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51.
协同增效型拮抗细菌组合CL-7和CL-8的稳定性及其对加工番茄的促生防病效果 总被引:8,自引:0,他引:8
将加工番茄根际土壤中筛选到的单一拮抗细菌进行复配,筛选获得两个具有促生拈抗作用的细菌组合CL-7和CL-8。经过20代转管连续培养检测细菌组合的稳定性,结果表明,这两个拮抗细菌组合从13代之后,其pH值基本稳定,组合内菌落种类及数目也基本稳定;且12代后抑菌活性基本保持不变。和单一拮抗菌株相比,CL-7和CL-8均能显著增加对番茄立枯病菌、辣椒疫霉病菌和枯萎病菌的抑菌效果。发芽和苗期灌根试验结果表明,拮抗细菌组合CL-7和CL-8可显著促进加工番茄幼芽及苗期的生长,苗期鲜重分别增加了147.620k和176.190k,干重分别增加了143.75%和143.75%。在温室和田间条件下,细菌组合CL-7和CL-8对加工番茄立枯病的防治效果都很显著,分别可达25.1%、40.1%和52.2%、55.5%。 相似文献
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53.
In greenhouse and field experiments, an oil-in-water emulsion of unrefined corn oil and Silwet L-77 increased the biological weed control efficacy of Colletotrichum truncatum (Schw.) Andrus et Moore for control of the weed, hemp sesbania ( Sesbania exaltata [Raf.] Rydb. ex A.W. Hill). The surfactant – corn oil emulsion stimulated germination and appressoria formation in vivo and in vitro and delayed the need for dew. We hypothesize that the corn oil protected the conidia from desiccation during the dew-free period and the surfactant stimulated spore germination and appressoria formation. In field experiments conducted over 3 years, a single application of a 50% (v/v) unrefined corn oil tank mixture containing 0.2% (v/v) Silwet L-77 surfactant controlled hemp sesbania in soybeans an average of 95%. Aqueous fungal suspensions or adjuvants alone did not visually affect or control hemp sesbania. The soybean yields were significantly higher in the plots where weeds were effectively controlled. These results suggest that formulating C. truncatum in unrefined corn oil and surfactant greatly increases its infectivity and the biocontrol potential of this pathogen. 相似文献
54.
Orobanche crenata (crenate broomrape) produces serious damage to many legume crops and particularly becomes a limiting factor for pea production in the Mediterranean basin. Nodulation effects on pea–broomrape relationships were studied using the commercial pea cultivar Douce de Provence and different Rhizobium strains using pot and Petri dish experiments. First, the benefit of bacterial inoculation on plant growth and efficiency of N incorporation were demonstrated for two isolates, P.SOM and P.1236. These isolates did not influence parasite germination induced by the artificial stimulant, GR24. In contrast, pea root inoculation with P.SOM and P.1236 isolates led to a reduced root infection by O. crenata , resulting from a lower Orobanche germination rate close to pea roots and a limited capacity of the parasitic seedlings to develop tubercles. Broomrape necrosis was observed both before and after parasite attachment to inoculated pea roots. Concomitantly, reduction in infection was accompanied by enhanced peroxidase activity and constantly high phenylalanine ammonia lyase activity in pea roots. These data suggest the involvement of these enzymes in pea resistance to crenate broomrape induced by the compatible rhizobia. Management of Orobanche via crop selection based on these enzyme systems is a viable option. 相似文献
55.
尖角突脐孢菌在温室环境下侵染稗草的致病体系研究 总被引:1,自引:0,他引:1
稗属(Echinochloa)杂草是全世界水稻等作物生产中的一类恶性杂草。人工除稗安全但费时费力,化学除稗高效但伴随农产品安全和环境相融友好方面的潜在风险。因此,寻求安全高效的除稗活性成分和施药技术成为国际上除稗剂发展的重要方向之一。在研究和开发生物除稗剂的技术体系中,满足高通量筛选安全、高效的除稗生防因子的温室检测体系是极为重要的支持平台,同样,生物除稗剂的田间科学施药技术亦应依据生防因子在稗草上致病和致害所需的最佳条件来制定。基于此,亟需探明生防因子侵染稗草致病的相关条件并建立快速有效的生防因子除稗效果温室检测体系和田间施药技术。本文系统研究了影响尖角突脐孢菌侵染稗草的相关因子,建立了稳定的温室环境下尖角突脐孢菌侵染稗草的致病体系。 相似文献
56.
E.G. Wulff A.T.H. Pham M. Chérif P. Rey Y. Tirilly J. Hockenhull 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(1):69-76
Hydroponically grown cucumber (Cucumis sativus) seedlings were inoculated with zoospores of 1 mycoparasitic (Pythium oligandrum) and 2 pathogenic (Pythium aphanidermatum and Pythium group F) Pythium spp. During the first 2 days after inoculation, all the Pythium spp. caused reduction in the root length. However, roots treated with Pythium oligandrum quickly reached the length of the control and on the 8th day, and for the rest of the experimental period, stimulation of root elongation was noted. Pythium oligandrum was not pathogenic on cucumber and no differences in the fresh weights of control and Pythium oligandrum inoculated plants were observed in the course of the experiment. Pythium group F and Pythium aphanidermatum were pathogenic on cucumber seedlings, but their pathogenicities differed. Thus, while Pythium group F had a constant, negative influence on root length and plant growth, measured as fresh weight, Pythium aphanidermatum caused generalized necroses of the root system, inhibiting consistently root elongation and plant growth and finally causing plant death. Moreover, the zoospores of 2 mycoparasitic species, Pythium oligandrum and Pythium periplocum, were not attracted to roots of cucumber and accumulated on the roots in very low numbers compared to those of the pathogenic species, Pythium aphanidermatum, which were strongly attracted and accumulated in large numbers. Finally, it was also found that Pythium oligandrum colonized the roots very poorly, while Pythium group F and Pythium aphanidermatum were significantly better root colonizers. The significance of these findings is discussed in relation to the ecology of Pythium species and biocontrol. 相似文献
57.
燕麦镰刀菌(Fusarium avenaceum)是引起燕麦(Avena sativa)根腐病的主要病原菌之一,为开发高效防治燕麦根腐病的绿色生物菌剂,本研究从健康燕麦根际土壤中分离筛选出一株燕麦镰孢菌高效拮抗细菌YF,并开展了形态学和分子鉴定,研究了该菌的抑菌谱及对燕麦镰孢菌的室内防治试验和作用机理。结果表明,该菌被鉴定为多粘类芽孢杆菌(Paenibacillus polymyxa)。活性测定发现该菌对燕麦镰刀菌的菌丝生长抑制率达到70.69%,对孢子萌发抑制率为85.92%。通过抑菌谱筛选发现该菌对常见的8种病原真菌均有较好的防治作用。利用该菌发酵液处理后燕麦镰孢菌菌丝出现异常分枝、囊泡状畸形且伴有细胞壁破裂。盆栽试验表明,该菌对燕麦根腐病的防治效果达到81.45%,其防效显著高于化学农药多菌灵(61.87%) (P < 0.05),且该菌对燕麦表现出较好的促生长作用。因此,该菌株多粘类芽孢杆菌具备了开发燕麦根腐病生物防治菌剂的潜力。 相似文献
58.
番茄早疫病菌拮抗细菌的筛选及其抑制作用 总被引:2,自引:0,他引:2
为了筛选对番茄早疫病菌具有生防作用的菌株,利用前期研究获得的17株促生菌,采用平板对峙法测定其对病原真菌的拮抗作用及对菌丝生长的抑制作用。结果发现,可有效拮抗番茄早疫病菌的生防菌有2株,其中,菌株FX2的抑菌活性较好,抑制率达到70.52%,菌株LHS11的抑制率为65.34%。菌株FX2和LHS11可通过次生代谢物抑制病原真菌,其中菌株LHS11的发酵液对番茄早疫病菌的抑制率达到65.40%,菌株FX2的发酵液的抑制率为47.26%。菌株FX2和LHS11能使病原菌菌丝发生不同程度扭曲变形。 相似文献
59.
Currently, plant diseases and insect infestations are mainly controlled by the extraneous application of pesticides. Unfortunately, the indiscriminate use of such agrochemicals can cause ecological and environmental problems, as well as human health hazards. To obviate the potential pollution arising from the application of agrochemicals, biological control of soilborne pathogens or insect pests using antagonistic microorganisms may be employed. Certain soil bacteria, algae, fungi, plants and insects possess the unique ability to produce hydrogen cyanide(HCN), which plays an important role in the biotic interactions of those organisms. In particular, cyanogenic bacteria have been found to inhibit the growth of various pathogenic fungi, weeds, insects, termites and nematodes. Thus, the use of HCN-producing bacteria as biopesticides offers an ecofriendly approach for sustainable agriculture. The enzyme, HCN synthase,involved in the synthesis of HCN, is encoded by the hcnABC gene cluster. The biosynthetic regulation of HCN, antibiotics and fluorescent insecticidal toxins through the conserved global regulatory GacS/GacA system is elaborated in this review, including approaches that may optimize cyanogenesis for enhanced pest control. In addition, the effects of bacterially synthesized HCN on the production of indole acetic acid, antibiotics and fluorescent insecticidal toxins, 1-aminocyclopropane-1-carboxylate deaminase utilization and phosphate solubilization may result in the stimulation of plant growth. A more detailed understanding of HCN biosynthesis and regulation may help to elaborate the precise role of this compound in biotic interactions and sustainable agriculture. 相似文献
60.