高粱枯萎病生防菌株筛选研究

由半裸镰刀菌引起的高粱枯萎病是一种严重的土传病害,为了有效地抑制高粱枯萎病的发生,筛选出对该病害具有较强抑制活性的生防菌株.从黑龙江省大庆市土壤中分离出33种生防菌,采用平板对峙法从33种菌株中筛选出对半裸镰刀菌具有抑制作用的生防菌株,并进行盆栽高粱接菌试验,通过高粱枯萎病的病情指数与发病率调查,筛选出4种拮抗细菌Y+...     

烟草青枯病生防细菌的筛选与生防效果研究

从云南文山烟草种植田烟草植株根围土壤及植株根内生境中分离纯化获得195株细菌,以细菌菌株对青枯雷尔氏菌（Ralstonia solanacearum）YN10的拮抗作用及其产蛋白酶、几丁质酶、纤维素酶和产嗜铁素的活性作为评价指标对其生防潜力进行赋值,对总赋值得分较高的84株菌株做了聚类分析,选择25株拮抗细菌进行了烟草青枯病温室防效试验。结果表明,聚类分析ARDRA图谱中位于不同组的25株拮抗细菌对烟草青枯病都有不同程度的防治效果,菌株K-1-8、R-3-16、R-3-18的温室防效分别为86.66%、84.94%、87.57%;拮抗细菌的生防效果与总赋值存在正相关,相关系数达0.86。     

Lipid metabolism in tomato and bean as a sensitive monitor for biocontrol of wilt diseases

The lipids metabolism of tomato and bean plants during biological control of wilt pathogens (Fusarium oxysporum f.sp.lycopersici andF. oxysporum f.sp.phaseoli, respectively) byBacillus subtilis was investigated. The interaction of wilt pathogens with both tomato and bean caused an imbalance and drastic reduction in total lipids, triacylglycerol, sterol and all phospholipd fractions except phosphatidic acid. The application of a formulated biocontrol agent,B. subtilis, eliminated the detrimental effect of both wilt pathogens and consequently prevented catabolism of lipid fractions in both tomato and bean. Moreover, the changes in the lipid fractions as a sensitive monitor for biocontrol of wilt diseases suggest a positive correlation between the application ofB. subtilis and improvement in the host metabolism towards anabolism. http://www.phytoparasitica.org posting Sept. 20, 2006.     

防治棉花黄萎病的生防细菌NCD-2的田间效果评价及其鉴定

 生防细菌NCD-2是自棉花根围土壤分离到的一株细菌菌株,田间小区试验表明:NCD-2菌株对棉花黄萎病的防治效果2年平均为85.4%,3年大区示范防病效果为51.2%~60.6%,并且该生防细菌对棉花产量和产量构成因子(单铃重、衣分、衣指、籽指等)及纤维品质(绒长)有所提高和改善。同时,本文测定了NCD-2对主要大田作物的安全性,证明其对小麦、玉米、棉花、马铃薯、黄瓜、茄子和大豆7种作物没有致病性,并且对这些作物的出苗、生长和发育没有不良影响。应用API50CH和API20 E细菌鉴定试剂盒,将NCD-2鉴定为枯草芽孢杆菌(Bacillus subtilis Cohn.)。     

Trichoderma as a biostimulator and biocontrol agent against Fusarium in the production of cereal crops: Opportunities and possibilities

Despite technological advances in global agriculture in recent years, the problem of pathogenic fungi in the production of cereal crops continues to be an issue. Currently, the high variability of weather factors that are considered unusual for specific locations affect the growth and physiology of pathogens attacking cereal crops. One of the most common plant protection methods is the use of synthetic pesticides; however, there is growing controversy over this approach due to the build-up of pesticides in the environment and the presence of their residues in food. The purpose of this literature review is to explore the current state of knowledge regarding the potential of using Trichoderma species as a biostimulator and for the biological protection of cereal crops against pathogenic fungi. Trichoderma fungi—through mycoparasitism, antibiosis and competition for space and nutrients—help to inhibit the growth of pathogens and have a positive impact on the growth of plants, including their root system, which is considered a desirable effect during drought episodes. It has also been demonstrated that Trichoderma fungi can convert Fusarium toxins into new metabolites that can be of lower toxicity. However, the highly limited number of in vivo studies investigating the use of these fungi for biocontrol in cereal crops remains an obstacle to the commercialization of Trichoderma fungi. It appears that the determination of their effectiveness in the biocontrol of cereal crops under variable weather and climate conditions presents a considerable challenge.     

番茄青枯病植物疫苗胶悬菌剂的制备及其对病害的防治效果

研究了植物疫苗胶悬剂的制备工艺,确定胶悬剂制备的适宜参数为:琼脂终浓度为2.0‰、氯化钠终浓度为2.0%和pH为7.0。在此条件下,胶悬效果最好,质地均匀,无上下分层。试验了植物疫苗胶悬剂对番茄青枯病的防治效果,结果表明,该胶悬剂能较好地抑制番茄青枯病的发生,其防效(77.45%)与化学农药72%农用硫酸链霉素SP(77.23%)相当,配合生防菌剂20亿活芽孢/g蜡质芽孢杆菌WP施用,效果更佳,防效达81.81%。     

Emamectin benzoate as a candidate for a trunk‐injection agent against the pine wood nematode,Bursaphelenchus xylophilus

In order to develop an effective trunk‐injection agent against pine wood nematode, Bursaphelenchus xylophilus, an in vitro assay was used to examine the antinematodal activity of 58 commercially available compounds with known modes of action. Among compounds tested, the GABA receptor agonists had better anti‐nematodal activity than compounds influencing glutamate, N‐methyl‐D ‐aspartate, β‐adrenergic, dopamine, muscarinic acetylcholine and nicotinic acetylcholine receptors, as well as those inhibiting acetylcholinesterase, monoamine oxidase, 5‐hydroxytryptamine uptake and Ca²⁺, K⁺, Na⁺ and Cl⁻ channels. Avermectins and milbemycins strongly inhibited propagation of the nematode. Emamectin benzoate proved to be the most active (IC₉₅ 0.050 µM ) being over 140 times more active than the active ingredient of conventional trunk‐injection agents. It is concluded that emamectin benzoate is a strong candidate for an anti‐nematodal trunk injection agent. © 2000 Society of Chemical Industry     

Mycoparasitic Trichoderma isolates as a biocontrol agent against Valsa ceratosperma,the causal agent of apple valsa canker

European Journal of Plant Pathology - Apple valsa canker, caused by the fungus Valsa ceratosperma, is one of the most destructive diseases of this crop. Conventional fungicide treatments are not...     

Development and preventative effect against pine wilt disease of a novel liquid formulation of emamectin benzoate

Injection of the poorly water-soluble emamectin benzoate (EB) into pine trunks required the development of an efficient liquid formulation. For injection into big trees in forests a good rate of injection and a high active content were required. Tests on the viscosity and EB-solubilizing ability of 14 various solubilizers in diethylene glycol monobutyl ether (DGMBE) led to the selection of Sorpol SM-100PM as the solubilizer of the formulation. Relationships between the solubilizing ability and amounts of Sorpol SM-100PM and DGMBE relative to that of EB, and between the concentration of the latter and the viscosity or the injection rate of the formulation led to a novel 40 g litre(-1) emamectin benzoate formulation (Shot Wan Liquid Formulation), which was composed of EB (40), Sorpol SM-100PM (120), DGMBE (160) and distilled water (50 g litre(-1)) in methanol. Injection of this formulation at a dose of 10 g EB per unit volume of pine tree prevented over 90% of the trees from wilting caused by pine wood nematode, and this preventative effect continued for 3 years. Neither discolouration of the leaves nor injury around the injection hole on the trees was observed after injection of the formulation.     

Investigations on Oecophylla longinoda (Latreille) (Hymenoptera: Formicidae) as a biocontrol agent in the protection of cashew plantations

BACKGROUND: Cashew (Anacardium occidentale L.) has become a very important non‐traditional tree crop in Ghana. The crop is, however, attacked by sap‐sucking insects, particularly the mosquito bug, Helopeltis schoutedeni Reuter, the leaf‐footed bug, Pseudotheraptus devastans (Dist.), and the coreid bug, Anoplocnemis curvipes (F.), which feed on shoots, panicles and fruits. Their damage is characterised by withering of the latter. In Ghana, Oecophylla longinoda Latr. occurs in large numbers on cashew and other native plants, but little is known about its relationship with insect pests. The relationship between O. longinoda and shoot and panicle damage by sap‐sucking bugs and the effectiveness of O. longinoda as a biocontrol agent in the protection of cashew as compared with two chemical insecticides, lambda‐cyhalothrin (Karate^®) and cypermethrin + dimethoate (Cyperdim^®), were therefore investigated at Bole in the northern region of Ghana. RESULTS: There was a negative correlation between numbers of O. longinoda nests and pest damage. Trees treated with cypermethrin + dimethoate (969 mg AI mL^?1 tree^?1) and lambda‐cyhalothrin (100 mg AI mL^?1 tree^?1) recorded the smallest bug numbers, followed by O. longinoda. Trees infested by Oecophylla longinoda and trees treated with cypermethrin + dimethoate and with lambda‐cyhalothrin had less than 6% pest damage to shoots, panicles and fruits, while water‐sprayed trees recorded damage as high as 36.8% (shoots) in February, 32.9% (panicles) in February and 37.8% (fruits) in March. Cypermethrin + dimethoate again recorded the highest (485.0 kg ha^?1) nut yield, followed by O. longinoda (431.0 kg ha^?1), with water recording the lowest (93.0 kg ha^?1) nut yield. CONCLUSION: The results indicate that O. longinoda can be used to control some sucking bugs as effectively as some insecticides. Copyright © 2008 Society of Chemical Industry     

烟草根际细菌铜绿假单胞菌swu31-2的定殖能力及其对烟草青枯病的防治作用

从重庆黔江烟草田间分离获得一株烟草青枯菌拮抗菌株Pseudomonas aeruginosa swu31 2（简称swu31 2）。采用逐步提高药物浓度的方法,筛选获得了抗链霉素300 μg/mL对烟草青枯病菌拮抗活性稳定的swu31 2突变菌株。采用灌根接种法,研究其在烟草根、茎和叶表面及内部的定殖能力及其对烟草青枯病的防治作用。结果表明,swu31 2能在烟草各组织的表面及内部定殖。该菌株在烟草各组织内部的数量均表现为“由增到减”的趋势。在接种后第8天定殖数量达到最高峰,随后有所下降;到第20天各组织内的数量仍然维持较高水平（105 cfu/g 以上）。同时,在接种20 d后,烟草的根、茎和叶的表面仍然可以检测到swu31 2的存在。盆栽试验结果表明,swu31 2的菌液和活性物质对烟草青枯病均有一定的防治效果。其中先施swu31 2菌液和活性物质粗提物的防效好于农用链霉素（51.25%）,分别为60.87%和 60.32%,而后施菌液和活性物质粗提物的防效也分别达39.50%和20.90%。     

石榴干腐病生防菌株Z2的鉴定及其培养条件的优化

 从石榴根际土壤中分离获得一株生防细菌菌株Z2。根据16S rDNA、gyrA 基因序列分析和特定基因的选择性扩增,结合形态学、生理与生化特性鉴定和Biolog 检测,将生防菌株Z2鉴定为解淀粉芽胞杆菌(Bacillus amyloliquefaciens)。通过单因素试验研究菌株的培养条件,并经过正交实验设计对培养条件进行优化,探究生防菌对Zythia versoniana引起的石榴干腐病的防治效果。生防菌株Z2的优化培养条件为:温度27℃,pH =6或8,LB培养基,培养时间3 d。采用新鲜离体石榴果实针刺接种方法进行菌株生防效力检测,与其他供试植物病原真菌相比,菌株Z2对石榴果实干腐病菌Z. versoniana具有较强的抑菌活性,对石榴果实干腐病的病斑抑制率达31.27%~81.89%。本研究获得的生防菌株Z2对石榴干腐病生物防治具有开发应用潜力,优化的培养条件可为该生防菌的产业化和大田应用奠定基础。另外,菌株Z2对植物病原真菌有较宽的抑菌谱,表明该菌株对其他作物病害的防治也具有潜在的应用价值。     

Identification and use of a wild plant with antimicrobial activity against Ralstonia solanacearum, the cause of bacterial wilt of potato

Fresh aerial tissue and roots of 14 wild plants in Okinawa prefecture were investigated for their antimicrobial activity against Ralstonia solanacearum , which causes bacterial wilt of potato. A 70% aqueous ethanol extract of fresh aerial tissue of Geranium carolinianum L. showed strong antimicrobial activity against R. solanacearum . This extract also showed antimicrobial activity against the pathogens causing common scab of potato and soil rot of sweet potato. The antimicrobial substance could be extracted with hot water, and was effective against R. solanacearum in soil. In the field test, a treatment combining incorporation of dried aerial tissue into the soil and solarization was highly effective for control of bacterial wilt of potato. These findings suggest that G. carolinianum L. could be used as a biological agent for the control of bacterial wilt of potato.     

Biocontrol potential of Alternaria sp. PMK2, against a devastating weed: Parthenium hysterophorus L

Parthenium hysterophorus (Asteraceae) is known as one of the most aggressive invasive weeds, causing severe economic, environmental, human and animal health problems in India and around the world. During a series of extensive surveys for natural enemies of P. hysterophorus, a leaf spot pathogen was isolated from the affected parts of the parthenium following the standard isolation techniques using potato dextrose agar (PDA) and parthenium dextrose agar (PeDA) media. Koch's postulates were performed and found satisfactory for the isolate and proved to be pathogenic to this weed. On the basis of cultural, morphological and molecular characteristics, the pathogen was identified as Alternaria sp. PMK2. The growth of the pathogen was studied on eight selected media and it exhibited varying degrees of growth on different media. Phytotoxicity of fungal cultural filtrates was also confirmed on parthenium leaves in laboratory conditions. Due to the virulent nature of the isolated pathogen, it may be selected for further studies to develop mycoherbicide for control of this devastating weed.     

一株拮抗水稻白叶枯病菌的淡紫灰链霉菌的筛选鉴定及其生防效果研究

 为发现绿色安全的水稻白叶枯病天然生物防治微生物,本研究从植物根际土壤中分离获得165株放线菌。利用共培养法和牛津杯法,筛选获得了5株拮抗水稻白叶枯病菌(Xanthomonas oryzae pv. oryzae, Xoo)的放线菌,其中拮抗能力最强的是Sl-10菌株,发酵液抑菌圈直径为62.1 mm ± 1.5 mm。根据形态特征、生理生化实验、16S rDNA序列和系统发育分析,鉴定Sl-10菌株为淡紫灰链霉菌(Streptomyces lavendulae)。Sl-10菌株发酵液对大豆斑点病菌(Pseudomonas syringae pv. glycinea)、烟草野火病菌(P. syringae pv. tabaci)、油菜黑腐病菌(X. campestris pv. campestris)、大豆斑疹病菌(X. axonopodis pv. glycines)、水稻条斑病菌(X. oryzae pv. oryzicola)、烟草青枯病菌(Ralstonia solanacearum)和番茄叶斑病菌(P. syringae pv. tomato)7种植物病原细菌均有拮抗作用。Sl-10菌株发酵液具有较好的耐光、耐酸碱和热稳定性。SDS-PAGE电泳结果显示,Sl-10菌株可抑制Xoo的蛋白质合成。4个品种水稻(甬优15、湘两优900、嘉丰2号和甬优1540)喷施Sl-10菌株发酵液,水稻白叶枯病的病斑抑制率达到82.27%~91.78%。研究结果显示,淡紫灰链霉菌Sl-10菌株具有较好的水稻白叶枯病生物防治潜能。     

一株具有防治水稻条斑病潜力的高地芽胞杆菌181-7

 水稻条斑病(Bacterial leaf streak, BLS)由稻黄单胞菌种下的致病变种条斑病菌(Xanthomonas oryzae pv. oryzicola, Xoc)侵染引起,已成为我国南方水稻种植区的一个重要病害。为了筛选防治BLS的生防细菌,本研究以Xoc的模式菌株RS105为靶标菌,采用平板稀释和抑菌圈法,从辣椒根际土壤中分离筛选到具有拮抗活性的菌株181-7。通过形态学、生理生化特征以及16S rRNA序列分析鉴定该菌株为高地芽胞杆菌,命名为Bacillus altitudinis 181-7。针对14种植物病原细菌和3种病原真菌的拮抗谱试验发现,181-7对Xoc和水稻白叶枯病菌(X. oryzae pv. oryzae, Xoo)表现特异性的拮抗作用,对禾谷镰刀菌也具有较明显的抑制作用。基因组信息显示,181-7携带一个环状的质粒,含有3 826个开放阅读框,含有涉及抗真菌、抗逆、诱导植物抗性和促进植物生长等特性的相关基因。AntiSMASH的分析显示,181-7含有地衣杆菌素(lichenysin)、丰原素(fengycin)、菌溶素(bacilysin)、细菌素(bacteriocin)以及噬铁素等抑菌活性代谢产物。温室的初步试验结果显示,在感病水稻品种‘原丰早'上, 181-7对Xoc在水稻叶片上引起的水渍症状具有明显的抑制作用。这表明, B. altitudinis 181-7具有防治水稻条斑病的潜力。这些研究为水稻条斑病的生物防治提供了新的微生物资源,也为后续生防机理的探究奠定了理论基础。     

The discovery of pyridalyl: a novel insecticidal agent for controlling lepidopterous pests

Synthesis of analogues of two compounds with known insecticidal activity, both of which contain a 3,3-dichloro-2-propenyloxy group, produced 2-(trifluoromethyl)-4-phenoxyphenyl 3,3-dichloro-2-propenyl ether, which had weak activity against lepidopterous larvae. Structural modifications around this lead compound led to the development of pyridalyl [Pleo, S-1812; 2,6-dichloro-4-(3,3-dichloroallyloxy)phenyl 3-[5-(trifluoromethyl)-2-pyridyloxy]propyl ether], which belongs to a new class of insecticides. Pyridalyl gives very good control of various lepidopterous and thysanopterous pests on cotton and vegetables, without phytotoxicity. It controls populations of Heliothis virescens F and Plutella xylostella (L) which are resistant to various currently used insecticides. It also produces unique insecticidal symptoms, so it may have a different mode of action from other existing insecticides. Pyridalyl is also less harmful than existing insecticides to various beneficial arthropods, so it should provide an important tool in IPM and insecticidal management programmes for the control of lepidopterous and thysanopterous pests. The first market introduction is expected in Japan and some Asian countries in the years between 2004 and 2005.