在4月上中旬J2大量发生,种群密度为52 ~ 65条/100 mL土样.冬前J2侵入小麦后能够发育至3龄幼虫,3龄幼虫发生高峰在4月下旬至5月上旬,4龄幼虫的发生高峰在5月中下旬,白雌虫形成高峰期在5月下旬,且1年后孢囊内卵孵化率达到86.5%.研究表明,燕麦孢囊线虫在河北省小麦上1年发生1代,关键侵染期在3月下旬至4月中旬. 相似文献
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甜菜孢囊线虫Heterodera schachtii是严重危害甜菜生产的主要病原物,每年造成严重的经济损失,该线虫是我国对外重要的检疫性有害生物。本研究通过对十字花科、茄科、葫芦科、锦葵科、豆科、苋科和禾本科等16种作物29个品种进行人工接种,对其主要的寄主范围和生活史进行了测定。结果表明,甜菜孢囊线虫2龄幼虫能够侵染除小麦和玉米以外的其他14种作物25个品种,在苋科的甜菜和菠菜、茄科的番茄及十字花科等16个品种的根系能够完成生活史,形成白雌虫和孢囊。生活史调查发现,甜菜孢囊线虫接种到甜菜和油菜15 d和12 d后即可发育形成白雌虫,30 d后形成孢囊;而接种到西瓜根系后,不能正常发育,一直保持2龄幼虫虫态,无法完成生活史。上述结果表明甜菜孢囊线虫能够在甜菜、菠菜、番茄和十字花科作物上寄生,但是在不同寄主上的生活史存在一定的差异,其结果将为非寄主轮作防控甜菜孢囊线虫提供理论基础。 相似文献
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Abstract The cereal cyst nematode, Heterodera avenae Wollenweber, 1924, occurs worldwide including India where it causes ‘molya’ disease of wheat and barley. Wheat yield losses due to the nematode were estimated during 1974-76 at a few villages in Mohindergarh district, Haryana, India, by applying dichloropropane-dichloropropene mixture and dibromochloropropane singly or in combination as soil f umigants. In light soil the cereal cyst nematode infestation at 4/5 eggs and larvae/g soil approximated the economic threshold level. However, depending on the initial population density of H. avenae and other field conditions, such as soil type, moisture, soil condition, chemical application method, chemical application time etc., the increase in yield of wheat cv. Kalyan Sona ranged from 8 to 49% at nematode infestation levels of about 6 to 13 eggs and larvae/g soil when treated with these nematicides. 相似文献
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Glasshouse and field trials were conducted to determine the effects of the cyst nematode, Heterodera cajani on biomass and grain yield of pigeon pea, Cajanus cajan. Shoot length, fresh and dry shoot masses, leaf area and pod yields of pigeon pea were significantly reduced by H. cajani. In glasshouse pot experiments, an initial density of 1.0 juveniles per cm3 soil caused 14 to 24% reduction in plant height, root and shoot mass and leaf area. Application of carbofuran 3G (1·5, 3·0 and 6·0 kg a.i./ha) in H. autoclaved soil in pots did not improve growth of pigeon pea; however, its application (6 kg a.i./ha) in H. cajani -infested fields reduced the nematode density ( P < 0·05) and improved plant growth and yield. The densities of eggs and juveniles of H. cajani were 72 and 48% lower in the carbofuran-treated plots than in the control plots 35 and 52 days, respectively, after sowing. No such differences were observed at 70 days after sowing. The tolerance limit for pod yield in field experiments was 2·6 eggs and juveniles of H. cajani per cm3 soil at sowing time. Grain yield was 20 to 25% higher in the carbofuran-treated plots than in the control plots. Application of carbofuran protected the roots from nematode damage during the early stages of plant growth and resulted in good plant growth and yield. 相似文献
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Juliet E. Carroll Gary C. Bergstrom Stewart M. Gray 《European journal of plant pathology / European Foundation for Plant Pathology》1997,103(4):313-321
The dynamics of wheat spindle streak mosaic bymovirus in winter wheat were studied during two crop cycles in a field site with a history of high virus incidence. Individual plants of two susceptible cultivars were sampled from autumn to spring and the presence of virus antigen in roots and leaves was determined by ELISA. Virus incidence was higher in cv. Frankenmuth than in cv. Augusta. During year one, incidence of viral antigen in roots remained very low for four months after sowing, and did not reach maximum levels until the following spring. During year two, incidence of viral antigen in roots rose to maximum levels in autumn, only three months after sowing. These results strongly suggested that root infection occurred in spring as well as in autumn. In both cultivars and in both years, we detected the virus in roots one month prior to its detection in leaves, suggesting that virus moves slowly from roots into leaves. Maximum incidence of virus in leaves occurred in spring of both years, coinciding with the period of symptom development. Typical symptoms (yellow streaks, spindles, and mosaic) were observed in year two, whereas only mild mosaic was observed in year one. Virus antigen was detected in nonsymptomatic leaves from two months after sowing through crop senescence. Because antigen could be detected in roots throughout the crop cycle, and zoosporangia and cystosori of the fungal vector could be detected one and two months, respectively, after sowing, it is possible that wheat spindle streak mosaic bymovirus is acquired and/or spread by the vector during the majority of the crop cycle. 相似文献
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山东省烟草孢囊线虫的群体动态和世代发生特点 总被引:1,自引:1,他引:1
为探究烟草孢囊线虫Heterodera glycines的田间侵染循环特点,2012年从山东省诸城市某烟田定点定期取样,对土壤和根组织中的线虫进行分离和染色后镜检并计数。结果显示,4月29日至9月9日在土壤中均检出烟草孢囊线虫2龄幼虫(J2),有4个发生高峰,最大密度在7月9日,为7.3条/100 g土壤。5月13日至8月13日在根组织中出现J2,有3个明显高峰,最大密度在7月15日,为30条/10 g根;年轻雌虫在5月21日至8月30日形成,有3个明显高峰,最大密度在7月2日,为54条/10 g根。研究表明,烟草孢囊线虫 1年发生4代,平均世代历期27 d;后两代存在明显世代重叠现象;第4代线虫侵染量很少,且根内线虫发育不良。 相似文献
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Testing and modelling the potential of three diploid plants in Poaceae as a new pathosystem to investigate the interactions between cereal hosts and cereal cyst nematode (Heterodera avenae) 
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下载免费PDF全文 Cereal cyst nematode (CCN), Heterodera avenae, is one of the most important pathogens of wheat worldwide, and causes significant yield losses. Research on CCN–wheat interactions is hampered by the lack of an effective model pathosystem. This study investigated the potential of the model cereal Brachypodium distachyon (Bd21‐3) and diploid wheat 2A (G1812) and 2D (AL8/78) as model hosts for CCN. Nematode infection analysis showed that although some CCN penetrated Bd21‐3 roots, these nematodes failed to develop to the later developmental stages or form cysts, indicating B. distachyon is not a host for CCN. A strong burst of reactive oxygen species (ROS) within Bd21‐3 roots infected with CCN was induced 3 days after infection and the expression of seven ROS‐producing genes was significantly increased. In contrast, CCN completed its life cycle in both diploid wheat 2A and 2D, and formed normal syncytia in these hosts. Although CCN developmental processes within both diploid wheat 2A and 2D were very similar to those in the susceptible control, the number of cysts formed on diploid wheat 2D was less than those formed on diploid wheat 2A and the susceptible control, indicating that diploid wheat 2A was a more suitable host for CCN than 2D. This is the first report of a potential new pathosystem for CCN–host interactions using diploid wheat. 相似文献
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为害地黄的大豆孢囊线虫的初步研究 总被引:2,自引:1,他引:1
为害栽培地黄(Rehmannia glutinosa Llbosch.,f.hueichingensis Hsiao)的孢囊线虫,经形态和生物学特性的观察,以及在地黄与大豆间的交互接种试验,鉴定为大豆孢囊线虫(Heterodera glyines Ichinohe,1952)。本文报道了该线虫的主要形态、生物学特性及防治方法。该线虫在北京此区地黄上一年发生5-6代,平均土温24.5℃时完成一代约须27天;20.2℃时约须35天。干燥使孢囊中的卵和幼虫的生命力急剧下降。地黄根浸出液对幼虫孵化没有明显的刺激作用。轮作与抗病品种是防治该线虫的主要措施;D-D混剂处理土壤及热水处理繁殖材料也是有效的防治方法。该线虫除为害地黄外,尚可侵染高黄芩、黄花毛蕊花、比利牛斯金鱼草、小叶野决明和歪头菜等药用植物。 相似文献