Biological control of cucumber powdery mildew by Tilletiopsis minor

Samenvatting Onder optimale omstandigheden konT. minor de ontwikkeling van komkommermeeldauw (Sphaerotheca fuliginea) tegengaan.Spuiten met 2×10⁷ sporen ml^–17 dagen na inoculatie met komkommermeeldauw gaf een reductie van meeldauwontwikkeling van ongeveer 90%. Wanneer een tweede bespuiting met dezelfde concentratie sporen 3 dagen na de eerste werd toegepast bleven de planten vrij van meeldauw tot ze werden opgeruimd 3 weken later.Bij een R.L. lager dan 70% en een temperatuur boven 30 °C had geen van de behandelingen succes. T. minor bleek ongevoelig voor dimethirimol (Milcurb) bij een concentratie van 125 g ml^–1, terwijl er gemakkelijk een mutant kon worden verkregen, die resistent was tegen 100 g fenarimol ml^–1, bij gelijk blijvende groeikracht en pathogeniteit ten opzichte van komkommermeeldauw, waardoorT. minor ingepast kan worden in een schema voor geïntegreerde bestrijding.     

防治西葫芦和黄瓜白粉病的生物制剂的筛选

瓜类白粉病是蔬菜上的重要病害之一,为加大对该病害的生物防治力度,本研究采用课题组研发的1×109cfu/g玫瑰黄链霉菌水剂和10亿芽胞/g枯草芽胞杆菌悬浮剂以及市场上常用的枯草芽胞杆菌、哈茨木霉菌、寡雄腐霉、武夷菌素、多抗霉素等多种生物制剂进行田间药效试验,比较几种生物制剂的防治效果。结果表明,供试生物制剂对西葫芦白粉病的防效为57.65%~84.98%,其中3%多抗霉素水剂600倍液的防效最好,为84.98%,且具有明显的促生长作用,增产率达12.65%。其次为1 000亿芽胞/g枯草芽胞杆菌可湿性粉剂(武汉天惠)400倍液、2%武夷菌素水剂600倍液和3×108 cfu/g哈茨木霉菌可湿性粉剂300倍液,可作为西葫芦白粉病防治的选用药剂。1×109 cfu/g玫瑰黄链霉菌水剂对西葫芦和黄瓜白粉病均具有较好的防效,分别为78.68%和73.59%,具有开发和应用的市场价值。     

Biological control of cucumber powdery mildew with Tilletiopsis minor under greenhouse conditions

In growth cabinet and greenhouse experiments the efficacy ofTilletiopsis minor in controlling cucumber powdery mildew decreased as humidity was lowered. This effect could be counteracted by formulation of the mycoparasite with lipophilic substances, like Hora Oleo 11E and lipids from milk. These formulations, without the mycoparasite, were also found to be deleterious to powdery mildew development. In the long run, however, formulations withT. minor gave better biological control of cucumber powdery mildew than formulations alone.     

四氟醚唑对黄瓜的安全性及其对黄瓜白粉病的防治效果

为明确四氟醚唑对黄瓜植株的安全性,采用浸种及茎叶喷雾处理的方法测定其对不同生长时期黄瓜植株的影响,采用子叶保湿培养法测定白粉病菌对其敏感性,并在田间进行防治白粉病的药效试验,综合评价了四氟醚唑对黄瓜白粉病的效果。浸种处理后,黄瓜子叶上白粉病发病率明显降低,对黄瓜株高和根长的抑制率、茎周增长率及叶绿素含量增加率与己唑醇相比均较低;发芽期及幼苗期的黄瓜植株使用四氟醚唑处理,新生节间均出现轻微的抑制伸长现象;4％四氟醚唑水乳剂对黄瓜白粉病菌的EC50为0．8146mg／L,敏感毒力高于50％醚菌酯水分散粒剂;田间间隔期10天喷雾,在末次药后7天对黄瓜白粉病的防治效果为76．02％～85．77％,与5％己唑醇水乳剂防效相当,明显高于50％醚菌酯水分散粒剂的防效。表明四氟醚唑对黄瓜生长安全且用药间隔期长,是防治白粉病的高效轮换药剂。     

电解水对黄瓜生长、果实品质及黄瓜霜霉病和白粉病防效的影响

为明确KCl及NaCl电解水对黄瓜生长、果实品质及病害防效的影响,以3种电解水定期喷施大棚黄瓜,测定黄瓜生长指标及果实外观与营养品质,并测定其对黄瓜白粉病和霜霉病的防效。结果表明,除KCl微酸性电解水组的黄瓜叶面积显著高于农药组外,喷施电解水对黄瓜植株生长的影响均不显著;喷施KCl电解水可提高果实横径和果形指数,显著降低果实弓形高度,与自来水和农药对照组相比果实维生素C含量分别显著提高9.3%和37.6%,单果质量均提高11.0%,但总产量增加不明显;喷施NaCl电解水可显著增加果实糖酸比。NaCl和KCl电解水对黄瓜白粉病防效分别为72.2%和69.0%,与农药组防效相当;KCl微酸性电解水组防效稍低,为61.1%。NaCl和KCl电解水及KCl微酸性电解水对黄瓜霜霉病防效较差,分别为30.5%、26.4%和9.4%,显著低于农药组。研究表明,与NaCl电解水相比,喷施KCl电解水不但可替代农药防治黄瓜白粉病,还可显著提高黄瓜果实品质。     

Comparison of three biological control agents against cucumber powdery mildew (Sphaerotheca fuliginea) in semi-commercial-scale glasshouse trials

The effect of three reported biological control agents, Ampelomyces quisqualis, Verticillium lecanii and Sporothrix flocculosa, was tested against cucumber powdery mildew (Sphaerotheca fuliginea). Two glasshouse experiments, one in the summer and one in winter/spring were conducted on a semi-commercial scale. In both experiments, a susceptible and a partially resistant cultivar were used. In the second experiment, the additional effect of integration of biological control and silicon amendments to the nutrient solution was also assessed. In both experiments, A. quisqualis did not control the disease. V. lecanii had a small effect on powdery mildew in the first experiment but not in the second. S. flocculosa gave the best control of powdery mildew in both experiments. In the first experiment, weekly application of S. flocculosa reduced disease in the partially resistant cultivar to the same level as a treatment in which the fungicides bupirimate and imazalil were each applied once. Addition of silicon in the nutrient solution in a concentration of 0.75 mM reduced disease by 10–16%, averaged over all treatments. There was no interaction between silicon and the biocontrol agents. Yield was recorded in the second experiment and was significantly increased by the fungicide treatment compared to the control in the partially resistant cultivar. Yield in the treatment with S. flocculosa was not significantly different from the fungicide treatment in this cultivar. Silicon had no effect on yield in either cultivar.     

0.25%帕克素水剂防治黄瓜白粉病的研究

通过盆栽和小区药效试验,明确了生物杀菌剂0.25％帕克素水剂对黄瓜白粉病的防治效果。盆栽试验显示,0.25％帕克素水剂对黄瓜白粉病防效明显,其稀释20-80倍液的防效均在50％以上。帕克素毒力回归方程:y=3.48+1.83 x;小区试验表明,0.25％帕克素水剂稀释40倍液,药后7 d对黄瓜白粉病防治效果达98.30％。     

唑胺菌酯对黄瓜白粉病的作用方式及其内吸传导性

唑胺菌酯(开发代号SYP-4155),是沈阳化工研究院创制的新型甲氧基丙烯酸酯类杀菌剂,该药剂杀菌谱广、安全系数高、内吸性强,对多种病害兼具保护和治疗活性,是我国"十一五"农药创制的主要候选品种之一.黄瓜白粉病是由黄瓜白粉病菌Sphaerotheca fuliginea引起的一种潜育期短、流行性强、严重危害黄瓜的病害[1].作者在明确唑胺菌酯对黄瓜白粉病良好防治效果的基础上[2],进一步研究了其对黄瓜白粉病菌的作用方式及其在黄瓜组织中的内吸传导性.     

一体化智能孢子捕捉系统在黄瓜霜霉病和黄瓜白粉病预测上的应用

为探索国内研制的新型一体化智能孢子捕捉系统在黄瓜霜霉病和黄瓜白粉病预测预报上的应用,在田间自然发病情况下,通过对捕捉孢子的形态进行识别,优化一体化智能孢子捕捉系统主要工作参数如有/无空气切割头、空气采集口高度和空气采集时间;通过病害及孢子的动态监测分析大棚黄瓜霜霉病和黄瓜白粉病病情指数与孢子捕捉量的关系。结果表明,当不加装空气切割头、空气采集口高度为70 cm、孢子捕捉时间在10:00—10:30时段有利于孢子的捕捉。黄瓜霜霉病和黄瓜白粉病病情指数与连续7 d孢子捕捉总量具有强正相关性。连续多日监测到黄瓜霜霉病菌孢子囊且数量快速增加是黄瓜霜霉病发生或快速上升的一个预测指标。黄瓜白粉病发病之前没有监测到黄瓜白粉病菌分生孢子,且在病害盛发期分生孢子捕捉量仍较少。研究表明,一体化智能孢子捕捉系统适用于黄瓜霜霉病的预测,但在黄瓜白粉病的预测上尚存在一定问题。     

电生功能水防治黄瓜白粉病试验初报

对发生黄瓜白粉病的植株喷洒无毒无污染电生功能水 ,每 7天 2次 ,可有效控制病害发生 ,防治效果达70%以上 ,其中酸性水处理和先喷酸性水后喷碱性水处理组防效分别为 73.1%和 75.5%。     

白粉寄生孢寄生黄瓜白粉菌的特性研究

采用白粉寄生孢（Ampelomyces quisqualis Ces.AQ）接种离体条件下赛璐酚上黄瓜白粉菌［Sphaerotheca fuliginea (Schlecht)Poll.］和活体条件下黄瓜白粉菌后,通过棉兰染色和显微观察分析,初步明确了白粉寄生孢的侵染寄生过程。白粉寄生孢分生孢子产生芽管可入侵黄瓜白粉菌的分生孢子、菌丝、分生孢子梗;有时黄瓜白粉菌串生的分生孢子、分生孢子梗可被2~3条白粉寄生孢的菌丝寄生,随着寄生过程的进一步发展,黄瓜白粉菌的分生孢子梗基部膨大成无色的椭圆形或球形,其上逐渐产生由黄色至褐色的白粉寄生孢的分生孢子器,器内含有大量的分生孢子。     

Occurrence and molecular characterization of strobilurin resistance in cucumber powdery mildew and downy mildew

ABSTRACT Between 1998 and 1999, control failure of powdery mildew (Podosphaera fusca) and downy mildew (Pseudoperonospora cubensis) by the strobilurin fungicides azoxystrobin and kresoxim-methyl was observed in cucumber-growing areas of Japan. Results from inoculation tests carried out on intact cucumber plants and leaf disks clearly showed the distribution of pathogen isolates highly resistant to azoxystrobin and kresoximmethyl. Fragments of the fungicide-targeted mitochondrial cytochrome b gene were polymerase chain reaction amplified from total pathogen DNA and their sequences analyzed to elucidate the molecular mechanism of resistance. A single point mutation (GGT to GCT) in the cytochrome b gene, resulting in substitution of glycine by alanine at position 143, was found in resistant isolates of downy mildew. This substitution in cytochrome b seemed to result in high resistance to strobilurins in this pathogen. The same mutation was found in some but not all resistant isolates of powdery mildew. This study suggests that a mutation at position 143 in the target-encoding gene, resulting in an amino acid substitution, was probably a major cause of the rapid development of high strobilurin resistance in these two pathogens.     

多功能生物制剂对黄瓜白粉病的防治效应

通过盆栽和田间药效试验,研究了多功能生物制剂多霸2对黄瓜白粉病的防治效应。盆栽试验结果表明,先施用多霸2的100、200倍液后接种病原菌,可显著提高黄瓜的抗病能力,降低发病率,防效达到72.0%和69.2%,差异极显著(P<0.01);先接种后喷药多霸2的100、200倍液,在一定程度上能抑制病原菌的扩展,也具有防治作用,相对防效达到26.5%和23.1%,差异显著(P<0.05)。田间调查表明,在黄瓜苗期开始施用或未发病前施用多功能制剂,能有效预防白粉病的发生,具有很好的防治效应。多霸2的100、200倍液对黄瓜白粉病的防效与清水对照和常用药剂粉锈宁相比,差异都达到显著或极显著水平。其中,多霸2的100倍液使用效果最好,优于200倍液。     

Decreased sensitivity to pyrazophos of cucumber and gherkin powdery mildew

In some cucumber and gherkin greenhouses in the Netherlands, where Curamil (a.i. pyrazophos) had been used for control of powdery mildew, unsatisfactory disease control was obtained in recent years. Laboratory tests revealed a decreased sensitivity of the pathogen to the fungicide. The fitness and the competitive ability of pyrazophos resistant strains in absence of the fungicide appeared to be somewhat lower than that of the normal, sensitive strains. The implications with respect to disease control in practice are discussed.Samenvatting In enkele kassen, waar Curamil (a.i. pyrazofos) in 1977 aangewend werd ter bestrijding van meeldauw op komkommers en augurken, werd onvoldoende effekt met dit middel tegen deze ziekte verkregen. Toetsing in het laboratorium bracht een verminderde gevoeligheid van het pathogeen voor het fungicide aan het licht (Tabel 1). Bij afwezigheid van pyrazofos bleek het competitief vermogen (Tabel 2) en de vitaliteit (Tabel 3) van de pyrazofos resistente isolaten wat lager te zijn dan die van het normale, gevoelige pathogeen. De betekenis hiervan met betrekking tot de ziektebestrijding wordt besproken.     

A pattern in the appearance of cucumber powdery mildew in Dutch glasshouses

An inquiry was held in 1982, 1983 and 1984 to collect information on the survival and dispersal of cucumber powdery mildew. Growers who planted a crop in December, January or February were asked when they observed mildew for the first time in their crop. A gradual increase in the number of infected crops was observed from planting until May. The earliest observations of infected crops were immediately after planting. The weeks of the first observation of mildew, the disease-free periods and the apparent rates of increase of infected crops are presented for various districts. In the districts with the highest crop density (Pijnacker), mildew was generally observed early in the growing season, while the apparent rate of increase of infected crops was higher than in other districts. In the district with the lowest crop density (Northern Netherlands), mildew was observed late in the growing season and the apparent rate of increase of infected crops was low. Possible means of survival and dispersal of inoculum are discussed. It is suggested that overwintering of inoculum is possible because cucumber plants are grown all year round. Dispersal of cucumber powdery mildew is suggested to take place by transportation of infected planting stock, visitors and wind.     

Effect of seventeen fungicolous fungi on sporulation of cucumber powdery mildew

Nineteen isolates of 17 different fungal species thriving upon other fungi were tested for their ability to control sporulation of cucumber powdery mildew,Sphaerotheca fuliginea. More than half of the fungi reduced the number of healthy conidiophores to less than 10%.Tilletiopsis albescens was superior toAmpelomyces quisqualis. Three species, viz.A. quisqualis, Aphanocladium album andT. albescens, were selected for further greenhouse experiments.Samenvatting Negentien isolaten behorend tot 17 verschillende schimmelsoorten werden getoetst op hun bruikbaarheid voor de biologische bestrijding van komkommermeeldauw aan de hand van effecten op sporulatie. Meer dan de helft van de getoetete isolaten reduceerde het aantal gezonde conidioforen tot minder dan 10%. De werking vanTilletiopsis albescens was enigszins beter dan die van de meestal gebruikte hyperparasietAmpelomyces quisqualis. Van de getoetste schimmels werden er drie, n.l.A. quisqualis, Aphanocladium album enT. albescens, geselecteerd voor kasproeven.     

枯草芽胞杆菌微粉剂的研制及其对黄瓜白粉病的防治效果

 以枯草芽胞杆菌母药为研究对象,通过对载体、分散剂、表面活性剂、保护剂的筛选,确定了枯草芽胞杆菌微粉剂的最佳配方。其配方为:枯草芽胞杆菌母药50%、载体白炭黑20%、分散剂萘磺酸钠盐甲醛缩合物(NNO)2%、表面活性剂烷基萘磺酸盐(EFW)3%、保护剂羧甲基纤维素(CMC)1.5%、载体硅藻土补足至100%。测定结果表明:枯草芽胞杆菌微粉剂含菌量为2.11×10¹⁰ CFU·g^-1,分散指数89.56,浮游指数87.57,坡度角74°,pH 6.1,杂菌率2.1%,含水率0.67%,粒径8.15 μm,热贮分解率为4.67%,产品各项指标均达到标准。盆栽条件下,枯草芽胞杆菌微粉剂用量1 000 g·(hm²)^-1时喷粉对黄瓜白粉病的保护效果优于治疗效果,防效分别为89.08%和84.95%;田间试验,枯草芽胞杆菌微粉剂在用量为1 000 g·(hm²)^-1时喷粉对黄瓜白粉病的保护效果为80.66%。     

枯草芽胞杆菌微粉剂的研制及其对黄瓜白粉病的防治效果

 以枯草芽胞杆菌母药为研究对象,通过对载体、分散剂、表面活性剂、保护剂的筛选,确定了枯草芽胞杆菌微粉剂的最佳配方。其配方为:枯草芽胞杆菌母药50%、载体白炭黑20%、分散剂萘磺酸钠盐甲醛缩合物(NNO)2%、表面活性剂烷基萘磺酸盐(EFW)3%、保护剂羧甲基纤维素(CMC)1.5%、载体硅藻土补足至100%。测定结果表明:枯草芽胞杆菌微粉剂含菌量为2.11×10¹⁰ CFU·g^-1,分散指数89.56,浮游指数87.57,坡度角74°,pH 6.1,杂菌率2.1%,含水率0.67%,粒径8.15 μm,热贮分解率为4.67%,产品各项指标均达到标准。盆栽条件下,枯草芽胞杆菌微粉剂用量1 000 g·(hm²)^-1时喷粉对黄瓜白粉病的保护效果优于治疗效果,防效分别为89.08%和84.95%;田间试验,枯草芽胞杆菌微粉剂在用量为1 000 g·(hm²)^-1时喷粉对黄瓜白粉病的保护效果为80.66%。