Interactions of two selected field isolates of Colletotrichum gloeosporioides f. sp. aeschynomene on Aeschynomene virginica

The fungal plant pathogen, Colletotrichum gloeosporioides f. sp. aeschynomene (CGA), has been used successfully since 1982 to control northern jointvetch (NJV), Aeschynomene virginica, in rice and soybeans in the USA as COLLEGO^®, a bioherbicidal formulation of a single isolate of this pathogen. The interactions and fitness of different field isolates of this fungus and effective bioherbicide have not been fully examined. We examined CGA population structure and inter-isolate competition using molecular markers in field and greenhouse experiments. NJV plants were first inoculated with one isolate or a mixture of two isolates, Cla-5a and 3-1-3, followed by a challenge inoculation containing either one or both isolates, 4 or 5 days later. Plants first inoculated with Cla-5a alone, or in mixture with 3-1-3, had Cla-5a comprising approximately 80% of the population after 21 days regardless of challenge inoculation. In contrast, when the primary treatment was 3-1-3 alone, wounding, or benzodiathiazole, 3-1-3 detection only approached 50% of the population following challenge inoculation. Primary inoculation with Cla-5a significantly reduced the number of lesions caused by 3-1-3 challenge, whereas primary inoculation with 3-1-3 did not significantly affect the number of lesions caused by Cla-5a challenge. Size of lesions caused by the two isolates following challenge inoculations and dispersal of the isolates from lesions to healthy plants were not affected by the primary inoculation. These results suggest a specific interaction by Cla-5a with the host defense response creating a more favorable environment for its own colonization of NJV to the exclusion of 3-1-3.     

Best linear unbiased prediction of host-range of the facultative parasite Colletotrichum gloeosporioides f. sp. salsolae, a potential biological control agent of Russian thistle

Russian thistle or tumbleweed (Salsola tragus L.) is an introduced invasive weed in N. America. It is widely distributed in the US and is a target of biological control efforts.The fungus Colletotrichum gloeosporioides (Penz.) Penz. & Sacc. in Penz. f. sp. salsolae (CGS) is a facultative parasite under evaluation for classical biological control of this weed. Host-range tests were conducted with CGS in quarantine to determine whether the fungus is safe to release in N. America. Ninetytwo accessions were analyzed from 19 families: Aizoaceae, Alliaceae, Amaranthaceae, Apiaceae, Asteraceae, Brassicaceae, Cactaceae, Campanulaceae, Chenopodiaceae, Cucurbitaceae, Cupressaceae, Fabaceae, Malvaceae, Nyctaginaceae, Phytolaccaceae, Poaceae, Polygonaceae, Sarcobataceae, and Solanaceae and 10 tribes within the Chenopodiaceae: Atripliceae, Beteae, Camphorosmeae, Chenopodieae, Corispermeae, Halopepideae, Polycnemeae, Salicornieae, Salsoleae, and Suaedeae. These included 62 genera and 120 species. To facilitate interpretation of results, disease reaction data were combined with a relationship matrix derived from internal transcribed spacer DNA sequences and analyzed with mixed model equations to produce Best Linear Unbiased Predictors (BLUPs) for each species. Twenty-nine species (30 accessions) from seven closely-related Chenopodiaceae tribes had significant levels of disease severity as indicated by BLUPs, compared to six species determined to be susceptible with least squares means estimates. The 29 susceptible species were: 1 from Atripliceae, 4 from Camphorosmeae, 1 from Halopepideae, 2 from Polycnemeae, 6 from Salicornieae, 8 from Salsolae, and 7 from Suaedeae. Most species in the genus Salsola, which are all introduced and weedy, were very susceptible and damaged by CGS. Statistical comparisons and contrasts of BLUPs indicated that these Salsola species were significantly more susceptible than non-target species, including 15 species from relatives in the closely-related genera Bassia (=Kochia), Nitrophila, Salicornia, Sarcocornia, and Suaeda. Of the 29 susceptible species, 10 native or commercially important species in N. America were identified as needing additional tests to determine the extent of any damage caused by infection.     

胶孢炭疽菌C2H2型转录因子CgGcp1的生物学功能

【背景】胶孢炭疽菌(Colletotrichum gloeosporioides)可以寄生于多种植物,侵染方式多样,能够引起严重的农业危害。在胶孢炭疽菌中,CgGcp1是一个C2H2型的转录因子,关于其生物学功能的研究未见报道。【目的】明确CgGcp1的生物学功能,为深入解析该病菌的致病机制奠定一定的理论依据。【方法】构建CgGCP1基因的敲除载体,利用同源重组得到敲除突变体。通过表型分析,包括营养生长、胁迫响应、孢子产生、附着胞形成及致病性分析等,明确该基因的生物学功能。【结果】CgGCP1基因敲除突变体生长速率较野生型减慢,对SDS、刚果红、NaCl和甘油更加敏感,孢子产量显著降低,附着胞的形成率降低且侵入能力减弱,在橡胶叶片上的致病力明显下降。【结论】CgGcp1参与调控胶孢炭疽菌营养生长、细胞壁完整性、分生孢子产生、附着胞形成与侵入和致病性。     

In vitro,greenhouse and field assessments of cassava lines for resistance to anthracnose disease caused by Colletotrichum gloeosporioides f.sp. manihotis

Fifty-three cassava lines were selected from breeding populations at the International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria and screened in vitro for resistance to cassava anthracnose disease (CAD). The in vitro inoculation of stem cuttings with the fungus Colletotrichum gloeosporioides f.sp. manihotis showed significant differences (p ± 0.05) in acervuli production and in the sensitivity of the cassava lines to the fungal infection after 7 days of incubation at 25 °C. Cassava lines 88/01084, 91/00595, 91/00475, 91/00344, 91/00684, 91/00313, 91/00422, and 91/00344 were highly resistant, with necrotic lesion sizes less than 7 mm. In contrast pedigree lines 88/02549, 89/0008, 91/00390 and 91/00402 were highly susceptible with the largest necrotic lesion size being greater than 20 mm. Ten cassava lines from the in vitro screening that showed varying levels of resistance to CAD were selected, based on their flowering abilities for diallel hydridization trials, and were further screened in greenhouse and field trials for CAD resistance. The greenhouse and field screening showed significant varietal differences (p ± 0.05) in sensitivity to the fungus. In all cases, the progeny lines showed correlated levels of resistance irrespective of the type of screening or assessments. Correlation analysis of the in vitro, greenhouse and field assessments showed that there was a good correspondence among all three methods of evaluating for CAD. This revised version was published online in June 2006 with corrections to the Cover Date.     

棉花抗枯萎病相关转录因子基因的克隆与表达

以枯萎病菌诱导棉花基因表达谱中获得的差异表达bZIP作为探针,采用电子克隆结合RT-PCR方法从棉花抗枯萎病品种‘中棉所12’中克隆了1个TGA转录因子基因,命名为GhTGA2.2。序列分析表明,该基因的cDNA全长1 356bp,编码451个氨基酸,预测分子量为50.04kD,等电点为5.85,含有保守的bZIP结构域。系统进化树分析表明,GhTGA2.2属于bZIP亚家族的TGA转录因子,与拟南芥AtTGA2、烟草NtTGA2.2亲缘关系最近。qRT-PCR分析表明,经枯萎病菌诱导后,GhTGA2.2基因在抗病品种中呈上调表达,随处理后时间的推移,其相对表达量呈先升高后降低的趋势,并于处理后24h表达量达到最大;水杨酸诱导后1h,GhTGA2.2基因相对表达量迅速增加;茉莉酸和乙烯诱导后GhTGA2.2基因的相对表达量明显降低,呈下调表达。研究推测,GhTGA2.2基因可能通过水杨酸信号传导途径参与对枯萎病菌的防御反应。     

嫁接西瓜对西瓜枯萎病菌侵染的防御机制研究

为了揭示嫁接提高西瓜抗枯萎病的机制,该研究以嫁接西瓜为材料,采用扫描电镜观察了枯萎病菌侵染下寄主的组织结构变化,荧光定量分析了相关防卫基因的表达,比较了嫁接西瓜对枯萎病菌侵染的抗感反应。结果显示:(1)枯萎病菌侵染后,与自根西瓜相比,嫁接西瓜的根部木质部导管通过快速形成膜状物、侵填体及细胞壁增厚阻塞菌丝入侵;自根西瓜防御反应较嫁接西瓜晚,严重侵染时薄壁细胞降解,导管组织脱落导致维管系统空洞,从而使植株呈现萎蔫症状,该现象在嫁接西瓜中没有发现。(2)枯萎病菌侵染后,嫁接西瓜比自根西瓜具有较高的防卫基因表达水平,其中:嫁接西瓜中,CHI、APX和PPO基因的表达随枯萎病菌侵染时间的延长而升高,而PAL呈现先升高后降低的表达趋势,但仍高于本底表达;自根西瓜中,仅PPO基因在枯萎病菌侵染后表达上调,而其他基因的表达则是先升高后降低,与嫁接西瓜中的PAL基因表达一致。研究表明,嫁接植株一方面通过快速的组织结构响应,另一方面从转录水平提高了相关防卫基因的表达,最终使植株具有抗病性;推测防御基因在嫁接植株与枯萎病菌互作中的强烈诱导响应可能是嫁接植株抗病的分子机制之一。     

Chaetomium globosum for reducing primary inoculum of Diaporthe phaseolorum f. sp. meridionalis in soil-surface soybean stubble in field conditions

The potential of an antibiotic-producing isolate of Chaetomium globosum (CgA-1) to suppress Diaporthe phaseolorum f. sp. meridionalis (Dpm) in soybean stubble was studied in field microplots of no-tillage, minimum-tillage, and shallow plowing. Mature soybean stems colonized in vitro with Dpm were spread on the soil surface and C. globosum ascospore suspension, without nutrient supply, was sprayed over the entire plot prior to any tillage operation. Perithecial formation and survival of Dpm in soybean stems, concomitantly with colonization by C. globosum, were monitored for a 180-day period (mid-autumn through winter and mid-spring), which is the normal interval between soybean harvest and sowing. The proportion of soybean stem segments occupied by Dpm and number of perithecia formed decreased linearly with time and showed a strong negative correlation with increase in the occupation by C. globosum. At the end of the study, which coincided with the soybean sowing season, the soybean stubble was free from viable Dpm and was colonized by C. globosum. The effectiveness of C. globosum in eliminating the pathogen from surface-borne residue or harrowed-in residue was similar but much slower than in the shallow-plowed microplots. C. globosum successfully competed with major interfering fungi such as, Trichoderma, Nigrospora, and Fusarium in colonizing the soybean stems above and under the soil surface. The data provide strong evidence for use of the antibiotic-producing isolate of C. globosum to control soybean stem canker disease.     

Colonization of cucumber plants by the biocontrol fungus Clonostachys rosea f. catenulata

Clonostachys rosea f. catenulata (Gliocladium catenulatum) strain J1446 (formulated as Prestop WP) suppressed Fusarium root and stem rot caused by Fusarium oxysporum f. sp. radicis-cucumerinum (Forc) on cucumber plants grown hydroponically in rockwool medium. Sixty days following application at seeding, the biocontrol agent had proliferated through the rockwool blocks and was present on cucumber roots and the crown region of the stem at populations >1 × 10⁵ CFU/g fresh weight. Scanning electron micrographs showed that C. rosea had rapidly colonized the root surface and was associated with root hairs and epidermal cell junctions. Following transformation of the fungus with Agrobacterium tumefaciens strain AGL-1 containing the hygromycin resistance (hph) and β-glucuronidase (uidA) genes, blue-stained mycelia could be seen growing on the surface and within epidermal and cortical cells of roots, stems and shoots 3 weeks after treatment. Quantification of GUS activity by fluorometric assays showed that fungal biomass was highest in the roots and crown area, while the extent of colonization of upper stems and true leaves was variable. Higher population levels resulted following application to rockwool blocks compared to seed treatment. Application of C. rosea preceding inoculation with Forc significantly reduced pathogen populations on roots compared to plants inoculated with Forc alone. Colonization of infection sites in the root zone reduced pathogen development and disease incidence. Densities of the biocontrol agent appeared to increase in the presence of the pathogen.     

棉花抗枯萎病相关ERF-B3亚组转录因子的克隆与表达

以拟南芥ERF-B3亚组转录因子的AP2/ERF结构域为探针,利用NCBI中的棉花(Gossypium hirsutum)EST数据库,通过电子克隆结合RT-PCR方法,从枯萎病菌诱导后的高抗枯萎病品种‘中棉所12’克隆到1个与抗枯萎病相关的ERF-B3亚组转录因子基因GhB301。序列分析结果显示,GhB301基因cDNA全长593 bp,开放阅读框384 bp,编码127个氨基酸,含有一个保守的AP2/ERF结构域。实时荧光定量PCR检测该基因的表达显示,枯萎病菌诱导后,GhB301基因在棉花根中、抗病品种中优势表达;在乙烯、水杨酸、干旱、低温及高盐的诱导下表达量均发生变化。研究结果表明,GhB301基因可能参与了棉花对病原菌、激素及非生物胁迫的应答反应。     

基因CfATG6和CfATG14参与调控果生刺盘孢细胞自噬和致病力

【目的】炭疽病是油茶的主要病害,由刺盘孢属的多种真菌引起,其中果生刺盘孢分布范围最广、分离率最高,是油茶炭疽病的主要致病菌。研究自噬相关蛋白CfAtg6和CfAtg14的生物学功能,为进一步揭示果生刺盘孢通过细胞自噬调控致病的分子机制,并为油茶炭疽病的防治提供理论基础。【方法】根据同源重组原理,通过聚乙二醇(polyethylene glycol, PEG)介导的方法,在果生刺盘孢中敲除基因CfATG6和CfATG14,并进一步获得回补菌株ΔCfatg6-C和ΔCfatg14-C。【结果】酵母双杂交试验结果显示,果生刺盘孢蛋白CfAtg6和CfAtg14可能存在互作关系。生物学表型测定结果表明,相较于野生型和回补菌株,突变体ΔCfatg6和ΔCfatg14均表现出营养生长速率显著减慢,附着胞形成率分别只有野生型的5%和18%;突变体ΔCfatg6和ΔCfatg14致病力均极显著减弱,造成的油茶叶片病斑面积少于野生型和回补菌株的1/3;CfATG6和CfATG14基因缺失突变体均丧失转运和降解CfAtg8蛋白的能力,并对细胞壁胁迫更敏感。突变体ΔCfatg6的分生孢子产量显著降低,仅为野生型的20%左右;氧化胁迫试验结果表明,相较于野生型和回补菌株,过氧化氢对突变体的生长抑制率升高10%左右。内质网压力胁迫试验表明,ΔCfatg14对二硫苏糖醇抑制率升高5%以上。【结论】自噬相关基因CfATG6和CfATG14参与调控了果生刺盘孢生长发育、细胞自噬和致病力。     

设施黄瓜连作土壤对黄瓜枯萎病菌致病力的影响

为系统研究设施蔬菜连作障碍的发生机制，探讨连作年限对蔬菜土传病害病原菌致病力的影响。本文以山东省德州市王杲铺镇看水庄村不同连作年限的设施黄瓜大棚中采集的土壤样品为研究对象，通过测定其土壤理化性质分析土壤次生盐渍化的程度，并用不同连作年限土壤进行盆栽实验，分析黄瓜植株的生长情况、发病情况及黄瓜枯萎病菌在黄瓜植株内和根际土壤中的定殖情况，研究不同连作年限土壤对黄瓜枯萎病菌致病力的影响。结果表明，所有土壤样品的pH均在8.0以上，呈碱性；土壤样品的全磷含量与pH变化趋势一致；连作8年土壤中黄瓜枯萎病菌在黄瓜植株茎部的定殖数量最多，黄瓜植株的病情指数和发病率最高，说明黄瓜枯萎病菌在黄瓜植株茎部定殖数量多少与黄瓜植株的病情指数和发病率高低的变化趋势一致。综上所述，本研究为设施蔬菜土壤土传病害的防控提供了理论依据。     

大豆根瘤内抗棉花枯萎病菌株的筛选及其防病试验

【目的】采用优良抗病性内生菌资源来控制棉花枯萎病是一种有效的措施。本研究从大豆根瘤中筛选棉花枯萎病拮抗性内生细菌,探索其对棉花枯萎病菌丝的抑制作用和代表菌株特性,为发掘和应用防病、抗逆优良菌株提供理论基础。【方法】采用对峙法和代谢液培养法对大豆根瘤内生细菌进行棉花枯萎病菌抑菌性筛选,显微观察法研究筛选菌株引起病原菌菌丝变化,通过菌株培养特征、理化特性和16S r DNA序列同源性分析确定菌株系统发育地位,比色法测定DD174耐盐碱性,盆栽试验验证防病效果。【结果】经复筛和代谢液试验有5株拮抗性较强菌株,被作用病原菌菌丝畸形、细胞壁消失、自溶,菌丝基部加粗、分支增多,呈树根状;菌丝被菌苔包埋而溶解、断裂,菌丝末端球形膨大。对棉花枯萎病菌的抑制作用主要通过菌体产生胞外代谢物发挥作用。菌株DD174、DD176和DD179最相似菌株分别为Bacillus oceanisediminis H2T(GQ292772)和B.thuringiensis ATCC 10792T(AF290545),菌株DD165和DD166最相似菌株均为Stenotrophomonas maltophilia LMG 958T(X95923)。DD174能耐受6%盐浓度,p H 10生长良好,具有一定耐盐碱能力。DD174处理组防治效果达76.32%,其他防效均在62%以上,可作为棉花枯萎病的生防菌株资源。【结论】大豆根瘤内存在棉花枯萎病内生拮抗细菌,其中有些菌株具有一定耐盐碱能力,对棉花枯萎病病原菌及病害有一定抑菌和防病作用。     

香蕉枯萎病田间分布型及病原菌在植株上的分布

为探讨香蕉枯萎病大田病株及其体内尖孢镰刀菌(Fusarium oxyporum f.sp.cubense)的分布情况,首先对大田病株的发病情况进行调查,通过分布频次检验、聚集指标测定、Taylor幂法则、Iwao m*-m模型等对田间病株的空间分布型进行研究,在此基础上,检验聚集均数λ,分析其聚集原因。同时,在香蕉植株不同部位取样,检测病原菌在植株体内的分布情况。结果表明:香蕉枯萎病大田病株的理论分布符合聚集类型,各项聚集度指标均满足C1、I0、m*/m1、CA0、K0。大田病株的空间图式也趋于聚集分布,聚集程度随着种群密度升高而升高,病株间互相吸引,以病株群为单元在蕉地分布均匀,其相对聚集度随种群密度变化的速率为(11.0962+0.1752)m,密度越高,相对聚集度随密度变化速率越大。这种聚集分布是环境作用导致。建立最适理论抽样数模型后,根据一定置信水平下的允许误差值可估测相应发病情况时所配套的最适理论抽样数,且随着病情加重,配套抽样数随之减少。在进行序贯抽样时,假如累计病情等级高于判据上限即可视为防治蕉地,若累计病情等级低于判据下限可视为安全蕉地,如果累计病情等级在判据上限和下限之间,需增加抽样量,但可以理论抽样模型中的最大抽样量终止抽样。最适宜的抽样方法为棋盘式取样法和单、双对角线取样法。此外,枯萎病菌在香蕉植株体内的分布因样地发病程度和植株部位不同而有显著差异,植株球茎的平均含菌量显著高于其它部位。     

Differential induction of phenylalanine ammonia-lyase activity in date palm roots in response to inoculation with Fusarium oxysporum f. sp. albedinis and to elicitation with fungal wall elicitor

The inoculation of the roots of resistant (BSTN) and susceptible (JHL) cultivars of date palm seedlings byFusarium oxysporum f. sp.albedinis (Foa) induces an increase in activity of phenylalanine ammonia-lyase (E.C. 4. 3. 1. 5., PAL). The post-infectional response in the PAL activity in the resistant cultivar roots was faster and higher than that in the susceptible cultivar. However, the elicitation of the seedlings by the hyphal wall preparation (HWP) ofFoa induces an identical PAL response in the resistant and the susceptible cultivars. The elicitor activity of HWP was dose-dependent, the optimal concentration which induces a maximum PAL activity was 10 mg of mycelium per mL. The elicitor present in the HWP was thermostable since its elicitor activity was maintained after heat treatment (121 °C for 45 min). The treatment of the HWP with protease (Pronase E) does not have an effect on the HWP elicitor activity. However, the treatment of the HWP with sodium periodate inhibits its elicitor activity. This data suggests that the HWP elicitor is a carbohydrate compound. In addition, the HWP elicitor is non-specific since it induces identical responses of the PAL activity in two cultivars showing different behaviors to the pathogen. The absence of specificity of HWP elicitors and the differential response of the PAL activity to the infection byFoa and to the elicitation by the HWP are discussed. An explanation of the general interactions between plant and parasite is proposed.     

乌天麻与红天麻杂交制种中定植升温时间研究

分析不同升温时间对乌天麻（Gastrodia elata f.glauca）、红天麻（Gastrodia elata f.elata）箭麻生长习性、花期同步及杂交种子发育影响,为早期获得高质量天麻杂交种子材料,促进天麻杂交种高效育苗提供科学依据。对乌天麻和红天麻箭麻不同时间定植升温（22℃）下花茎出苗时间、始花时间、花茎高度、杂交种子质量等进行分析。结果显示,不同升温时间是影响箭麻出苗时间、始花时间的主要因素,乌天麻集中于2月中下旬出苗,红天麻升温10～15 d后陆续出苗;生态变型是影响箭麻生育期长短、花期花朵数的主要因素,乌天麻比红天麻生育期长21.47 d,对花期及蒴果采收期无较大影响,红天麻比乌天麻更易完成抽薹;不同升温时间条件下,乌天麻挂果率为87.76%,红天麻挂果率为94.53%;母本决定杂交种子质量,以红天麻为母本、乌天麻为父本所得杂交种子活性为94.32%,优于以乌天麻为母本、红天麻为父本所得杂交种子活性。因此,生产中应于1月中旬对乌天麻开始升温,待乌天麻出苗后（15 d左右）开始对红天麻升温催芽,使得乌天麻与红天麻于3月中上旬花期同步,4月初可获得优良杂交天麻种子。     

Impact of Crown Rust (Puccinia coronata f. sp. avenae) on Competitive Interactions between Wild Oats (Avena fatua) and Stipa (Nassella pulchra)

Crown rust of oats (Puccinia coronata f. sp. avenae) was investigated as a biocontrol agent for wild oats (Avena fatua) on San Clemente Island, California. Successful restoration of the native habitats of this island will involve the reduction of wild oats and revegetation with native grasses such as stipa (Nassella pulchra). Determination of the outcome of interference between wild oats and stipa is important in the prediction of the success of the biocontrol agent. An addition series design was used to investigate these interactions, with densities of each species ranging from 0 to 2000 seeds per m². Eight replicates were established, four of which were randomly chosen and infected with the pathogen. After 75 days, plant height, dry weight, and seed production were measured. The data were fit to a hyperbola surface model by use of a nonlinear regression procedure. Results indicate that wild oat is the superior competitor at the seedling stage; however, early rust infection greatly reduces fitness of wild oats, causing an increased fitness for stipa. Simulations with a plant community model constructed from the results of the greenhouse experiment and information in the literature indicated that an equilibrium may be established between wild oat and stipa if high initial seeding rates of stipa are used in revegetation.     

Antagonistic effects of soil bacteria onFusarium oxysporum Schlecht f.sp.dianthii (Prill and Del.) Snyd. and Hans.

Summary Thirty two bacteria antagonistic to a number of phytopathogenic fungi were isolated from soil samples. One bacterial strain, designated as M 51, appeared to be particularly active towardsF. oxysporum f. sp.dianthii, in vitro andin vivo and it was inhibitoryin vitro to three otherFusarium spp. used. Tests to find if there was protection against fusarium wilt were carried out by three different methods of inoculation of the cuttings: a) dipping of cuttings for ten minutes in bacterial suspension; b) spraying of suspension on perlite where the rooted cuttings were planted; c) spraying the greenhouse bench rooting boxes, where the non-rooted cuttings were planted, with bacterial suspension. Following this all the cuttings were transplanted into soil naturally highly infested withFusarium oxysporum f. sp.dianthii (3000 units/g). Good protection against fusarium wilt was obtained for cuttings inoculated by method (b). However protection decreased gradually about 60 days after they were transplanted; both control and inoculated cuttings showed a comparable mortality rate. Method of inoculation and the development of the protective effect are discussed.     

Antagonistic effects of soil bacteria onFusarium oxysporum Schlecht f. sp.dianthi (Prill and Del.) Snyd. and Hans

Summary Fusarium oxysporum f. sp.dianthi, pathogenic on carnation plants is very sensitive toBacillus subtilis M51 inhibition.Fusarium oxysporum disease (fusariosis) is prevented for a period of two months after treatment of plants withBacillus subtilis M51. The persistence ofB. subtilis M51, marked for selenomycin resistance (MZ51) and inoculated on the roots of carnation cuttings was studied. Soil used was two types: naturally infested withFusarium oxysporum and free from this pathogen. Bacterial cells presence on the roots was detected by direct plating and the presence of the pathogen in the roots was investigated by histological assays. Evidence gathered by these procedures suggest that plant protection is dependent on the physical presence ofB. subtilis M51 cells on the roots.     

The potential of Ulocladium botrytis for biological control of Orobanche spp.

A strain of Ulocladium botrytis isolated from diseased Orobanche crenata shoots caused disease on the parasitic weed in pathogenicity tests. The potential of the fungus to be developed as a mycoherbicide for Orobanche spp. was further investigated. Although the fungus significantly decreased O. crenata germination in vitro by 80%, it did not generally lead to a decreased number of O. crenata shoots or tubercles in inoculated root chambers or pots. However, the number of diseased or dead tubercles and underground shoots was significantly increased compared to the noninoculated treatments. Postemergence inoculation of O. crenata shoots with a conidial suspension resulted in the death of almost all inoculated plants 14 days after application under greenhouse conditions. In preliminary host-range studies, the pathogen caused disease on Orobanche cumana on sunflower whereas on Orobanche aegyptiaca shoots parasitizing tomato only minimal disease symptoms could be detected after postemergence inoculation. Based on the results of our investigations, we conclude that Ulocladium botrytis has only a limited potential to be used as a biocontrol agent against Orobanche spp.