Effect of inoculum type and timing of application of Coniothyrium minitans on Sclerotinia sclerotiorum: influence on apothecial production

The effects of different inocula of the mycoparasite Coniothyrium minitans on carpogenic germination of sclerotia of Sclerotinia sclerotiorum at different times of year were assessed. A series of three glasshouse box bioassays was used to compare the effect of five spore-suspension inocula of C. minitans , including three different isolates (Conio, IVT1 and Contans), with a standard maizemeal–perlite inoculum. Apothecial production, as well as viability and C. minitans infection of S. sclerotiorum sclerotia buried in treated soil, were assessed. Maizemeal–perlite inoculum at 10⁷ CFU per cm³ soil reduced sclerotial germination and apothecial production in all three box bioassays, decreasing sclerotial recovery and viability in the second bioassay and increasing C. minitans infection of sclerotia in the first bioassay. Spore-suspension inocula applied at a lower concentration (10⁴ CFU per cm³ soil) were inconsistent in their effects on sclerotial germination in the three box bioassays. Temperature was an important factor influencing apothecial production. Sclerotial germination was delayed or inhibited when bioassays were made in the summer. High temperatures also inhibited infection of sclerotia by C. minitans . Coniothyrium minitans survived these high temperatures, however, and infected the sclerotia once the temperature decreased to a lower level. Inoculum level of C. minitans was an important factor in reducing apothecial production by sclerotia. The effects of temperature on both carpogenic germination of sclerotia and parasitism of sclerotia by C. minitans are discussed.     

油菜菌核病菌对多菌灵和乙霉威的抗药性机理

生物测定结果表明,油菜菌核病菌田间菌株对多菌灵(MBC)敏感性表型呈多样性,即存在MBCS、MBCLRLR、MBCHRHR和MBCVHR表型.而对乙霉威(DIE)则只检测到DIES和DIEHR表型.MBCS、MBCLR和MBCHR菌株中除JD2-3菌株为DIES外,其余菌株均为DIEHR,MBCVHR菌株对DIE表现为DIES.MBC和DIE之间存在典型的负相关交互抗性.序列分析结果表明,表型为MBCVHRDIES菌株的β-微管蛋白基因,第198位氨基酸由Glu(GAG)突变为Ala(GCG);表型为MBCHRDIEHR菌株的β-微管蛋白基因的突变位点在第200位,由Phe(TTC)突变为Tyr(TAC);而表型为MBCSDIES和MBCLRDIEHR的菌株在所扩增的β-微管蛋白基因片段中未发生突变.初步表明,β-微管蛋白基因198和200位氨基酸的突变是引起油菜菌核病菌对多菌灵抗药性呈多样性的分子机理.     

草酸对重寄生真菌盾壳霉分生孢子萌发和菌丝生长的影响

 本文研究了草酸对核盘菌的重寄生真菌盾壳霉(Coniothyrium minitans)分生孢子萌发和菌丝生长的影响。结果表明:草酸对盾壳霉分生孢子萌发没有明显促进作用,在酸碱性非缓冲基质(水琼脂)和酸碱性缓冲基质中,抑制盾壳霉分生孢子萌发的最低浓度分别为150和700μg/mL。在马铃薯葡萄糖琼脂培养基中,当草酸浓度为100~2000μg/mL时,盾壳霉菌丝能够生长,且浓度为300~500μg/mL的草酸对盾壳霉的菌丝生长具有明显的促进作用。在以草酸为唯一碳源的合成培养基中,在酸碱性非缓冲的条件下,当草酸浓度为100~2000μg/mL时,盾壳霉菌丝能够生长,且草酸浓度为500μg/mL时对盾壳霉菌丝生长具有促进作用,而当草酸浓度为2500μg/mL时,盾壳霉菌丝则停止生长。在酸碱性缓冲的合成基质中,草酸浓度为100~4000μg/mL时,盾壳霉菌丝能够生长,且草酸浓度为1500~2500μg/mL时对盾壳霉菌丝生长具有促进作用。在含草酸钙的混浊培养基(以草酸为唯一碳源)上,盾壳霉菌落区域形成了透明圈。上述结果说明盾壳霉能忍耐一定浓度的草酸而进行分生孢子萌发及菌丝生长,且这种真菌可能对草酸分子具有分解作用。     

粉红粘帚霉67-1菌株寄生核盘菌研究

 用诱捕法从海南乐东县菜园土壤中获得一株对核盘菌菌核具有强寄生能力的粉红粘帚霉(Gliocladium roseum)菌株67-1,寄生频率为100%。该菌的PDA平板回接核盘菌菌核,一周后寄生率可达100%。对峙培养发现其对核盘菌有明显的抑菌带。保湿条件下,该菌孢子在24h内成功侵入核盘菌菌核。切片显微观察证明该菌能高效侵染菌核,造成组织溃解。寄生过程中菌核内蛋白组成发生明显变化。这一菌株在22~35℃均能很好生长,菌丝及产孢最适温度为24℃,产孢量大。认为这一菌株具有良好的菌核病生防应用潜力。     

盾壳霉控制油菜菌核病菌再侵染及其叶面存活动态的研究

 本文评估了施于油菜(Brassica napus)叶片上的盾壳霉(Coniothyrium minitans)控制油菜菌核病菌再侵染能力,探讨了其作用机理,并测定了盾壳霉分生孢子在油菜叶面上的存活动态。结果如下:叶面上的盾壳霉对油菜菌核病菌的初侵染影响较小,但在高剂量(> 10⁶孢子/ml)时可以控制病斑的扩展。所有供试剂量的盾壳霉均可不同程度地控制再侵染。盾壳霉分生孢子可在叶面病部迅速萌发,48 h和72 h时孢子萌发率分别为51%和95%,而在健康叶面上6 d未能检测到萌发的孢子。自携带盾壳霉的叶面病部不能分离到核盘菌,表明叶面上的盾壳霉已寄生并破坏了核盘菌再侵染菌丝。自油菜叶面上分离到的盾壳霉菌落数随时间延长而降低,但其分生孢子至少可以在叶面上存活28 d。这即表明,在叶面上适时适量地添加盾壳霉可以控制油菜菌核病的为害。     

核盘菌对菌核净的抗药性机制初探

经药剂筛选获得对菌核净不同表型的核盘菌(Sclerotinia sclerotiorum ) 抗药性突变体。与敏感亲本菌株相比, 抗药突变体MN 61 (MR ) 和MN 91 (HR) 在含1% 和8% 葡萄糖的PDA 上生长受到抑制,MN 113 (LR) 只对1% 葡萄糖敏感。通过测定抗药突变体MN 61 和野生敏感菌株PN 061 的电导率, 发现抗药突变体能在更短的时间里渗出更多的电解质。抗药突变体苯丙氨酸解氨酶活性比敏感亲本菌株高出1 倍以上, 当用不同浓度菌核净处理或饥饿处理时, 抗药突变体和敏感亲本菌株PAL 活性均上升, 但抗药突变体的酶活始终高于敏感亲本菌株。     

Effectiveness of Coniothyrium minitans and Trichoderma atroviride in suppression of sclerotinia blossom blight of alfalfa

The effects of the mycoparasites Coniothyrium minitans and Trichoderma atroviride on the suppression of alfalfa blossom blight caused by Sclerotinia sclerotiorum were evaluated under indoor and field conditions. When T. atroviride (9·0 × 10⁴ conidia/floret) + S. sclerotiorum (6·0 × 10³ ascospores/floret) or C. minitans (9·0 × 10⁴ conidia/floret) + S. sclerotiorum (6·0 × 10³ ascospores/floret) were applied to detached young alfalfa florets, T. atroviride effectively inhibited saprophytic growth of S. sclerotiorum, whereas C. minitans showed no inhibition under the same conditions. When T. atroviride (6·9 × 10⁴ conidia/floret) + S. sclerotiorum (6·0 × 10³ ascospores/floret) or C. minitans (6·9 × 10⁴ conidia/floret) + S. sclerotiorum (6·0 × 10³ ascospores/floret) was applied to young alfalfa petals in vivo just after pollination, the percentage of pod formation was higher for T. atroviride+S. sclerotiorum than that for C. minitans+S. sclerotiorum, and the percentage of pod rot was lower for T. atroviride+S. sclerotiorum than that for C. minitans+S. sclerotiorum. However, when they were applied to senescent petals attached to developing pods of alfalfa at 9·2 × 10⁴ conidia/floret together with S. sclerotiorum at 4·5 × 10³ ascospores/floret at 14 days after pollination, C. minitans was more effective than T. atroviride in suppressing sclerotinia pod rot and seed rot of alfalfa. Field experiments showed that three applications of C. minitans (5·4 × 10⁶ conidia mL⁻¹) or T. atroviride (5·4 × 10⁶ conidia mL⁻¹) at a 7-day interval to blossoms of alfalfa effectively suppressed sclerotinia pod rot in two out of three annual trials. Coniothyrium minitans effectively suppressed sclerotinia seed rot in all three years, whereas T. atroviride was not effective against seed rot in any of the trial years. The efficacy of C. minitans was not significantly different (P > 0·05) from benomyl (250 µg ai mL⁻¹). This study suggests that C. minitans has potential as a biocontrol agent to control blossom blight of alfalfa caused by S. sclerotiorum.     

草酸法筛选油菜抗菌核病材料的效果及其影响因素

作者研究了影响油菜对毒素草酸抗性的一些因素以及运用毒素草酸法筛选抗力核病材料的效果,结果表明,油菜苗期用草酸浸根后,苗病害严重分别随温度,草酸浓度和草酸处理时间的增加而增大,随湿度,苗龄的增大而减小,在用草酸法鉴定品种的抗性时,草酸浓度１０～１５ｍｍｏｌ／Ｌ温度１８～２８℃,相对湿度８０％～９０％和自然光照对２～５片真叶期苗适合。用草酸浸根和浸叶法筛选油菜抗病材料的效果明显,用草酸浸叶筛选的８个品     

Acquired resistance triggered by elicitins in tobacco and other plants

Elicitins are a family of proteins excreted byPhytophthora spp. They exhibit high sequence homology but large net charge differences. They induce necrosis in tobacco plants which then become resistant to the tobacco pathogenPhytophthora parasitica var.nicotianae. In stem-treated plants, resistance was not restricted to the site of elicitin application, but could be demonstrated by petiole inoculation at all levels on the stem. Resistance was already maximum after two days and lasted for at least two weeks. It was effective not only towardsP. p. var.nicotianae infection, but also against the unrelated pathogenSclerotinia sclerotiorum. In contrast to dichloroisonicotinic acid, an artificial inducer of systemic acquired resistance, which was increasingly effective with doses ranging from 0.25 to 5mole per plant, the basic elicitin cryptogein exhibited a threshold effect, inducing near total resistance and extensive leaf necrosis above 0.1 nmole per plant. Between 1 and 5 nmole, acidic elicitins (capsicein and parasiticein) protected tobacco plants with hardly any necrotic symptom. Elicitins exhibited similar effects in various tobacco cultivars andNicotiana species, although with quantitative differences, but induced neither necrosis nor protection in other SolanaceÆ (tomato, petunia and pepper). Among 24 additional species tested belonging to 18 botanical families, only some BrassicaceÆ, noticeably rape, exhibited symptoms in response to elicitins, in a cultivar-specific manner. Elicitins appear to be natural specific triggers for systemic acquired resistance and provide a tool for unraveling the mechanisms leading to its establishment.Abbreviations AR acquired resistance - HR hypersensitive response - INA 2,6-dichloroisonicotinic acid - Ppn Phytophthora parasitica var.nicotianae - SAR systemic acquired resistance     

农抗2-16防治油菜菌核病效果研究

利用农抗２┐１６防治油菜菌核病效果良好。在油菜盛花期喷施农抗２┐１６水剂１００、１５０倍液,对油菜菌核病防效分别达８２．６％和７８．１％,其防效高于４０％治萎灵可湿性粉剂（９００ｇ／ｈｍ２）和５０％多菌灵可湿性粉剂（３０００ｇ／ｈｍ２）,低于３６％粉霉灵悬浮剂（１５００ｍｌ／ｈｍ２）。喷施农抗２┐１６,能有效地减轻主茎发病,降低病情指数。