Powder formulation of Burkholderia cepacia for control of rape seed damping-off caused by Rhizoctonia solani

Talc-based formulation of Burkholderia cepaci strain Bu1 was tested as seed and soil drenchs separately for its ability to control Rhizoctonia soloni the causal agent of rape seed damping-off in greenhouse and field trials. In general, the formulated bacteria was more effective to suppress the disease than the suspension of bacteria cells in carboxymethylcellulose solution (1% w/v), in both greenhouse and field trials. The formulation of strain Bul as soil and seed treatments had the greatest effect on reducing the rape seed damping-off in greenhouse and field trials (66.7, 53.3, 64.4 and 40% respectively). The formulation of strain Bu1 as soil and seed treatments were the most effective treatments to increase the root dry weights in the infected soil in greenhouse. The formulation of strain Bul as soil drench had the greatest effect on enhancement of the fresh weight of roots and stem fresh and dry weights. The formulation of strain Bu1 stored at 4 degrees C exhibited better shelf Life and efficacy in vitro than it's counterpart stored at 25 degrees C.     

内生拮抗细菌在哈密瓜植株体内的传导定殖和促生作用研究

采用抗生素标记的方法研究了内生拮抗细菌P38和B167菌株在哈密瓜植株体内的定殖动态和对植株生长的影响.结果表明,接种方法显著影响P38菌株在植株体内的定殖和传导,并以浸种处理最佳,蘸根和灌根处理次之,喷叶处理最差;浸种可使P38菌株在根、茎、叶中良好传导和稳定定殖,随着植株的生长,根内菌量呈下降趋势,而茎、叶内的含菌量先上升后下降;P38菌株还具有促进哈密瓜种子萌发和植株生长的作用.B167菌株只在根内定殖,在体内的扩展性较差,不能进入叶片;它对植株的生长表现出一定的抑制作用.     

Selection of antagonists of postharvest apple parasites: Penicillium expansum and Botrytis cinerea

The objectives of this study were to constitute a collection of pathogenic agents of economic importance which cause losses of apple fruits after harvest namely Botrytis cinerea and Penicillium expansum and to select in vivo efficient antagonistic strains able to protect fruits against both pathogens at 5 degrees C (P. expansum) and 25 degrees C (P. expansum & B. cinerea). Twenty strains of P. expansum and ten strains of B. cinerea have been isolated from infected apple fruits. Potential antagonistic micro-organisms (thirty three isolates) belonging to yeast, bacteria and fungi have been isolated from apple surface. Six of them (strains Ach1-1, Ach2-1, Ach2-2 belonging to Aureobasidium pullulans (De Bary) Arnaud, and strains 1112-3, 1113-10 and 1113-5 belonging to Aureobasidium pullulans (de Bary) Am. v. pullulans) showed a high level of protection (more than 80%) at 25 degrees C. once inoculated with P. expansum or B. cinerea for 5 days. The highest level of protection against P. expansum (96%) was observed with the application of Ach 2-1. Six days after inoculation of B. cinerea, strains Ach 2-2 and Ach 2-1 insured 100% and 96% of protection, respectively. At lower temperature (5 degrees C), first symptoms of P. expansum appeared 13 days after its inoculation. Percentages of protection observed after apple treatment with one of the six antagonistic strains were ranged from 78% to 94% 20 days after P. expansum inoculation. Strains labelled Ach showed a protective level higher than 90% against this pathogen, followed by strain 1113-10 (90%), strain 1113-5 (89%) and strain 1112-3 (82%). At 26 days post-inoculation, levels of protection decreased but remained higher than 60% (more than 80% with strain Ach2-2 and strain 1113-5, 75% with strain Ach2-1 and 1113-10, 72% with ach1-1, 61% for the other strains). Strain Ach2-2 and 1113-10 were retained as the best antagonists for the subsequent studies.     

Evaluation of Biological and Chemical Treatments for Control of Crown Gall on Young Apple Trees in the Kootenay Valley of British Columbia

Field trials at Creston in 1988, 1989, and 1990 on silty loam soil naturally infested with Agrobacterium tumefaciens showed that Agrobacterium radiobacter strain K84 did not control crown gall on young Antonovka apple trees when apphed as a root-dip treatment. Copper oxychloride applied as a root-dip treatment at 2.5 and 5.0 g ai/1 and sewage sludge applied at 260 g per tree as broadcast were effective in reducing crown gall infection but these treatments were toxic to young apple trees in 1989. Lower rates of copper oxychloride, 0.3, 0.6 and 0.9 g ai/1, and sewage sludge at 130 g per tree, did not control crown gall in the 1990 field trial. The biological treatment with the strain AB8 of Bacillus subtilis applied as a root-dip effectively controlled crown gall and was not phytotoxic to young Antonovka apple trees. These results suggest that strain AB8 of B. subtilis has the potential to control crown gall on young apple trees under field conditions.     

Effect of transferring 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase genes into Pseudomonas fluorescens strain CHA0 and its gacA derivative CHA96 on their growth-promoting and disease-suppressive capacities

Pseudomonas fluorescens strain CHA0, a root colonizing bacterium, has a broad spectrum of biocontrol activity against plant diseases. However, strain CHA0 is unable to utilize 1-aminocyclopropane-1-carboxylic acid (ACC), the immediate precursor of plant ethylene, as a sole source of nitrogen. This suggests that CHA0 does not contain the enzyme ACC deaminase, which cleaves ACC to ammonia and alpha-ketobutyrate, and was previously shown to promote root elongation of plant seedlings treated with bacteria containing this enzyme. An ACC deaminase gene, together with its regulatory region, was transferred into P. fluorescens strains CHA0 and CHA96, a global regulatory gacA mutant of CHA0. ACC deaminase activity was expressed in both CHA0 and CHA96. Transformed strains with ACC deaminase activity increased root length of canola plants under gnotobiotic conditions, whereas strains without this activity had no effect. Introduction of ACC deaminase genes into strain CHA0 improved its ability to protect cucumber against Pythium damping-off, and potato tubers against Erwinia soft rot in small hermetically sealed containers. In contrast, ACC deaminase activity had no significant effect on the ability of CHA0 to protect tomato against Fusarium crown and root rot, and potato tubers against soft rot in large hermetically sealed containers. These results suggest that (i) ACC deaminase activity may have lowered the level of plant ethylene thereby increasing root length; (ii) the role of stress-generated plant ethylene in susceptibility or resistance depends on the host-pathogen system, and on the experimental conditions used; and (iii) the constructed strains could be developed as biosensors for the role of ethylene in plant diseases.     

Biological Control of Crown Gall in Grapevine and Raspberry by Two Pseudomonas spp. with a Wide Spectrum of Antagonistic Activity

Pseudomonas aureofaciens B-4117 and P. fluorescens CR330D inhibited the growth of a wide range of plant pathogens, including Agrobacterium tumefaciens , when tested on agar media. In a series of nursery-based trials with natural pathogen inoculum, application of either B-4117 or CR330D significantly reduced the incidence and severity of crown gall caused by A. tumefaciens on grapevine and raspberry. The extent of disease control depended upon the variety tested. Both bacteria reduced disease during seedling root production and grafting. The disease incidence on root cuttings of three grapevine varieties was reduced by 56-80% and the disease severity index (DSI) was decreased by 75-86%. Depending on the scion variety, the number of healthy rooted grafts increased by 2-3.5-fold, while the DSI was reduced by 1.5-3-fold. The results suggest that there is potential in using these antagonists to diminish the influence of latent rootstock infection on graft sensitivity to crown gall. Pretreatment of rooted raspberry seedlings with P. aureofaciens B-4117 prevented the development of crown galls caused by A. tumefaciens strain K24 or by a mixture of A. tumefaciens pathogenic strains previously isolated from raspberry. Both Pseudomonas spp. persisted on the root surfaces of inoculated vine cuttings and in non-sterile soil. The advantages of using the antagonistic bacteria as biocontrol agents of crown gall are discussed.     

Bacterial antagonists of Sunflower (Helianthus annuus L.) fungal pathogens

Bacteria isolated on nutrient agar and King's medium B from sunflower leaves, crown and roots inhibited in vitro growth of the leaf spot and wilt pathogens Alternaria helianthi, and Sclerotium rolfsii, respectively, and also the root rot pathogensRhizoctonia solani and Macrophomina phaseolina. Antagonistic bacteria from leaves were mainly actinomycetes and pigmented Gram-positive bacteria, while those from roots and crowns were identified asPseudomonas fluorescens-putida, P. maltophilia, P. cepacia, Flavobacterium odoratum andBacillus sp. In soil bioassays, when used as seed inoculum in the presence ofS. rolfsii, P. cepacia strain N24 increased significantly the percentage of seedling emergence. Bacterial strains which exhibited broad spectrum in vitro antagonistic activity were tested for colonisation of sunflower roots, when used as a seed inoculum. Good colonisers (10⁴ to 10⁶ bacteria/g root) were consistent in their ability to reduce disease and fungal wilt. A seedling having a primary root length < 5 cm with fewer lateral roots, necrosed cotyledons or crown and a wilted shoot indicated its diseased status. On an average, only 30% of seedlings were diseased when treated with the antagonistic strains, in the presence of the pathogen, while 60% of the seedlings were diseased in the presence of the pathogen alone. In microplots treated with strain N24, only 1 to 3% of the seedlings were wilted, while 14% of the seedlings were wilted in the presence of the pathogen alone. The results obtained show that bacterial antagonists of sclerotial fungi can be used as seed inocula to improve plant growth through disease suppression     

Evaluation of <Emphasis Type="Italic">Volvariella volvacea</Emphasis> Strains for Yield and Diseases/Insect-Pests Resistance Using Composted Substrate of Paddy Straw and Cotton Mill Wastes

Out of the 3 parent strains and 4 single spore isolates of Volvariella volvacea evaluated, strain, OE-274 gave earliest yield in 11.25–11.50 days post-spawning in all 4 trials. The yield varied in different strains in different trials and it was highest in strain, OE-272 in trial 1, SSI, OE-55-08 in trial 2, and strain, OE-274 in trial 3 and 4. In overall average, highest yield was in strain, OE-272, closely followed by strain, OE-274. The number of fruiting bodies per q substrate also varied in different strains in different trials. Highest numbers were in strain, OE-272, SSIs, OE-55-08 and OE-12-22, and strain, OE-210 in trial 1, 2, 3 and 4, respectively. Highest fruiting body wt was in strain, OE-274 in all 4 trials. The yield during different weeks of cropping varied in different strains but invariably it was highest in first week, which accounted for 60–70% of the total yield. The fruiting bodies of strain, OE-274 were of bigger size, brownish, toughest and with least tendency of veil opening, while that of strain, OE-272 and SSI, OE-55-08 were whitish to grayish-white, oblong, medium size, delicate and lesser tendency of veil opening. The strain, OE-274 and SSI, OE-55-08 exhibited higher resistance against the growth of competitor moulds and infestations of insect-pests, while strain, OE-272 exhibited highest susceptibility to insect-pests infestation.     

Composts containing fluorescent pseudomonads suppress fusarium root and stem rot development on greenhouse cucumber

Three composts (Ball, dairy, and greenhouse) were tested for the ability to suppress the development of Fusarium root and stem rot (caused by Fusarium oxysporum f. sp. radicis-cucumerinum) on greenhouse cucumber. Dairy and greenhouse composts significantly reduced disease severity (P = 0.05), while Ball compost had no effect. Assessment of total culturable microbes in the composts showed a positive relationship between disease suppressive ability and total population levels of pseudomonads. In vitro antagonism assays between compost-isolated bacterial strains and the pathogen showed that strains of Pseudomonas aeruginosa exhibited the greatest antagonism. In growth room trials, strains of P. aeruginosa and nonantagonistic Pseudomonas maculicola, plus 2 biocontrol strains of Pseudomonas fluorescens, were tested for their ability to reduce (i) survival of F. oxysporum, (ii) colonization of plants by the pathogen, and (iii) disease severity. Cucumber seedlings grown in compost receiving P. aeruginosa and P. fluorescens had reduced disease severity index scores after 8 weeks compared with control plants without bacteria. Internal stem colonization by F. oxysporum was significantly reduced by P. aeruginosa. The bacteria colonized plant roots at 1.9 × 10(6) ± 0.73 × 10(6) CFU·(g root tissue)-1 and survival was >107 CFU·(g compost)-1 after 6 weeks. The locus for 2,4-diacetylphloroglucinol production was detected by Southern blot analysis and confirmed by PCR. The production of the antibiotic 2,4-diacetylphloroglucinol in liquid culture by P. aeruginosa was confirmed by thin layer chromatography. These results demonstrate that composts containing antibiotic-producing P. aeruginosa have the potential to suppress diseases caused by Fusarium species.     

韭菜根蛆的发生危害及综合防治技术研究——公益性行业(农业)科研专项“作物根蛆类害虫综合防治技术研究与示范”进展

针对我国根蛆类害虫严重危害葱蒜类蔬菜作物,特别在韭菜上问题突出的现状,项目开展了根蛆的生物学和生态学、种群规律、单项防治技术及综合防治技术的研究与示范工作。明确了我国大部分地区韭菜上的根蛆主要是韭菜迟眼蕈蚊Bradysiaodoriphaga Yang et Zhang,在甘肃和辽宁地区的优势种为异迟眼蕈蚊B.difformis Frey。采用黄板诱集成虫结合挖根查幼虫的方法,明确了华北、东北、西北和华东地区根蛆在田间的发生规律。根蛆不耐高温耐低温,春、秋和冬季发生严重,在夏季有转主危害的趋势,冬季以老熟幼虫在0~5 cm土层中越冬。蕈蚊成虫对黑色和棕色趋性最强,研发出特异性的黑色粘虫板。覆盖50~60目防虫网对根蛆的防效最佳,且对韭菜生长有促进作用。建立了蕈蚊成虫的优势捕食性天敌——瘦弱秽蝇Coenosia attenuata的饲养技术和田间应用技术,筛选出了对蕈蚊幼虫高致病力的昆虫病原线虫和Bt菌株,田间防效达60%以上。研发出保护地灌溉臭氧水、减量施药和喷淋施药等轻简化的根蛆防治技术10项。根据不同地区韭菜的种植习惯和根蛆的发生特点,在辽宁、河北、山东、甘肃等地建立了区域性的根蛆类害虫综合防治技术,建立核心示范区10个,进行技术培训5 000人次,取得了一定的经济、社会和生态效益。     

菊粉酶产生菌的筛选及60Co诱变选育简

目的：从新疆石河子盐碱地菊芋生长根际土壤中分离筛选高产菊粉酶活力菌株。方法：通过稀释平板涂布法分离微生物;利用^60Co诱变选育,96孔板筛选突变菌株;采用3,5-二硝基水杨酸比色法测定菊粉酶酶活。结果：分离到12株具有菊粉酶活力的菌株,复筛得到1株高产菊粉酶活力菌株,将其命名为G-60;以此菌株为出发菌株进行^60Co诱变,利用96孔板对诱变菌株进行筛选,经摇瓶发酵酶活测定,得到1株高产菊粉酶酶活的突变株,酶活达46．62U/mL,是未诱变菌株酶活的2．72倍。结论：经诱变得到1株高产菊粉酶活力的突变菌株。     

Fermentation of molasses by Zymomonas mobilis: effects of temperature and sugar concentration on ethanol production

Fermentations utilizing strains of Zymomonas mobilis, in place of the traditional yeasts, have been proposed due their ethanol yields being close to theoretical. Ethanol production from sugar cane molasses was analyzed under different culture conditions using Z. mobilis in batch fermentation. The total reducing sugars (TRS) concentrations in the molasses, temperature, agitation and culture time effects were studied simultaneously through factorial design. The best conditions for ethanol production were 200 g L(-1) of total reducing sugars in the molasses, temperature of 30 degrees C and static culture and time of fermentation of 48 h, achieving 55.8 g L(-1). The pH of the medium was kept constant during the experiments, showing that molasses presents a buffering effect.     

Use of Rhizobacteria in the Control of Root Rot–Root Knot Disease Complex of Mungbean

Thirty-two isolates of Pseudomonas aeruginosa and a Bacillus subtilis strain were isolated from rhizosphere and rhizoplane of four wild and 15 cultivated plants. Biocontrol and growth-promoting potentials of the bacterial isolates were tested under laboratory, greenhouse and field conditions. The bacterial isolates not only exhibited nematicidal activity by killing the second stage larvae of Meloidogyne javanica to a varying degree but also produced inhibition zones by inhibiting the radial growth of Macrophomina phaseolina, Fusarium solani and Rhizoctonia solani . Strain IE-2 and IE-6 of P. aeruginosa also lysed the fungal mycelium. P. aeruginosa and B. subtilis used as seed dressing or as soil drench significantly suppressed root rot–root knot infection and nematode population densities under greenhouse and field conditions and thereby enhanced plant growth and yield in mungbean.     

Characterization of high temperature-tolerant rhizobia isolated from Prosopis juliflora grown in alkaline soil

A method was developed for the fast screening and selection of high-temperature tolerant rhizobial strains from root nodules of Prosopis juliflora growing in alkaline soils. The high-temperature tolerant rhizobia were selected from 2,500 Rhizobium isolates with similar growth patterns on yeast mannitol agar plates after 72 h incubation at 30 and 45 degrees C, followed by a second screening at 47.5 degrees C. Seventeen high-temperature tolerant rhizobial strains having distinguishable protein band patterns were finally selected for further screening by subjecting them to temperature stress up to 60 degrees C in yeast mannitol broth for 6 h. The high-temperature tolerant strains were NBRI12, NBRI329, NBRI330, NBRI332, and NBRI133. Using this procedure, a large number of rhizobia from root nodules of P. juliflora were screened for high-temperature tolerance. The assimilation of several carbon sources, tolerance to high pH and salt stress, and ability to nodulate P. juliflora growing in a glasshouse and nursery of the strains were studied. All five isolates had higher plant dry weight in the range of 29.9 to 88.6% in comparison with uninoculated nursery-grown plants. It was demonstrated that it is possible to screen in nature for superior rhizobia exemplified by the isolation of temperature-tolerant strains, which established effective symbiosis with nursery-grown P. juliflora. These findings indicate a correlation between strain performance under in vitro stress in pure culture and strain behavior under symbiotic conditions. Pure culture evaluation may be a useful tool in search for Rhizobium strains better suited for soil environments where high temperature, pH, and salt stress constitutes a limitation for symbiotic biological nitrogen fixation.     

Nitrogen-fixing pseudomonads isolated from roots of plants grown in the canadian high arctic

Root-associated bacteria capable of reducing acetylene to ethylene (biological nitrogen fixation) were isolated from various native plants grown in the Canadian High Arctic. All the strains belonged to the genus Pseudomonas but varied in several physiological characteristics. The rates of acetylene reduction at 14 or 20 degrees C were higher than at 25 or 9 degrees C. Six strains reduced acetylene at 4 degrees C. All the strains exhibited chemotaxis to l-asparagine in semisolid agar at 4 to 25 degrees C. Eleven strains colonized roots of canola (Brassica campestris cv. Tobin) in field soil at population densities of log 4.3 to log 5.1 CFU/g of fresh root at 14 degrees C and log 4.0 to log 5.2 CFU/g of fresh root at 25 degrees C. Some of these nitrogen-fixing pseudomonad strains demonstrated a competitive advantage for root colonization over other rhizosphere bacteria at low temperatures. The combined capabilities of nitrogen fixation and root colonization by diazotrophic pseudomonads may be useful for the development of a biofertilizer inoculant for temperate and cold regions.     

Efficacy of hot water drenches of Anthurium andraeanum plants against the burrowing nematode Radopholus similis and plant thermotolerance

Hot‐water drench treatments were evaluated for disinfesting roots of potted anthurium Anthurium andraeanum of the burrowing nematode Radopholus similis. A continuous drench of roots and media in pots with 50°C water for 5 to 20 min eliminated or reduced nematode populations to < 1 g^?1 of dry root. A second hot water drench, 2 months after the first drenching, tended to increase the efficacy of the heat treatment. A few survivors persisted in the roots and/or stems of a few plants 2 to 4 months after heat treatment. Non‐treatment of the shoots and possible migration from stem to root tissues are probable causes of nematode survival. Drenching potting media and roots in pot were as effective against R. similis in the roots as hot water dipping bare‐rooted plants. Plant response to hot‐water drenching varied among cultivars, but most exhibited tolerance to the heat treatments. Visual inspection of the plants showed little difference between treated and untreated plants in the heat tolerant cultivars. However, all heat‐treated ‘Marian Seefurth’ plants, especially hot water‐dipped bare‐rooted plants, appeared to suffer some degree of growth reduction as measured by lower root and stem dry weights when compared to untreated plants 3 months after treatment. Conditioning anthurium plants with hot water or hot air prior to hot water drenching did not benefit plant quality when compared to unconditioned, heat‐treated plants.     

Isolation of thermotolerant ethanologenic yeasts and use of selected strains in industrial scale fermentation in an Egyptian distillery

An enrichment and isolation program for new ethanol-producing thermotolerant yeasts as well as a screening program of some known thermotolerant strains resulted in the selection of several strains capable of growth at 40-43 degrees C. Among these strains four grew and fermented sugar cane molasses at 43 degrees C under batch conditions with sugar-conversion efficiencies >94% and ethanol concentrations 6.8-8.0% (w/v). The two best-performing strains, a Saccharomyces cerevisiae F111 and a Kluyveromyces marxianus WR12 were used in eight 87.5 m(3) fermentation runs (four using each strain) for industrial ethanol production in an Egyptian distillery using sugar cane molasses. Mean ethanol production was 7.7% and 7.4% (w/v), respectively, with an added advantage of cooling elimination during fermentation and higher ethanol yields compared to the distillery's S. cerevisiae SIIC (ATCC 24855) strain in use. The isolate S. cerevisiae F111 was subsequently adopted by the distillery for regular production with significant economical gains and water conservation.     

Virulence of entomopathogenic nematodes to Diaprepes abbreviatus (Coleoptera: Curculionidae) in the laboratory

The Diaprepes root weevil, Diaprepes abbreviatus (L.) is the most severe weevil pest in Florida citrus. Entomopathogenic nematodes have effectively suppressed larval populations of D. abbreviatus. Our objective was to conduct a broad laboratory comparison of entomopathogenic nematodes for virulence toward larvae of D. abbreviatus. The study was conducted at three temperatures (20, 24, and 29 degrees C) and included nine entomopathogenic species and 17 strains: Heterorhabditis bacteriophora Poinar (Baine, NJl, Hb, Hbl, HP88, and Lewiston strains), H. indica Poinar, Karunakar & David (original and Homl strains), H. marelatus Liu & Berry (IN and Point Reyes strains), H. megidis Poinar, Jackson & Klein (UK21l strain), H. zealandica Poinar (NZH3 strain), Steinernema riobrave Cabanillas, Poinar & Raulston (355 strain), S. carpocapsae (Weiser) (All strain), S. feltiae (Filipjev) (SN and UK76 strains), and S. glaseri (Steiner) (NJ43 strain). At 20 degrees C, the greatest mortality was caused by S. riobrave although it was not significantly greater than H. bacteriophora (Baine), H. bacteriophora (Hb), H. bacteriophora (Hbl), and H. indica (original). At 24 and 29 degrees C, S. riobrave caused greater larval mortality than other nematodes tested. Two strains of H. indica, H. bacteriophora (Baine), and S. glaseri were next in terms of virulence at 29 degrees C. Our results suggest that S. riobrave has the greatest potential for control of D. abbreviatus.     

Influence of Plant Root Exudates, Germ Tube Orientation and Passive Conidia Transport on Biological Control of Fusarium Wilt by Strains of Nonpathogenic Fusarium oxysporum

In earlier studies, biological control of Fusarium wilt of cucumber induced by Fusarium oxysporum f. sp. cucumerinum was demonstrated using nonpathogenic strains C5 and C14 of Fusarium oxysporum. Strain C14 induced resistance and competed for infection sites whether roots were wounded or intact, whereas strain C5 required wounds to achieve biocontrol. In the current work, additional attributes involved in enhanced resistance by nonpathogenic biocontrol agents strains to Fusarium wilt of cucumber and pea were further investigated. In pre-penetration assays, pathogenic formae specials exhibited a significantly higher percentage of spore germination in 4-day-old root exudates of cucumber and pea than nonpathogens. Also, strain C5 exhibited the lowest significant reduction in spore germination in contrast to strain C14 or control. One-day-old cucumber roots injected with strain C14 resulted in significant reduction in germ tube orientation towards the root surface, 48–96 h after inoculation with F. o. cucumerinum spores, whereas strain C5 induced significantly lower spore orientation of the pathogen and only at 72 and 96 h after inoculation. In post-penetration tests, passive transport of microconidia of pathogenic and nonpathogens in stems from base to apex were examined when severed plant roots were immersed in spore suspension. In repeated trials, strain C5, F. o. cucumerinum and F. o. pisi were consistently isolated from stem tissues of both cucumber and pea at increasing heights over a 17 days incubation period. Strain C14 however, was recovered at a maximum translocation distance of 4.6 cm at day 6 and later height of isolation significantly declined thereafter to 1.2 cm at day 17. In pea stem, the decline was even less. Significant induction of resistance to challenge inoculation by the pathogen in cucumber occurred 72 and 96 h after pre-inoculation with biocontrol agents. Nonetheless, strain C14 induced protection as early as 48 h and the maximum resistance was reached at 96 h. The presented data confirm the previous findings that attributes important for nonpathogenic fusaria to induce resistant are: rapid spore germination and orientation in response to root exudate; active root penetration and passive conidia transport in stem to initiate defence reaction without pathogenicity and enough lag period between induction and challenge inoculation. Strain C14 possesses all these qualifications and hence its ability to enhance host resistance is superior than strain C5.     

Enrichment and identification of bacteria capable of reducing chemical oxygen demand of anaerobically treated molasses spent wash

AIMS: The aim of this study was to isolate and identify bacterial strains capable of using recalcitrant compounds of molasses spent wash as sole carbon source from the soils of abandoned sites of distillery effluent discharge and characterize their ability of reducing the chemical oxygen demand (COD) of the spent wash. METHODS AND RESULTS: The isolates were grouped into six haplotypes by amplified ribosomal DNA restriction analysis (ARDRA) and BOX-PCR. The phylogenetic position of the representatives of the six main haplotypes strains was determined by 16S rDNA sequencing. They showed maximum similarity to six genera viz. Pseudomonas, Enterobacter, Stenotrophomonas, Aeromonas, Acinetobacter and Klebsiella. The extent of COD (44%) reduced collectively by the six strains was equal to that reduced individually by Aeromonas, Acinetobacter, Pseudomonas and Enterobacter. With spent wash as sole carbon source, the COD reducing strains grew faster at 37 degrees C than 30 degrees C. CONCLUSIONS: Bacterial strains capable of degrading some of the recalcitrant compounds of anaerobically digested molasses spent wash can be isolated from the soils of abandoned sites of distillery effluent discharge. Biostimulation of these bacteria, which can degrade 44% of the carbon compounds of anaerobically digested molasses spent wash can be achieved by nitrogen fertilization and relatively higher temperature. SIGNIFICANCE AND IMPACT OF THE STUDY: Supplementation of nitrogen source and controlling the temperature can be used in evolving strategies for in situ bioremediation of anaerobically digested spent wash from distilleries.