不同生态条件下葡萄叶部微生物区系分析

采用稀释平板法,对兰州市红古区露地和天祝县日光温室栽培‘红地球’葡萄叶部微生物进行分离计数和丝状真菌的纯化鉴定。结果表明,红古露地栽培葡萄叶部微生物的数量显著高于天祝日光温室。从幼果膨大期到果实成熟期,真菌数量均逐渐增加到最大值,其中红古葡萄叶部为2.89×102cfu/cm2,天祝葡萄叶部为0.49×102cfu/cm2,采收后均略有下降。细菌数量,红古葡萄叶部的变化与真菌相似,最高达12.68×102cfu/cm2,天祝葡萄叶部则在果实着色期达到最高值1.27×102cfu/cm2,后下降并趋于稳定。红古葡萄叶部的真菌种类和出现频率有一定的连续性,其中链格孢属(Alternaria)、盾壳霉属(Coniothyrium)、芽枝霉属(Cladosporium)在红古和天祝两种生态条件下均占优势,出现频率最高分别达到56.19%、44.3%和45.45%。青霉属(Penicillium)只在红古葡萄叶部分离到,根霉属(Rhizopus)和曲霉属(Aspergillus)只在天祝葡萄叶部分离到。筛选出21种对葡萄灰霉病菌菌丝有抑制效果的拮抗菌。     

Metabolites of some biological control agents

The evidence is reviewed for the structure and biosynthesis of some metabolites of Trichoderma and Gliocladium species that are being considered as fungal biological control agents. The diverse biosynthetic capability of these organisms is proposed as a criterion for their potential application as bio-control agents.     

番茄青枯病生物防治研究进展

番茄青枯病是番茄生产上最严重的病害之一,化学防治效果不佳,且对环境不友好。本文概述了国内外应用无致病力青枯菌菌株、拮抗细菌和生物技术等方法对番茄青枯病进行生物防治的研究进展,并对生物防治存在的相关问题及应用前景进行了讨论。     

Conclusions from the workshop on evaluation and regulation of biological control agents

This paper reports on the Workshop on Evaluation and Regulation of Biological Control Agents (BCAs) held in Budapest on the 23–24 November 2015. Conclusions and recommendations are summarized and explained, and some of the ways in which the recommendations are being taken forward by the joint EPPO IOBC Panel on Biological Control are described. The key conclusions are that properly authorized releases of BCAs are beneficial for crop protection and the environment, with little evidence of adverse effects. Different countries apply different types of regulation in different ways to determine whether such releases can be authorized. A more harmonized approach could increase opportunities for use of biological control and ensure that potential risks are addressed in a more coherent and consistent way.     

Work of the EPPO/IOBC Panel on biological control agents

EPPO started work on biological control agents (BCAs) in 1996, and the joint EPPO/IOBC Panel was established in 1997. The history of the Panel is provided and EPPO Standards developed by the Panel are described. These Standards are: PM 6/1 ‘First import of exotic biological control agents for research under contained conditions’, PM 6/2 ‘Import and release of non‐indigenous biological control agents’ and PM 6/3 ‘List of biological control agents widely used in the EPPO region’. The last of these has been annually updated as a ‘Positive List’ of BCAs for which EPPO recommends its member countries to use a simplified procedure for import and releases. EPPO activities in biological control have been focused on the safety aspects of the introduction of invertebrate BCAs. However, the scope of EPPO's work in this area is now under review, and a number of issues are being considered by the Working Party on Phytosanitary Regulations. These include the remit of the Panel and Standards in relation to micro‐organisms, the evaluation of potential environmental benefits as well as potential risks from releases and the potential for use of BCAs against regulated pests and those recommended for regulation.     

Regulation and use of biological control agents in Hungary

A wide range of biological control agents (BCAs) have been authorized and used in Hungary for the control of pests (including pathogens). BCAs are key elements of both integrated pest management and organic farming for different crops. Authorization of BCAs depends on the type of ‘active substance’. Micro‐organisms can be authorized under the EU Regulation (EC) No. 1107/2009 as plant protection products (PPP), while macro‐organisms are not within its scope. Plant protection tools (traps, mating disruption) are registered at a national level in Hungary, although mass traps and mating disruption pheromones are considered to be PPP. Plant extracts can be authorized as PPP, but some of them can be approved as a ‘basic substance’ and in this case they do not need further authorization. In Hungary, the vast majority of macro‐organisms used as BCAs have been mainly used in greenhouses and polytunnels for the control of thrips, whiteflies, aphids, leaf mining flies, phytophagous mites and lepidopteran pests in vegetable and ornamental crops. Recently a non‐indigenous chalcid wasp, Torymus sinensis, has been successfully introduced for the control of the oriental chestnut gall wasp, Dryocosmus kuriphilus, on chestnut (Castanea sativa) on different sites.     

生防微生物生物技术研究与发展

简要综述了用作生物农药的苏云金芽孢杆菌、昆虫杆状病毒、昆虫真菌、新型病害生防制剂 - Harpin和农用抗生素产生菌生物技术研究的最新进展 ,并提出了加快新一代生物农药研究开发的建议。     

Combining biocontrol agents to reduce the variability of biological control

ABSTRACT Two biocontrol agents, a yeast (Pichia guilermondii) and a bacterium (Bacillus mycoides), were tested separately and together for suppression of Botrytis cinerea on strawberry leaves. The aims of the research were to determine whether the use of their combination would broaden the environmental conditions under which biological control is effective, and to test the hypothesis that it would reduce the variability of control efficacy under diverse conditions. Applied separately, the biocontrol agents significantly inhibited spore germination, lesion formation, and lesion development at most temperatures, relative humidities, and spray-timing combinations (temperatures: 10, 15, 20, 23, 25, and 30 degrees C; relative humidities: 78, 85, 96, and 100%; and spray-timings: 0, 4, and 7 days before inoculation). However, control efficacy was highly variable, and under certain combinations it was not adequate. Control efficacy achieved by the biocontrol agents applied separately ranged between 38 and 98% (mean 74%) and the coefficient of variation ranged from 9.7 to 75%. The mixture of Bacillus mycoides and Pichia guilermondii suppressed Botrytis cinerea effectively (80 to 99.8% control) under all conditions, and the coefficients of variation were as low as 0.4 to 9% in all cases. Thus, application of both biocontrol agents resulted in better suppression of Botrytis cinerea, and also reduced the variability of disease control. Application of more than one biocontrol agent is suggested as a reliable means of reducing the variability and increasing the reliability of biological control.     

Systemically induced resistance and microbial competitive exclusion: implications on biological control

The root-knot nematode, Meloidogyne incognita, is among the most damaging agricultural pests, particularly to tomato. The mutualistic endophytes Fusarium oxysporum strain Fo162 (Fo162) and Rhizobium etli strain G12 (G12) have been shown to systemically induce resistance toward M. incognita. By using triple-split-root tomato plants, spatially separated but simultaneous inoculation of both endophytes did not lead to additive reductions in M. incognita infection. More importantly, spatially separated inoculation of Fo162 and G12 led to a reduction in Fo162 root colonization of 35 and 39% when G12 was inoculated on a separate root section of the same plant in two independent experiments. In an additional split-root experiment, spatial separation of Fo162 and G12 resulted in a reduction of Fo162 root colonization of approximately 50% over the water controls in two independent experiments. The results suggested that the suppressive activity of G12 on Fo162 and M. incognita is possibly related to the induction of specific plant defense mechanisms. Thus, although Fo162 and G12 have the ability to systemically repress M. incognita infection in tomato, they can be considered incompatible biocontrol agents when both organisms are present simultaneously on the same root system.     

Viability and stability of biological control agents on cotton and snap bean seeds

Cotton and snap bean were selected for a multi-year, multi-state regional (south-eastern USA) research project to evaluate the efficacy of both commercial and experimental bacterial and fungal biological control agents for the management of damping-off diseases. The goal for this portion of the project was to determine the viability and stability of biological agents after application to seed. The biological seed treatments used included: (1) Bacillaceae bacteria, (2) non-Bacillaceae bacteria, (3) the fungus Trichoderma and (4) the fungus Beauveria bassiana. Seed assays were conducted to evaluate the following application factors: short-term (< or = 3 months) stability after seed treatment; quality (i.e. isolate purity); compatibility with chemical pesticides and other biocontrol agents; application uniformity between years and plant species. For the bacterial treatments, the Bacillaceae genera (Bacillus and Paenibacillus) maintained the greatest population of bacteria per seed, the best viability over time and the best application uniformity across years and seed type. The non-Bacillaceae genera Burkholderia and Pseudomonas had the least viability and uniformity. Although Beauveria bassiana was only evaluated one year, the seed fungal populations were high and uniform. The seed fungal populations and uniformity for the Trichoderma isolates were more variable, except for the commercial product T-22. However, this product was contaminated with a Streptomyces isolate in both the years that it was evaluated. The study demonstrated that Bacillaceae can be mixed with Trichoderma isolates or with numerous pesticides to provide an integrated pest control/growth enhancement package.     

植物病毒卫星RNA生防制剂CMV-S52防治番茄病毒病

 1976年Kaper等发现,有些黄瓜花叶病毒(CMV)中除含有CMV基因组RNA1-4外,还含有1种可伴随CMV复制的RNA5,称CMV卫星RNA,它的存在能够改变CMV在各种寄主上的症状及其严重程度,还能干扰CMV-RNA1-4的复制,降低植株内病毒浓度。     

番茄秸秆原位还田配施腐解菌剂对番茄生产的影响

为探索茄果类蔬菜秸秆废弃物肥料化利用途径,于2019年设定番茄秸秆全量原位还田及腐解菌剂的配施试验：C,无番茄秸秆+无腐解菌剂;T1,番茄秸秆+无腐解菌剂;T2,番茄秸秆+菌剂1‘源动力’(1 kg·666.7m^-2);T3,番茄秸秆+菌剂2‘有纯’(3 kg·666.7m^-2);T4,番茄秸秆+菌剂3‘沃宝’(2 kg·666.7m^-2),分析其对土壤特性和下茬番茄长势和产量的影响。结果表明：与对照相比,番茄秸秆原位还田降低土壤pH,显著增加土壤有机质、速效磷和速效钾含量（P<0.05）,其中成熟期T2处理有机质含量分别比T1、T3、T4和C显著高7.3%、8.1%、14.2%和26.9%;番茄秸秆腐熟后T2处理速效磷含量分别比C、T1、T3、T4处理高24%、11.3%、4.4%和8.7%。番茄秸秆还田+腐解菌剂显著提高细菌和放线菌数量,其中放线菌数量远高于细菌和真菌数量。番茄秸秆还田对番茄的生长势和产量影响显著,增产的主要原因是番茄秸秆还田提高了单株坐果数,其中菌剂‘源动力’的增产效果优于‘有纯’和‘沃宝’。...     

Effect of reduced risk pesticides on greenhouse vegetable arthropod biological control agents

BACKGROUND: Arthropod biological control agents (BCAs) are commonly released for greenhouse vegetable insect pest management. Nevertheless, chemicals remain a necessary control tactic for certain insect pests and diseases and they can have negative impacts on BCAs. The compatibility of some formulated reduced risk insecticides (abamectin, metaflumizone and chlorantraniliprole) and fungicides (myclobutanil, potassium bicarbonate and cyprodinil + fludioxonil) used, or with promise for use, in Canadian greenhouses with Orius insidiosus (Say), Amblyseius swirskii (Athias‐Henriot) and Eretmocerus eremicus (Rose & Zolnerovich) was determined through laboratory and greenhouse bioassays. RESULTS: Overall, the insecticides and fungicides were harmless as residues to adult BCAs. However, abamectin was slightly to moderately harmful to O. insidiosus and A. swirskii in laboratory bioassays, whereas metaflumizone was slightly harmful to E. eremicus. CONCLUSIONS: In general, these products appear safe to use prior to establishment/release of these adult BCAs. Copyright © 2010 Society of Chemical Industry     

Granular formulation of Fusarium oxysporum for biological control of faba bean and tomato Orobanche

BACKGROUND: Orobanche spp. represent a serious threat to a wide range of crops. They are difficult targets for herbicides, and biological control could provide a possible solution. This work therefore aimed to formulate mycoherbicides of Fusarium with adequate shelf life and virulence against Orobanche but safe to faba bean and tomato. RESULTS: Only two isolates of Fusarium oxysporum Schlecht. (Foxy I and Foxy II) obtained from diseased Orobanche shoots were found to be pathogenic to Orobanche crenata Forsk. and Orobanche ramosa L. Conidial suspension of both isolates significantly decreased germination, attachments and tubercles of Orobanche. Microconidia and chlamydospores of both isolates were formulated as mycoherbicides encapsulated in a wheat flour–kaolin matrix (four different formulations). All formulations greatly diminished Orobanche emerged shoots, total shoot number, shoot height, attachment of emerged shoots, the germinated seeds that succeeded in emerging above the soil surface and dry weight. Meanwhile, disease incidence and disease severity of emerged shoots were enhanced. The shelf life was adequate, particularly for coarse, freshly prepared, low‐temperature‐stored, microconidia‐rich formulations. The induced growth reduction of Orobanche‐infected host plants seemed to be nullified by formulations, particularly at the highest dose. CONCLUSION: These formulations seemed to destroy Orobanche but appeared harmless to host plants. Hence, they could be efficiently used as mycoherbicides for biological control of Orobanche in faba bean and tomato. Copyright © 2008 Society of Chemical Industry     

Prospects for the use of biological control agents against Anoplophora in Europe

This review summarises the literature on the biological control of Anoplophora spp. (Coleoptera: Cerambycidae) and discusses its potential for use in Europe. Entomopathogenic fungi: Beauveria brongniartii Petch (Hypocreales: Cordycipitaceae) has already been developed into a commercial product in Japan, and fungal infection results in high mortality rates. Parasitic nematodes: Steinernema feltiae Filipjev (Rhabditida: Steinernematidae) and Steinernema carpocapsae Weiser have potential for use as biopesticides as an alternative to chemical treatments. Parasitoids: a parasitoid of Anoplophora chinensis Forster, Aprostocetus anoplophorae Delvare (Hymenoptera: Eulophidae), was discovered in Italy in 2002 and has been shown to be capable of parasitising up to 72% of A. chinensis eggs; some native European parasitoid species (e.g. Spathius erythrocephalus) also have potential to be used as biological control agents. Predators: two woodpecker (Piciformis: Picidae) species that are native to Europe, Dendrocopos major Beicki and Picus canus Gmelin, have been shown to be effective at controlling Anoplophora glabripennis Motschulsky in Chinese forests. The removal and destruction of infested and potentially infested trees is the main eradication strategy for Anoplophora spp. in Europe, but biological control agents could be used in the future to complement other management strategies, especially in locations where eradication is no longer possible. © 2014 Crown copyright. Pest Management Science © 2014 Society of Chemical Industry     

Selection of biological control agents for controlling soil and seed-borne diseases in the field

Different screening methods for selection of biological control agents (BCAs), for controlling soil and seed-borne diseases, are discussed. The shortcomings of laboratory methods focused on mechanism of action are discussed and we conclude that these methods should be used with caution if candidates with multifactorial or plant mediated mechanisms of control are to be obtained. In vitro screens may be useful for specific groups of microorganisms, thus, screens for antibiotics may be relevant for Streptomyces spp., and promising results have been obtained using soil plating or precolonized agar methods to screen for mycoparasitism and competitive saprophytic ability. Experience with screening in the Nordic programme Biological control of seed borne diseases in cereals is summarized. Research in the four participating countries – Finland, Sweden, Norway and Denmark – followed the same paradigm: that of obtaining antagonists, well adapted to different Nordic environments, and developing them as effective BCAs. Potential antagonists were isolated from different sources and in planta screening methods were developed in order to optimize selection of antagonists effective against a range of seed borne pathogens. Screens in the laboratory or greenhouse were followed by screening in the field. The different screening procedures are compared and evaluated.     

番茄茎叶提取物对8种植物病原菌的生物活性初步研究

采用6种溶剂对番茄茎叶进行平行提取,以葡萄白腐病菌、葡萄黑痘病菌、苹果腐烂病菌、苹果轮纹病菌、苹果斑点落叶病菌、棉花枯萎病菌、瓜类枯萎病菌和番茄早疫病菌为供试菌,对番茄不同提取液进行抑菌活性测定。结果表明,各溶剂提取液对特定病菌都有极好的抑制作用,对葡萄白腐病菌和苹果腐烂病菌的抑制率均为100%,对其它病菌也都有很好的活性。番茄茎叶的水提取液对供试8种病原菌的综合抑制效果最好,对葡萄白腐病菌、葡萄黑痘病菌和苹果腐烂病菌的抑制作用高达100%,对瓜类枯萎病菌抑菌效果最差也为67.74%。,因此,水应作为番茄茎叶农用抑菌活性物质提取的首选溶剂,石油醚可作为有机溶剂提取番茄茎叶农用抑菌活性物质的溶剂。