Inhibitory effect of ACC deaminase‐producing bacteria on crown gall formation in tomato plants infected by Agrobacterium tumefaciens or A. vitis

This study showed that various rhizosphere bacteria producing the enzyme 1‐aminocyclopropane‐1‐carboxylate (ACC) deaminase (ACCD), which can degrade ACC, the immediate precursor of ethylene in plants, and thereby lower plant ethylene levels, can act as promising biocontrol agents of pathogenic strains of Agrobacterium tumefaciens and A. vitis. Soaking the roots of tomato (Solanum lycopersicum) seedlings in a suspension of the ACCD‐producing Pseudomonas putida UW4, Burkholderia phytofirmans PsJN or Azospirillum brasilense Cd1843 transformed by plasmid pRKTACC carrying the ACCD‐encoding gene acdS from UW4, significantly reduced the development of tumours on tomato plants injected 4–5 days later with pathogenic Agrobacterium strains via wounds on the plant stem. The fresh mass of tumours formed by plants pretreated with ACCD‐producing strains was typically four‐ to fivefold less than that of tumours formed on control plants inoculated only with a pathogenic Agrobacterium strain. Simultaneously, the level of ethylene evolution per amount of tumour mass on plants pretreated with ACCD‐producing bacteria decreased four to eight times compared with that from tumours formed on control plants or plants pretreated with bacteria deficient in ACCD production. Moreover, transgenic tomato plants expressing a bacterial ACCD were found to be highly resistant to crown gall formation relative to the parental, non‐transformed tomato plants. The results support the hypothesis that ethylene is a crucial factor in Agrobacterium tumour formation, and that ACCD‐produced rhizosphere bacteria may protect plants infected by pathogenic Agrobacteria from crown gall disease.     

Genomic variability and plasticity of Pseudomonas causing coffee leaf spots in Minas Gerais state,Brazil

Foliar spots caused by Pseudomonas coronafaciens pv. garcae (Pcg), Pseudomonas amygdali pv. tabaci (Pat) and Pseudomonas cichorii (Pch) are major bacterial diseases that can reduce coffee production. However, little is known about the genetic diversity and molecular mechanisms underlying the pathogenicity to coffee plants of these bacteria. In this study, genome sequences of Pcg, Pat and Pch strains isolated from coffee plants in Minas Gerais state, Brazil, were used to assess their variability and plasticity, and compare their type III secretion system (T3SS) and apoplastic effector repertoires as well as tabtoxin biosynthetic/detoxification genes. Genomic diversity was found for all three phytopathogens, among which Pch possesses the highest number of exclusive proteins. The Pcg genome is the most stable whereas that of Pch is the most plastic, which is related to their host ranges. When compared with those of Pseudomonas syringae pv. tomato DC3000, hrp/hrc gene sequences are more conserved in Pcg and Pat than in Pch, which also possesses the smallest T3SS and the largest apoplastic effector repertoires. The only T3SS effector family common to all three pathogens is AvrE, suggesting that, as for other plant–Pseudomonas interactions, it may play a crucial role for pathogenicity towards coffee plants. Apoplastic proteins associated with maintaining the redox balance and degrading proteins/peptides not previously described as important in plant–bacteria interactions were found. Gain/loss of the tabtoxin biosynthetic cluster with retention of the antitoxin gene was observed, indicating that tabtoxin production is not a limiting factor for the occurrence of mixed infections.     

Different symptoms in carrots caused by male and female carrot psyllid feeding and infection by ‘Candidatus Liberibacter solanacearum’

Carrot psyllid Trioza apicalis was recently found to carry the plant pathogenic bacterium ‘Candidatus Liberibacter solanacearum’ (CLs). To confirm the transmission of bacteria by the psyllids and to dissect the symptoms caused in carrot plants by psyllid feeding and CLs infection, a greenhouse experiment with single psyllids feeding on separate plants was performed. A positive correlation was found between the amount of CLs bacteria in the psyllids and in the corresponding plants exposed to feeding, indicating CLs transmission. The female psyllid feeding caused more severe damage than male feeding, and resulted in a substantial decrease in the root weight. Female psyllid feeding also significantly reduced the carrot leaf weight and increased the number of curled leaves. The number of curled leaves was also increased by the nymphs when their number exceeded 10 per plant. A high titre of CLs bacteria significantly reduced root weight, while not affecting the weight or number of the leaves. However, the amount of CLs correlated with the number of leaves showing discolouration symptoms. Microscopy of infected carrot plants revealed that the phloem tubes throughout the whole plant, from leaf veins to the root tip, were colonized by bacteria. The bacterial cells appeared to be long and thin flexible rods with tapering ends and a transversally undulated surface. Microscopy also revealed collapsed phloem cells in the infected carrots. Damage in the phloem vessels is likely to reduce the sucrose transport from source leaves to the root, explaining the observed leaf discolouration and reduction in root weight.     

An ultrastructural study, including cytochemistry and quantitative analyses, of the interactions between pseudomonads and leaves of Phaseolus vulgaris L.

Infection of Phaseolus vulgaris cultivars Red Mexican and Tendergreen with Pseudomonas fluorescens, P. syringae pv. coronafaciens, P.s. pv. phaseolicola races 1 and 3, and a mutant of race 3 (race 3 M1) with altered cultivar specific virulence was examined. In addition to qualitative observations of the development of colonies of bacteria and the responses in adjacent plant cells, quantitative analyses were made of the numbers of bacteria within sections of colonies, contact between bacteria and the plant cell wall, the accumulation of fibrillar acidic polysaccharides (which stained with ruthenium red) around bacteria, convolution of the plant cell membrane adjacent to bacteria, deposition of paramural papillae, rupture of the tonoplast and the occurrence of cytoplasmic disorganization. The presence at infection sites of material staining with the periodic acid, thiocarbohydrazide silver proteinate (PATAg) procedure to localize vicinal glycols was also quantified.Cells of P. fluorescens failed to multiply in the plant and seemed tightly bound at junctions between mesophyll cells. The pathovars of P. syringae all multiplied at similar rates during the first 12 h after inoculation and were not closely attached to the plant cell wall. Fibrillar, ruthenium red staining material, considered to be bacterial extracellular polysaccharides, accumulated around cells of the pathovars of P. syringae irrespective of the compatibility of their interaction with cultivars. Amorphous PATAg positive deposits formed around cells of the saprophyte and as condensed aggregates in colonies of P. syringae pathovars in tissue undergoing the hypersensitive reaction (HR) but not during compatible interactions. The PATAg positive material may be involved in the elicitation of responses by plants during the HR. The first response of plant cells to adjacent bacteria was the localized convolution of the plasma membrane; this response was neither race nor species specific. Deposition of paramural papillae was also found to be a non-specific response occurring during compatible and incompatible interactions. Some components of papillae were PATAg positive. Plasmolytic studies demonstrated that, during the HR, irreversible damage to the plasma membrane first occurred 5 and 8 h after initial convolution of the membrane following inoculation of cv. Tendergreen with P.s. pv. coronafaciens and P.s. pv. phaseolicola race 3 respectively. Tonoplast dysfunction appeared to follow irreversible damage to the plasma membrane and preceded loss of compartmentation and cytoplasmic collapse. The ultrastructural study showed that many plant responses were non-specific and therefore could be separated from irreversible damage to the plasma membrane which was the irrevocable event during the HR.     

Experiments with a non-pathogenic strain of Xanthomonas campestris pv. graminis1

Isolates of Xanthomonas campestris pv. graminis are known to vary in pathogenicity, which may be lost more or less rapidly in culture on artificial media. Inoculation of Lolium multiflorum with mixtures of a highly pathogenic strain and increasing proportions of a nonpathogenic strain of X. c. graminis resulted in a decreasing disease expression and mortality. Re-isolation from plants inoculated with 1% pathogenic and 99% non-pathogenic bacteria resulted mostly in highly pathogenic monobacterial colonies. Of about 200 colonies, 3% were non-pathogenic. A few isolates had an intermediate pathogenicity. It has not been established whether they were pure strains or mixtures of pathogenic and non-pathogenic bacteria. All isolates from plants inoculated with the non-pathogenic strain were non-pathogenic. The nonpathogenic bacteria multiplied inside the plants, but they were mostly found in the inoculated leaves. Thirty pots containing each about 20 plants of Italian ryegrass were pre-inoculated with non-pathogenic strains and, 4 weeks later, they were cut with scissors contaminated by pathogenic X. c. graminis. The disease was highly reduced in about half of the pots. Further experiments are needed to judge the expediency of such a ‘premunition’ of grasses.     

Characterization of Pectolytic Erwinias as Highly Sophisticated Pathogens of plants

Erwinia carotovora and Erwinia chrysanthemi are the two most important soft rotting bacteria of commercially-grown plants. They are genetically diverse as is evident from polymorphisms in the pel and recA genes as well as in rrn, the ribsomal gene cluster. Subpopulations grouped into biovars, pathovars, or subspecies associated with various hosts and in different geographic regions suggest specialization in host preference and/or survival in diverse environments. Previous characterization of the pectolytic erwinias as opportunistic pathogens is being replaced by a realization that this group of bacteria exhibits a sophisticated repertoire of pathogenicity and virulence genes and regulators. The presence of an entire hrp gene cluster and associated type III secretion system, and global regulators which regulate virulence determinants such as exoenzyme production and motility, attest to a highly specialized pathogen. The fact that production of extracellular plant cell wall-degrading enzymes are coordinately activated by the diffusible signal molecule N-acyl-homoserine lactone in a population density-dependent manner may explain the occurrence of pectolytic erwinia in asymptomatic plant tissues. Transgenic plants expressing bacterial quorum-sensing signal molecules modulate this sensory system and exhibit resistance to soft rot infection. The pectolytic erwinias, being significant plant pathogens that are neither of quarantine concern nor a human health hazard while readily isolated from field sources, make an ideal model for investigating the genetic basis of plant pathogenesis and environmental fitness.     

Testing and improving the effectiveness of trap crops for management of the diamondback moth Plutella xylostella (L.): a laboratory‐based study

BACKGROUND: The aim of this study was to assess white mustard (Sinapis alba L.) as a trap crop for diamondback moth [Plutella xylostella (L.)] on cauliflower [Brassica oleracea (L.) var. Lateman]. Moth behaviour on these plants and the importance of plant age and size in maintaining pest preference for trap crop plants were also investigated. RESULTS: Three times as many eggs were laid on cauliflower plants that were unprotected than on plants protected by a trap crop of white mustard. Moths remained longer on the mustard plants as a result of a doubling in the mean duration of information‐providing behaviours. Plant age had little effect on P. xylostella host preference. When plant age was constant, percentage oviposition on mustard was higher when these were larger (93%) than copresented cauliflower plants, compared with when they were smaller (68%). CONCLUSION: Trap cropping with white mustard may reduce the incidence of P. xylostella in cauliflower crops. The pest management benefits of trap crops may be maximised by using trap crop plants that are larger than the main crop plants, although relatively smaller trap crop plants may still be preferred as hosts for P. xylostella per se. Copyright © 2009 Society of Chemical Industry     

Hydrogen sulfide causes excision of a genomic island in <Emphasis Type="Italic">Pseudomonas syringae</Emphasis> pv. <Emphasis Type="Italic">phaseolicola</Emphasis>

Hydrogen sulfide (H₂S) is known to be an important signalling molecule in both animals and plants, despite its toxic nature. In plants it has been seen to control stomatal apertures, so altering the ability of bacteria to invade plant tissues. Bacteria are known to generate H₂S as well as being exposed to plant-generated H₂S. During their interaction with plants pathogenic bacteria are known to undergo alterations to their genomic complement. For example Pseudomonas syringae pv. phaseolicola (Pph) strain 1302A undergoes loss of a section of DNA known as a genomic island (PPHGI-1) when exposed to the plants resistance response. Loss of PPHGI-1 from Pph 1302A enables the pathogen to overcome the plants resistance response and cause disease. Here, with the use of H₂S donor molecules, changes induced in Pph 1302A genome, as demonstrated by excision of PPHGI-1, were investigated. Pph 1302A cells were found to be resistant to low concentrations of H₂S. However, at sub-lethal H₂S concentrations an increase in the expression of the PPHGI-1 encoded integrase gene (xerC), which is responsible for island excision, and a subsequent increase in the presence of the circular form of PPHGI-1 were detected. This suggests that H₂S is able to initiate excision of PPHGI-1 from the Pph genome. Therefore, H₂S that may emanate from the plant has an effect on the genome structure of invading bacteria and their ability to cause disease in plants. Modulation of such plant signals may be a way to increase plant defence responses for crops in the future.     

Investigation of wheat as a trap crop for control of Orobanche minor

Orobanche minor is a parasitic weed that attaches to the roots of red clover (Trifolium pratense) and a number of other broad‐leaved plant species in the Pacific Northwest USA. Orobanche minor seed must be stimulated by host plant exudates for germination and attachment to occur. However, plant species called false‐hosts can stimulate parasitic seed germination without attachment. These species could be utilized as trap crops to reduce the amount of parasitic seed in infested soil. Wheat (Triticum aestivum), was found to be a false‐host of O. minor; therefore, growth chamber, glasshouse and field soil experiments were conducted to evaluate the effect of six soft white winter wheats (T. aestivum), one durum wheat (Triticum turgidum), and one triticale (Triticale hexaploide) on O. minor germination. In growth chamber experiments, wheat and triticale induced 20–70% of O. minor seeds to germinate. In glasshouse studies, O. minor attachment was minimal on red clover plants grown in pots previously planted to wheat or triticale. In pots that did not receive a false‐host treatment, red clover plants averaged 4.2 O. minor attachments per plant. Red clover plants also had fewer O. minor attachments when grown in field soil taken from the plots where wheat or triticale were grown compared with plants grown in soil where no wheat or triticale were previously grown. Our results demonstrate that wheat may have the potential to be effectively integrated into an O. minor management system.     

Microbial community responses associated with the development of <Emphasis Type="Italic">Fusarium oxysporum</Emphasis> f. sp. <Emphasis Type="Italic">cucumerinum</Emphasis> after 24-epibrassinolide applications to shoots and roots in cucumber

Fusarium wilt, caused by Fusarium oxysporum f. sp. cucumerinum (FO), is one of the major diseases in cucumber (Cucumis sativus) production. Root and foliar applications of 24-epibrassinolide (EBL), an immobile phytohormone with antistress activity, were evaluated for their effects on the incidence of Fusarium wilt and changes in the microbial population and community in roots of cucumber plants. EBL pre-treatment to either roots or shoots significantly reduced disease severity followed by an improved plant growth regardless of the treatment methods applied. EBL applications decreased the Fusarium population on root surfaces and in nutrient solution, but increased the population of fungi and actinobacteria on root surfaces. PCR-DGGE analysis showed that FO-inoculation had significant effects on the bacterial community on root surfaces as expressed by a decreased diversity index and evenness index, but EBL applications alleviated these changes. Moreover, several kinds of decomposing bacteria and growth-promoting bacteria were identified from root surfaces of FO-inoculated plants and EBL-pre-treated plants, respectively. Overall, these results show that the microbial community on root surfaces was affected by a complex interaction between phytohormone-induced resistance and plant pathogens.     

基于植物代谢组学和昆虫肠道细菌分析光肩星天牛的寄主适应性

为探究光肩星天牛Anoplophora glabripennis对传统抗性树种白蜡的适应性机制,利用代谢组学分析不同白蜡品种木质部次生代谢产物,利用16S rRNA测序技术对取食白蜡后的光肩星天牛肠道细菌群落组成进行检测,并采用Pearson方法分析两者的相关性。结果表明,在洋白蜡Fraxinuspennsylvanica和中国白蜡F. chinensis木质部中共筛选出27类抗虫性差异代谢产物,其中黄酮苷、双黄酮及多黄酮、简单酚类、香豆素及其衍生物和木质素苷在中国白蜡中含量较丰富;而2-芳基苯并呋喃类黄酮、阿朴啡类、麦角林及其衍生物和有机氮化合物在洋白蜡中占优。光肩星天牛取食洋白蜡和中国白蜡2种寄主后肠道细菌群落组成存在明显差异,优势菌门分别为变形菌门和厚壁菌门;优势菌属分别为拉乌尔菌属Raoultella（55.79%）和乳球菌属Lactococcus（57.52%）;筛选到21个差异菌属,其中13个菌属在中国白蜡中的相对丰度显著高于洋白蜡。相关性分析结果表明,尽管类黄酮、简单酚类、香豆素及其衍生物和木质素苷等酚类化合物在中国白蜡中含量更高,但取食中国白蜡后光肩星天牛肠道内一方面存在优势菌群参与代谢上述物质,如肠球菌属Enterococcus、拉乌尔菌属对类黄酮和木质素苷的代谢;另一方面中国白蜡通过一些特异菌属和共有菌属的增殖参与代谢,如乳杆菌属Lacto-bacillus和放线菌属Actinomycetes对类黄酮、乳球菌属对简单酚类、鞘氨醇杆菌属 Sphingobacterium对香豆素及其衍生物、放线菌属和肠球菌属对木质素苷的代谢。生物碱在中国白蜡中的含量低于洋白蜡,未发现特殊菌属降解该类物质。推测相对于洋白蜡,取食中国白蜡后光肩星天牛肠道菌群更具特异性和多样化,可以帮助光肩星天牛快速代谢相关次生物质,顺利完成其在中国白蜡上的生活史。     

Review: Endophytic microbes and their potential applications in crop management

Endophytes are microbes (mostly bacteria and fungi) present asymptomatically in plants. Endophytic microbes are often functional in that they may carry nutrients from the soil into plants, modulate plant development, increase stress tolerance of plants, suppress virulence in pathogens, increase disease resistance in plants, and suppress development of competitor plant species. Endophytic microbes have been shown to: (i) obtain nutrients in soils and transfer nutrients to plants in the rhizophagy cycle and other nutrient‐transfer symbioses; (ii) increase plant growth and development; (iii) reduce oxidative stress of hosts; (iv) protect plants from disease; (v) deter feeding by herbivores; and (vi) suppress growth of competitor plant species. Because of the effective functions of endophytic microbes, we suggest that endophytic microbes may significantly reduce use of agrochemicals (fertilizers, fungicides, insecticides, and herbicides) in the cultivation of crop plants. The loss of endophytic microbes from crop plants during domestication and long‐term cultivation could be remedied by transfer of endophytes from wild relatives of crops to crop species. Increasing atmospheric carbon dioxide levels could reduce the efficiency of the rhizophagy cycle due to repression of reactive oxygen used to extract nutrients from microbes in roots. © 2019 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.     

Evaluation of the resistance of Coffea canephora to Oligonychus ilicis (Acari: Tetranychidae) and the preimaginal conditioning effect on resistance using a biological life table

Oligonychus ilicis (McGregor) (Acari: Tetranychidae), is one of the most important mite pests found in coffee plants. One way to reduce intensive pest attacks is management via resistant plants. The purpose of this study was to evaluate the resistance of 14 C. canephora genotypes to O. ilicis by antixenosis and antibiosis mechanisms and to determine the preimaginal conditioning effect on resistant genotypes using O. ilicis reared on C. canephora. Resistance by antixenosis was not found; however, nine genotypes showed resistance to O. ilicis via an antibiosis mechanism. Two of these resistant genotypes showed a more persistent resistance than the O. ilicis reared on C. canephora, which indicated that a previous host can affect the selection of a genotype by O. ilicis. The study may provide a model to evaluate the preimaginal conditioning effect on plant resistance, which can be useful for plant breeders.     

The significance of guttation in the secondary spread of Clavibacter michiganensis subsp. michiganensis in tomato greenhouses

Bacterial canker, caused by Clavibacter michiganensis subsp. michiganensis (Cmm), can spread in commercial tomato greenhouses causing epidemics. Results of greenhouse experiments with Cmm‐contaminated tools demonstrated disease spread for only a limited distance (<4 plants) from infected plants. However, touching symptomless infected plants bearing guttation droplets prior to touching nearby plants spread the pathogen over longer distances within rows (>22 plants). The pathogen was exuded in large numbers in the guttation fluid of infected plants; its presence in the guttation fluid was not influenced by the inoculation procedures, leaf age or the volume of the guttation droplets. Population size of Cmm and the incidence of leaflets with epiphytic bacteria were significantly higher in plants placed in a guttation‐induction chamber than in those kept in a growth chamber with high humidity, suggesting exudation through guttation contributed to the formation of epiphytic populations on leaflets. This new knowledge may provide a simple and environmentally friendly means for decreasing the spread of the disease by avoiding contact with plants during periods when they bear guttation droplets.     

Influence of bacteria isolated from rice plants and rhizospheres on antibiotic production by the antagonistic bacterium <Emphasis Type="Italic">Serratia marcescens</Emphasis> strain B2

Serratia marcescens strain B2 is an antagonistic bacterium that produces the red-pigmented antibiotic prodigiosin and suppresses rice sheath blight caused by Rhizoctonia solani AG-1 IA. Rice sheath blight disease was suppressed when plants were inoculated with this bacterium an hour before pathogen inoculation but not when plants were treated 4 weeks before pathogen inoculation. In both cases the bacteria were detected in the rice rhizosphere 4 weeks after inoculation. Bacteria isolated from the rice plant and rhizosphere inhibited biosynthesis of prodigiosin in S. marcescens strain B2. We suggest that bacteria isolated from rice plants and rhizospheres mediate the suppression of antibiotic production of biological control agents and that such suppression is common under field conditions.     

苹果中新抗旱相关基因GR- RBPs的克隆与表达分析

在构建楸子叶片SSH cDNA文库及EST分析的基础上,通过电子克隆(in silico cloning)和RT-PCR方法分别从楸子和平邑甜茶叶片中各克隆得到了1个富含甘氨酸RNA结合蛋白(GR-RBP)基因,分别命名为MpGR-RBP1( HM042682)和MhGR-RBP1 (HQ380209).它们的cDNA...     

油菜黑腐病病原细菌的鉴定

近年来,在湖北省油莱上发生一种病害,油菜抽薹后,主轴上产生暗绿色水渍状长条斑,病部溢出大量乳黄色粘稠物,后为黑褐色腐烂,其主轴萎缩卷曲,角果干秕、枯死。被害维管束变褐,髓部变黄。叶片上很少见病斑。从这种病株上分离到了致病细菌,经全面、系统鉴定,确定为黑腐病黄色单胞杆菌[Xanthomonas campestris(Pammel)Dowsom]。由黑腐病菌引起的上述症状,国内外未曾报道过。另外,对来自六种十字花科寄生的七个黑腐病菌株,作了致病力比较测定,结果差异显著,以油莱两个黑腐病菌株致病力最强,表明可能存在不同生理型。     

两种沉水植物在不同水深和生长时期对入侵植物的响应

为研究沉水植物在不同水深和生长时期对不同种类入侵植物的响应,选取2种湿地入侵植物凤眼莲Eichhornia crassipes、水盾草Cabomba caroliniana和2种常见本地沉水植物黑藻Hydrillaverticillata、菹草Potamogeton crispus为研究对象,通过模拟试验探究在不同水深（0.2、0.4 m）和生长时期（生长初期和生长旺期）的本地沉水植物对2种入侵植物的响应。结果显示,当水深为0.4 m时更有利于黑藻的生长,并可削弱入侵植物对黑藻生长的消极作用,而水深对菹草的生长无显著影响;入侵植物种类对本地沉水植物的生长无显著影响,但影响方式却存在差异,其中水盾草倾向于直接抑制本地沉水植物的生长,而凤眼莲可以通过降低水体透明度以及总磷含量进而间接抑制本地沉水植物的生长。此外,外来植物在本地沉水植物生长初期入侵对本地沉水植物产生的消极影响较生长旺期入侵时更显著。表明凤眼莲及水盾草入侵对本地沉水植物生长的影响机制存在差异,本地沉水植物在适宜水深和生长旺期对2种入侵植物具有更强的抵抗能力。     

Cannibalism of <Emphasis Type="Italic">Brontocoris tabidus</Emphasis> and <Emphasis Type="Italic">Podisus nigrispinus</Emphasis> during periods of pre-release without food or fed with <Emphasis Type="Italic">Eucalyptus cloeziana</Emphasis> plants

Pre-release techniques aim to increase the searching by the predators for their prey. Keeping bug predators for periods without food before their release can increase the search ability of these insects. However, this practice can increase the cannibalism during mass rearing. Brontocoris tabidus (Signoret) and Podisus nigrispinus (Dallas) (Heteroptera: Pentatomidae) were kept for 12, 24, 36 and 48 h without food or with only Eucalyptus cloeziana plants in order to verify the occurrence of cannibalism on adults and eggs. Insects kept for periods longer than 24 h showed higher cannibalism on adults and eggs and the presence of a E. cloeziana plant decreased the cannibalism during all the treatment periods. These predators preferred to attack first the eggs rather than the adults, probably because of the inability of the former to avoid predation. The pre-release period should not exceed 24 h and plants must be provided to the predators in order to reduce the occurrence of cannibalism and increase the predatory capacity of these natural enemies.     

Selection and Screening of Endorhizosphere Bacteria from Solarized Soils as Biocontrol Agents Against Verticillium dahliae of Solanaceous Hosts

Verticillium dahliae antagonistic endorhizosphere bacteria were selected from root tips of tomato plants grown in solarized soils. Fifty-three out of the 435 selected bacterial isolates were found to be antagonistic against V. dahliae and several other soilborne pathogens in dual cultures. Significant biocontrol activity against V. dahliae in glasshouse trials was demonstrated in three of 18 evaluated antagonistic isolates, provisionally identified as Bacillus sp. Although fluorescent pseudomonads were also isolated from root tips of tomato plants, none of the tested isolates exercised any significant antagonistic activity against V. dahliae in dual cultures. So these isolates were not tested in glasshouse trials in this study. Finally, two of the most effective bacterial isolates, designated as K-165 and 5-127, were shown to be rhizosphere colonizers, very efficient in inhibiting mycelial growth of V. dahliae in dual cultures and successfully controlling Verticillium wilt of solanaceous hosts. In glasshouse experiments, root dipping or soil drenching of eggplants with bacterial suspension of 10⁷cfu ml^–1 resulted in reduced disease severity expressed as percentage of diseased leaves (40–70%) compared to the untreated controls under high V. dahliae inoculum level (40 microsclerotia g^–1 soil). In heavily Verticillium infested potato fields, experiments with potato seeds dusted with a bacterial talc formulation (10⁸cfu g^–1 formulation), showed a significant reduction in symptom development expressed as percentage of diseased potato plants and a 25% increase in yield over the untreated controls. As for their effectiveness in increasing plant height, both bacterial isolates K-165 and 5-127 produced indolebutyric, indolepyruvic and indole propionic acids. Both antagonists are considered as plant growth promoting rhizobacteria bacteria since significantly increased the height of treated plants compared with the untreated controls. Chitinolytic activity test showed that both isolates were able to produce chitinase. Testing rhizospheric and endophytic activity of the antagonists it was shown that although the bacteria are rhizosphere inhabitants they also preferentially colonize the endorhizosphere of tomatoes and eggplants. Fatty acid analysis showed that isolate K-165 could belong to Paenibacillus alvei while 5-127 to Bacillus amiloliquefaciens.