A Rapid and Efficient Method for In Vitro Screening of Taro for Leaf Blight Disease Caused by Phytophthora colocasiae

Taro leaf blight caused by Phytophthora colocasiae presents the single biggest constraint for taro cultivation globally. To accelerate breeding and selection for disease resistance to leaf blight, it is important to develop bioassays which could differentiate resistant and susceptible cultivars efficiently. In this study, thirty taro accessions and four released cultivars were evaluated for resistance to leaf blight using a modified floating leaf disc assay. A novel method for mass production of P. colocasiae zoospores was developed and used as inoculum for the assay. There were significant (P < 0.05) differences among accessions in their response to P. colocasiae infection in the detached leaf assay. The accessions could be efficiently classified into various resistance groups based on a 0–4 score. Also, the assay results were consistent with the field evaluation scores of taro accessions. Thus, this study reports the development of a rapid, simple and repeatable assay that can be used to screen large numbers of taro cultivars for resistance to P. colocasiae.     

Effect of Fungicide Rate, Spray Interval, Timing of Spray Application, and Precipitation in Relation to Control of Phytophthora Leaf Blight of Taro

Three fungicide rates, 4·48, 2.24, and 1.12 kg peT ha,and four spray intervals, 5^–, 7^–, 10^–, and14-day intervals, were investigated for the control of Phytophthoraleaf blight of taro in a subtropical field environment in Hawaii.The fungicide rate was studied in two separate locations onthe windward sides of the island of Kauai. The fungicide utilizedin these experiments was a co-ordination product of zinc ionand manganese ethylene bisdithiocarbamate (Dithane M-45, 80per cent WP). In the lower rainfall location, there was no differencedue to different fungicide rates while in the wetter location,the 4·48 kg per ha rate gave better control than the1·12 kg per ha rate. There was no significant differencebetween the 5^–, 7^–, and IO-day spray intervals butwhen compared with the 14-day interval, the 5-day interval wassuperior. Periods of increased rainfall were reflected in thefollowing week by increased lesion counts. Present data indicatethat rainfall is a major factor to consider as a basis for predictingdisease was occurrences and may be utilized for planning intervalof fungicide application. The amount of disease was a functionof initial disease levels, rainfall, temperature, relative humidity,fungicide rate, and spray interval between fungicide applications.Applications of fungicide at weekly intervals when weekly rainfallaccumulation exceeded 1 cm per week and/or when lesion countsexceeded more than one per plant gave substantial disease control.Thus, once these parameters of disease have been established,fungicide application could be governed conveniently by monitoringrainfall and disease incidence to achieve practical Phytophthowraleaf blight control. The 2·24 and 4·48 kg ha^-1rates gave significant yield increases over the 1·12and check (no fungicide) treatments where Phytophthora leafblight occurred in epidemic proportions.     

Control Efficacy of Bacillus velezensis AFB2-2 against Potato Late Blight Caused by Phytophthora infestans in Organic Potato Cultivation

Although late blight is an important disease in ecofriendly potato cultivation in Korea, it is highly dependent on the use of eco-friendly agricultural materials and the development of biological control technology is low. It is a necessary to develop an effective biocontrol agent to inactivate late blight in the field. AFB2-2 strain is a gram-positive with peritrichous flagella. It can utilize 20 types of carbon sources, like L-arabinose, and D-trehalose at 35°C. The optimal growth temperature of the strain is 37°C. It can survive at 20–50°C in tryptic soy broth. The maximum salt concentration tolerated by AFB2-2 strain is 7.5% NaCl. AFB2-2 strain inhibited the mycelial growth of seven plant pathogens by an average inhibitory zone of 10.2 mm or more. Among the concentrations of AFB2-2, 10⁷ cfu/ml showed the highest control value of 85.7% in the greenhouse. Among the three concentrations of AFB2-2, the disease incidence and severity of potato late blight at 10⁷ cfu/ml was lowest at 0.07 and 6.7, respectively. The nucleotide sequences of AFB2-2 strain were searched in the NCBI GenBank; Bacillus siamensis strain KCTC 13613, Bacillus velezensis strain CR-502, and Bacillus amyloliquefaciens strain DSM7 were found to have a genetic similarity of 99.7%, 99.7%, and 99.5%, respectively. The AFB2-2 strain was found to harbor the biosynthetic genes for bacillomycin D, iturin, and surfactin. Obtained data recommended that the B. velezensis AFB2-2 strain could be considered as a promising biocontrol agent for P. infestans in the field.     

Biochemical Changes in Leaf Tissues of Taro [Colocasia esculenta L. (Schott)] Infected with Phytophthora colocasiae

The changes in some biochemical parameters due to Phytophthora leaf blight infection were assessed in leaf tissues of one resistant (DP‐25), two moderately resistant (Duradim and Jhankri) and one susceptible (N‐118) genotypes of taro [Colocasia esculenta (L.) Schott]. Phytophthora spore suspension (15 000 spore/ml water) was sprayed onto the in vitro raised taro plantlets at 30 days after establishment in pots to induce disease. In comparison with the uninoculated leaves, blight infected leaves showed reduction in protein content and activity of nitrate reductase and increase in total soluble sugar, reducing sugar content and activities of acid phosphatase and alkaline phosphatase among the studied genotypes. Changes in biochemical parameters under induced blight stress as compared with uninoculated control were less in resistant genotypes than that in susceptible genotype. The deviations in biochemical contents were highest in susceptible genotype N‐118. Based on the variations of above parameters under stress and non‐stress control among the four tested genotypes, the overall pattern of changes was N‐118 > Duradim > Jhankri > DP‐25, which is in accordance with the pattern of increasing resistance. The resistant genotypes could be used for commercial cultivation and genetic improvement programme to develop resistant varieties to Phytophthora leaf blight disease.     

Screening Study of Potential Lead Compounds for Natural Product-based Fungicides Against Phytophthora Species

Phytophthora spp. is one of the phytopathogenic Oomycete responsible for many important crop losses. Relevant species are P. infestans (causing potato late blight) and P. capsici (causing blight in pepper). In recent years, the use of conventional fungicides has favoured the appearance of different resistant strains. This study analyses the effect of various compounds on these two Phytophthora species. Those compounds were designed on the basis of known structures of natural compounds to obtain a rational control of these fungal‐like species. All the analysed products showed a fungistatic activity against both strains, one of them reduced mycelial growth by over 46% at 100 p.p.m.     

Activity of Ten Fungicides against Phytophthora capsici Isolates Resistant to Metalaxyl

Pepper Phytophthora blight (PPB), caused by Phytophthora capsici, is an important disease of pepper in China. The extensive application of metalaxyl has resulted in widespread resistance to this fungicide in field. This study has evaluated the activities of several fungicides against the mycelial growth and sporangium germination of metalaxyl‐sensitive and metalaxyl‐resistant P. capsici isolates by determination of EC₅₀ values. The results showed that the novel carboxylic acid amide (CAA) fungicide mandipropamid exhibited excellent inhibitory activity against PPB both in vitro and in vivo, with averagely EC₅₀ values of 0.075 and 0.004 μg/ml in mycelial growth and sporangium germination, respectively, and over 88% efficacy in controlling PPB. The other three CAA fungicides also provided over 70% efficacy in controlling PPB. The mycelial growth was less sensitive to quinone outside inhibitor (QoI) fungicides azoxystrobin and trifloxystrobin than that of sporangium germination in P. capsici isolates. However, azoxystrobin and trifloxystrobin provided over 80% efficacy in controlling PPB. It was noted that propamocarb and cymoxanil did not exhibit activity against the mycelial growth or sporangium germination of P. capsici isolates in the in vitro tests, with over 70% efficacy in controlling PPB. The new fungicide mixture 62.5 g/l fluopicolide + 625 g/l propamocarb (trade name infinito, 687.5 g/l suspension concentrate (SC)) produced over 88% efficacy in controlling PPB caused by both metalaxyl‐sensitive and metalaxyl‐resistant isolates. The data of this study also proved that there was obviously no cross‐resistance between metalaxyl and the other tested fungicides. Therefore, these fungicides should be good alternatives to metalaxyl for the control of PPB and management of metalaxyl resistance.     

Inhibitory Effect of Paenibacillus polymyxa GBR-462 on Phytophthora capsici Causing Phytophthora Blight in Chili Pepper

In the present work 25 strains of Paenibacillus polymyxa isolated from rotted ginseng roots were screened for their antimicrobial activity against Phytophthora capsici in vitro . Based on antimicrobial activity, 15 strains categorized as strongly antimicrobial, among them GBR-462 was found as the most active, and five strains each as weekly antimicrobial and no antimicrobial. Antimicrobial activity was influenced by the initial inoculum density, as strains of P. polymyxa with a strong antimicrobial activity (including P. polymyxa GBR-462) showed the antimicrobial activity against P. capsici and could form biofilm only when they were applied at the higher initial inoculums, 10⁸ cfu/ml. No inhibitory effect was noted on the mycelial growth and zoospore germination of the pathogen when applied at the lower inoculum density of 10⁶ cfu/ml of P. polymyxa GBR-462. However, sporangium formation and zoospore release was significantly inhibited at the lower inoculum density. Also light and electron microscopy revealed the structures of sporangia aberrant with no or few healthy nuclei, indicating sporangium and zoospore formation inhibited at the lower inoculum density. Application of P. polymyxa GBR-462 into potted soil suppressed disease progression as well as disease severity; disease severity was reduced by 30% as compared to untreated pots, suggesting P. polymyxa GBR-462 could be a potential biocontrol agent against Phytopthora capsici .     

Control of Late Blight (Phytophthora capsici ) in Pepper Plant with a Compost Containing Multitude of Chitinase-producing Bacteria

Compost sustaining a multitude of chitinase-producing bacteria was evaluated in a greenhouse study as a soil amendment for the control of late blight (Phytophthora capsici L.) in pepper (Capsicum annuum L.). Microbial population and exogenous enzyme activity were measured in the rhizosphere and correlated to the growth and health of pepper plant. Rice straw was composted with and without a chitin source, after having been inoculated with an aliquot of coastal area soil containing a known titer of chitinase-producing bacteria. P. capsici inoculated plants cultivated in chitin compost-amended soil exhibited significantly higher root and shoot weights and lower root mortality than plants grown in pathogen-inoculated control compost. Chitinase and β-1,3-glucanase activities in rhizosphere of plants grown in chitin compost-amended soil were twice that seen in soil amended with control compost. Colony forming units of chitinase-producing bacteria isolated from rhizosphere of plants grown in chitin compost-amended soil were 10³ times as prevalent as bacteria in control compost. These results indicate that increasing the population of chitinase-producing bacteria and soil enzyme activities in rhizosphere by compost amendment could alleviate pathogenic effects of P. capsici.     

肉桂醛对增强辣椒疫霉病抗性的作用机制研究

该实验以辣椒疫霉菌(Phytophthora capsici)致病性菌株NJ01和‘苏椒5号’辣椒幼苗为研究对象,通过肉桂醛对辣椒疫霉菌的体外抑菌作用、室内侵染效果以及对辣椒幼苗防卫反应的调控作用,揭示肉桂醛对增强辣椒疫霉病抗性的作用机制。结果表明:(1)肉桂醛对实验所用致病性菌株NJ01的抑制中浓度(EC50)值为0.81mmol/L;肉桂醛处理可导致NJ01菌丝严重皱缩、畸形、断裂;PI染色显示NJ01菌丝出现明显的细胞死亡现象。(2)单独NJ01菌株接种的辣椒植株表现出明显病症(茎基部变黑褐色、干枯萎缩,植株倒伏,叶片脱落,生物量下降);而肉桂醛处理2h后接种NJ01菌株的辣椒植株长势良好,无明显病症,鲜重和叶绿素含量显著上升至对照水平。(3)与单独接种NJ01菌株处理相比,肉桂醛处理2h后接种NJ01菌株的辣椒植株体内抗氧化酶(CAT、SOD、POD)活性显著上升,抗氧化物质(GSH和ASA)含量显著增加。研究认为,肉桂醛可能通过抑制辣椒疫霉菌的生长及其对辣椒植株的侵染能力,同时调控辣椒植株防卫反应,进而提高辣椒对疫病抗性。     

Isolation and Identification of Bacillus amyloliquefaciens IBFCBF‐1 with Potential for Biological Control of Phytophthora Blight and Growth Promotion of Pepper

In this study, 76 bacterial strains were isolated from the rhizosphere soil of pepper. Of these, 23 bacterial isolates capable of inhibiting Phytophthora capsici growth were selected. Among the antagonistic bacteria, one strain, IBFCBF‐1 showed the strongest antagonistic activity, and was identified as Bacillus amyloliquefaciens based on the results of 16S rRNA gene sequence analysis, physiological and biochemical testing, and morphological characteristics. When tested with a dual‐culture method and with laboratory greenhouse studies, the strain IBFCBF‐1 was found to be a potential biocontrol agent for controlling the plant pathogen, P. capsici. Moreover, it showed high efficiency and broad‐spectrum antifungal properties in vitro. Under greenhouse conditions, IBFCBF‐1 could significantly promote the growth of pepper seedlings, and was able to solubilize phosphate, and produce indole acetic acid (IAA) and ammonia. This study clearly demonstrated that IBFCBF‐1 is a potential candidate exhibiting phytophthora blight‐suppressive and plant growth‐promoting effects on pepper.     

Bacterial Antagonist as Seed Treatment to Control Leaf Blight Disease of Bambara Groundnut (Vigna subterranea)

Summay Soil samples were taken from 48 fields in the southern part of Thailand in which either bambara groundnut (Vigna subterranea) or groundnut (Arachis hypogeae) had been planted. Bacillus spp. were isolated using soil dilution plates and heat treatment to screen for endospore-producing bacteria. Among 342 Bacillus spp. isolates tested, 168 isolates were not antagonistic to Bradyrhizobium sp. strain NC-92 using dual culture technique. Further testing found 16 isolates of Bacillus spp. had the ability to inhibit mycelial growth of Rhizoctonia solani, a causal agent of leaf blight of bambara groundnut. Among these isolates, Bacillus spp. isolate TRV 9-5-2 had the greatest activity in anti-microbial tests against R. solani. This isolate was later identified as B. firmus. A powder formulation of B. firmus was developed by mixing bacterial endospores, talcum, sodium carboxymethylcellulose (SCMC) and polyvinylpyrolidone (PVP). The formulations contained bacterial levels ranging from 10⁸ to 10¹⁰ c.f.u./g and the viability of bacteria in all formulations remained high after 1 year storage at room temperature (26–32 °C). All formulations showed satisfactory effectiveness in vitro in suppressing mycelial growth of R. solani using dual culture technique. The application of formulations as seed treatment showed that these formulations did not cause abnormality of seedling shape and had no effect on the germination of bambara groundnut seeds.     

鸭跖草生防菌叶点霉F-3菌株生物学特性的研究

主要研究影响鸭跖草生防菌叶点霉菌株菌丝生长和孢子萌发的条件。研究表明,PDA培养基和鸭跖草培养基是该菌生长的适宜培养基,该菌生长的温度范围为20~35℃,最适温度为25℃,分生孢子萌发的温度范围为25~35℃,最适温度为30℃;pH为6时生长最快,偏酸偏碱有利于孢子的萌发,在pH为10时萌发最好。F-3菌株在供试的6种碳源中生长速度相差不大,在不同氮源中差异显著,以硝酸铵为氮源生长最好。     

云南“大粒水稻”对稻白叶枯病的抗性遗传

云南地方品种——云南大粒抗水稻白叶枯病菌“江陵691”,其抗性由2对具重叠作用的隐性抗性基因控制,与IR28、南粳15的显性抗病基因不等位;也与已命名的xa-5、xa-8、xa-9和xa-13 4个抗性基因也不等位。     

Susceptibility of Rubus Species and Cultivars to Blackberry Leaf Rust (Phragmidium violaceum) and its Control by Fungicides

Rubus cultivars were compared with R. procerus for their susceptibility to Phragmidium violaceum, a pathogen first recorded in Victoria in February 1984, by inoculation of detached leaflets in the laboratory. The cultivar ‘Thornless Evergreen’ was highly susceptible. Cultivars ‘Thornfree’, ‘Dirksen Thornless’ and ‘Smoothstem’ were moderately susceptible whilst cvs ‘Silvan’ and ‘Lawtonberry’ were resistant. Cultivars ‘Cherokee’, ‘Cheyenne’, ‘Comanche’, ‘Marionberry’, ‘Boysenberry’, ‘Youngberry’, and ‘Olallie’ were highly resistant. ‘Loganberry’ and the raspberry cv. ‘Malling Landmark’ were immune. Seven fungicides were evaluated for their effect on P. violaceum. Mancozeb and triforine were the most effective against spore germination in vitro. RH 3866, triforine, propiconazole and mancozeb were the most effective in protective tests on detached leaflets of R. procerus, while RH 3866, propiconazole and flutriafol were the most effective in similar, curative tests. Phytotoxicity on detached leaflets was severe at high concentrations of triadimefon and propiconazole, and moderate to slight at similar concentrations of RH 3866 and copper hydroxide.