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1.
Phylloplane micro-organisms may metabolise substances present on the leaf surface, they may interact with leaf pathogens and they may be involved in the process of senescence. The effects of fungicides on many leaf saprophytes are, however, largely unknown. Studies under both field and laboratory conditions have indicated that wide spectrum protectant fungicides, such as captan, captafol and zineb, are as effective against the saprophytic flora as they are against plant pathogens. If the leaf surface microflora is restricted by fungicides then antagonism towards pathogens will also be reduced, but beneficial results may ensue if the microbial impact on senescence is lessened. Field trials with barley have demonstrated that it is possible to delay senescence by using fungicide sprays.  相似文献   

2.
Microorganisms isolated from wheat leaf surfaces were screened for inhibition of wheat powdery mildew. A new screening method, in which wheat leaves were inoculated with Blumeria graminis f. sp. tritici and incubated with the cultured microorganisms under non-contact conditions, was developed in the present study. Using this method, 10 phylloplane fungi that inhibited wheat powdery mildew were selected from 408 microorganisms isolated from wheat leaf surfaces. Among these 10 strains, a fungus designated as Kyu-W63 had an especially strong inhibitory effect. Kyu-W63 produced white colonies without spores when cultivated on PDA. Kyu-W63 had a strong aromatic odor when being cultured. Wheat powdery mildew was suppressed even though a membrane filter with a pore size of 0.45 μm was placed between the mycelial colony and wheat leaf segment. However, when activated charcoal was introduced, Kyu-W63 did not inhibit growth of B. graminis. It was presumed that volatile substances were involved in the inhibitory effect of Kyu-W63. GC-MS analysis was used to identify two substances produced by Kyu-W63 with molecular weights of 164 and 166. Kyu-W63 also inhibited the in vitro growth of four plant pathogenic fungi other than B. graminis. Received 19 September 2001/ Accepted in revised form 7 February 2002  相似文献   

3.
牛蒡叶内绿原酸抑制植物病原真菌的研究   总被引:3,自引:1,他引:3       下载免费PDF全文
牛蒡叶内绿原酸经聚酰氨层析法纯化后,对7种植物病原真菌孢子萌发的影响及其对黄瓜枯萎病和辣椒疫病的防效研究表明,绿原酸对7种植物病原真菌孢子的萌发均有一定的抑制作用,抑制效果因病原菌的不同而存在着明显差异。绿原酸对疫霉菌和葫芦刺盘孢孢子萌发的抑制作用最为明显,在较低浓度时即可造成孢子萌发的明显畸变;对葡萄孢菌孢子萌发的影响最小,只能在较高浓度下延长其孢子萌发时间。盆栽防治试验表明,绿原酸对黄瓜枯萎病的相对防效可达50%以上,显著高于对照;大棚防治试验表明,绿原酸对黄瓜枯萎病和辣椒疫病也有良好的防治效果。  相似文献   

4.
BACKGROUND: Leaf wettability considerably defines the degree of retention of water and agrochemical sprays on crop and non‐target plant surfaces. Plant surface structure varies with development therefore the goal was to characterise the wettability of soybean leaf surfaces as a function of growth stage (GS). RESULTS: Adaxial surfaces of leaves developed at GS 16 (BBCH) were 10 times more wettable with water than leaves at the lower canopy (GS 13). By measuring contact angles of a liquid having an intermediate surface tension on different leaf patches, an illustrative wetting profile was elucidated, showing to what degree wetting varies (from > 120° to < 20°) depending on leaf patch and GS. While the critical surface tension of leaf surfaces at different GSs did not correlate with the observed changes, the slope of the Zisman plot accurately represented the increase in wettability of leaves at the upper canopy and lateral shoots (GSs 17 to 19, 21 and 24). The discrimination given by the slopes was even better than that by water contact angles. SEM observations revealed that the low wettability observed at early GSs is mainly due to a dense layer of epicuticular wax crystals. The Zisman plot slope does not represent the changes in leaf roughness (i.e. epicuticular wax deposition), but provides an insight into chemical and compositional surface characteristics at the droplet–leaf interface. CONCLUSIONS: The results with different wettability measurement methods demonstrated that wetting is a feature that characterises each developmental stage of soybean leaves. Positional wettability differences among leaves at the same plant and within the same leaf are relevant for performance, selectivity and plant compatibility of agrochemicals. Implications are discussed. Copyright © 2011 Society of Chemical Industry  相似文献   

5.
The ability of fungal pathogens to develop resistance to fungicides and to overcome genetic resistance in their hosts, coupled with growing public concern for the environment, means that there is an urgent need for novel methods of disease control. The leaf surface provides the first barrier that fungi must overcome in order to gain access to the leaf, but it also provides chemical and physical cues that are necessary for the development of infection structures for many fungal pathogens. Film-forming polymers can coat the leaf surface, acting not just as an extra barrier to infection, but also disguising the cues necessary for germling development. Kaolin particle films can envelop the leaf in a hydrophobic particle film barrier that prevents spores or water from directly contacting the leaf surface and as a result, can suppress infection. Adhesion of fungal spores to the leaf surface, which is important to keep spores on the leaf surface and for appropriate development of the fungus on the leaf surface, can be inhibited, leading to reduced infection and lesion development. Polymer and particle films have been shown to provide disease control in the field, while research on agents that inhibit spore adhesion on leaf surfaces is still in its infancy. There is an urgent need for research on the practicality of using these novel methods under field conditions and on ways of integrating them into current crop protection programmes.  相似文献   

6.
赵帅  刘均洪 《江西植保》2008,31(1):7-10
大部分真菌是腐生的,对植物,动物和人没有危害。但有些真菌在新陈代谢过程中会产生化学结构各异的活性物质,对人,动物和植物有害。例如,曲霉属和镰孢菌属,它们不仅会给农业生产带来巨大的损失,还会影响人和动物的健康。  相似文献   

7.
ABSTRACT To develop mechanistic yield loss models for biotrophic fungi, we need better account for the export of dry matter, carbon, and nitrogen from the leaf into the spores. Three experiments in controlled environment chambers were performed to study the dynamics of uredospores production of Puccinia triticina on seedling leaves of wheat in relation to time, lesion density, and sporulating surface area. The detrimental effect of lesion density on the sporulation capacity of brown rust lesions was confirmed. When lesion density increased, spores production per lesion strongly decreased. However, our results showed that increasing lesion density also greatly reduces lesion size. A model was developed to summarize these relationships. Our main conclusion is that the density effect on spore production per lesion is accounted for by lesion size. When sporulation was related to the sporulating surface area, it became independent of density. As well, carbon and nitrogen contents of the spores were independent of lesion density. Our data suggest that when nitrogen available in the host is limiting, spore production is reduced but nitrogen content of spores tend to remain stable.  相似文献   

8.
从几十种作物的根际和叶围分离获得350株微生物,其中细菌和放线菌分别为200株和150株。对所有这些分离物进行了抑制真菌试验和几丁质酶活性测定。在抑菌试验中,以棉花枯萎病菌、棉花黄萎病菌、黄瓜枯萎病菌,及西瓜枯萎病菌作为供试病原菌,有96个分离物对其中的一种或一种以上的病原菌有抑制作用,其中18个分离物对这4种病原菌都具有强烈的抑制作用。在几丁质酶活性方面,10%的细菌和40%的放线菌都能不同程度地产生几丁质酶。有些菌株几丁质酶活性强,抑菌作用也明显,有些菌株几丁质酶活性弱,抑菌作用弱或无作用,少数菌株几丁质酶活性强,但却无抑菌作用。用几丁质酶液处理病原菌孢子,其萌发率和芽管长度比对照显著降低  相似文献   

9.
野生药用植物内生真菌的分离及拮抗菌株筛选   总被引:1,自引:0,他引:1  
为挖掘生防新资源,采用组织分离法从21种野生药用植物不同组织部位分离纯化内生真菌,以6种植物病原菌为靶标菌筛选拮抗菌株,并根据形态学及分子生物学对菌株进行鉴定,在此基础上研究了高效拮抗菌株对靶标菌菌丝生长及孢子萌发的影响。结果表明:从分离纯化的478株内生真菌中筛选出11株高活性拮抗菌株,分属于青霉属Penicillium、平脐蠕孢属Bipolaris、棘壳孢属Pyrenochaeta、镰孢属Fusarium、粒毛盘菌属Lachnum、垫壳孢属Coniella和Neonectria 7个属,其中青霉属占比最高,达36.36%。平皿对峙试验表明, 棘壳孢菌12-R-5对灰葡萄孢表现出高效性和专一性,其对菌丝抑制率达66.67%。含药平皿试验表明,菌株12-R-5发酵滤液10倍稀释液对灰葡萄孢菌丝生长抑制率达100%,与其他处理差异显著。菌株12-R-5 10倍发酵滤液处理灰葡萄孢10 h,孢子不萌发;100倍稀释液处理对孢子萌发抑制率为91.01%。显微镜观察发现,棘壳孢菌使灰葡萄孢菌丝扭曲变形,膨大肿胀及断裂,部分菌丝发生抑缩、消融现象。说明棘壳孢菌12-R-5菌株具有很好的生防潜力及应用前景。  相似文献   

10.
The effects of the saprophytic mycoflora and its interference with cereal aphids on growth and yield of winter and spring wheat was studied in field experiments in 1980, 1981 and 1982.Yields varied between 5000 and 8000 kg dry matter of kernels per ha. The effect of the saprophytic mycoflora on yield was determined in different treatments: A) no control measures against cereal aphids and saprophytic and necrotrophic fungi, B) no control of cereal aphids, control of saprophytic and necrotrophic fungi, C) control of cereal aphids and control of saprophytic and necrotrophic fungi, D) control of cereal aphids and stimulation of saprophytic mycoflora and E) control of cereal aphids, no control of saprophytic and necrotrophic fungi nor stimulation of saprophytic mycoflora.Considerable differences in top densities of saprophytic mycoflora (10 times as large in A and D as in B and C) were determined. The consequences of these differences for the growth and productivity of wheat were minor. A negative effect of saprophytic mycoflora on the yield could not be detected in 1981 and 1982, whereas a small positive significant effect was found in 1980. This stimulation may have been due to competition between necrotrophic fungal pathogens and saprophytic mycoflora. As a result of favourable weather conditions necrotrophic fungal pathogens were very numerous in 1980 and could form an important yield reducing factor. Yield levels may effect the importance of the necrotrophic and saprophytic mycoflora as yield reducing factors. Additionally, in the presence of aphid honeydew captafol was found to be relatively ineffective against saprophytic fungi.  相似文献   

11.
In tomato plants, α-tomatine, a steroidal glycoalkaloid saponin, inhibits fungal growth. Tomato pathogens that produce host-specific toxins, Alternaria alternata tomato pathotype causing Alternaria stem canker and Corynespora cassiicola causing Corynespora target spot, were investigated for sensitivity to α-tomatine. Although spore germination of A. alternata pathogenic and nonpathogenic to tomato and of C. cassiicola pathogenic to tomato was not affected by 0.1 mM α-tomatine, spore germination of C. cassiicola nonpathogenic to tomato was significantly inhibited. This result showed that A. alternata, regardless of its pathogenicity, and only the C. cassiicola pathogenic to tomato are resistant to α-tomatine. Germinating spores of A. alternata and C. cassiicola resistant to α-tomatine detoxified α-tomatine by degrading it to a less polar product. After inoculation of tomato leaves, spores of A. alternata and C. cassiicola nonpathogenic to tomato germinated and formed appressoria, but did not form infection hyphae in host tissues. When a host-specific toxin (CCT-toxin) produced by C. cassiicola pathogenic to tomato was added to nonpathogenic spores, colonization within leaves was observed in A. alternata, but not in C. cassiicola. On the other hand, when spores of C. cassiicola nonpathogenic to tomato were suspended in spore germination fluid of nonpathogenic A. alternata with α-tomatine detoxification activity, the fungus could be induced to colonize leaves in the presence of CCT-toxin. These results indicate that A. alternata tomato pathotype and C. cassiicola pathogenic to tomato detoxify α-tomatine during infection and that this detoxification is essential for host colonization by pathogens that produce host-specific toxins.  相似文献   

12.
Disease symptoms typical of anthracnose were observed in cucumber, pumpkin and squash after infiltrating leaves with a conidial suspension ofColletotrichum lagenarium, but symptoms developed only in cucumber when droplets of the conidial suspension were applied to the leaf surface. There was no difference in the germination of conidia or in appressorium formation on leaf surfaces of cucumber, pumpkin or squash plants; however, penetration was markedly reduced into pumpkin and squash with or without systemic acquired resistance (SAR) and into cucumber with SAR. Little β-1,3-glucanase and chitinase activities were detected in challenged pumpkin and squash leaves without symptoms even 5 days after inoculation in leaf surfaces. However, the enzymes were detected in pumpkin and squash leaves with symptoms, and activities of the enzymes were greater than those in cucumber. These results suggest that β-1,3-glucanase and chitinase activities are not primary initial defence compounds associated with non-host resistance of pumpkin and squash toC. lagenarium.  相似文献   

13.
The primary ascospore inoculum of Sclerotinia sclerotiorum initially infects rapeseed (Brassica napus var oleifera) via petals. Infected petals fall onto leaf surfaces, resulting in infection of those organs. A scanning electron microscopy (SEM) study of this process was undertaken to elucidate the host-parasite relationship and to determine the best plant organ for detection by serology of early field infection as an aid to disease forecasting and cost-effective disease control. The behaviour of ascospores deposited on young petals and on leaves was compared. Ascospores were deposited by inverting a mature apothecium above either a leaf disc, a young petal or young petal placed on a leaf surface. Spore germination, host penetration and colonization were examined by SEM. On young petals, the following steps in pathogenesis were observed: ascospore adhesion and germination, penetration of the host from short germ tubes and collapse of epidermal cells. Petals were then covered with extensive mycelium. From these sites, the mycelium invaded leaf tissues and infection proceeded. In contrast, ascospores landing directly on leaf surfaces failed to germinate. The role of petals as sites of pre-election in the aetiology of the disease is discussed in relation to the published literature.  相似文献   

14.
The infection process of most rust fungi start with spore germination, directional growth of the germ tube towards a stoma, differentiation of an appressorium over the stoma, and penetration into the substomatal cavity. In the South American wild barley Hordeum chilense Roem. & Schult., wide variation occurs in the degree to which several rust fungal species are able to form appressoria over the stomata. Apparently, features of the plant may hamper early stages of the infection process. Such an early defence is called avoidance. In order to find out how germ tube growth is directed towards stomata, and whether the cuticular wax layer plays a role in this orientated growth and in appressorium differentiation, several orientation and differentiation parameters of Puccinia hordei germ tubes were measured on H. chilense leaves with and without the wax layer. Orientated growth of the germ tubes started upon contact with the epidermal cell junctions. The growth of lateral branches of the germ tube over the first epidermal cell junction that it meets, may help the germ tube to grow along the transverse axis of the leaf. No evidence was found of attraction of the germ tube to stomata. Removal of the cuticular wax layer did not result in loss of germ tube orientation. This suggests that the leaf wax layer has no role in the guidance of germ tubes. On high avoidance accessions, removal of the wax layer allowed appressoria to develop over stomata that would otherwise be overgrown. No effect of the cell widths in stomatal complexes was found on the chance that stomata were overgrown. This suggests that the overgrowth of stomata on H. chilense leaves by P. hordei germ tubes is mainly caused by the wax covering of the stomatal apparatus.  相似文献   

15.
Lysobacter enzymogenes C3 is a bacterial biological control agent that exhibits antagonism against multiple fungal pathogens. Its antifungal activity was attributed in part to lytic enzymes. In this study, a heat-stable antifungal factor (HSAF), an antibiotic complex consisting of dihydromaltophilin and structurally related macrocyclic lactams, was found to be responsible for antagonism by C3 against fungi and oomycetes in culture. HSAF in purified form exhibited inhibitory activity against a wide range of fungal and oomycetes species in vitro, inhibiting spore germination, and disrupting hyphal polarity in sensitive fungi. When applied to tall fescue leaves as a partially-purified extract, HSAF at 25 mug/ml and higher inhibited germination of conidia of Bipolaris sorokiniana compared with the control. Although application of HSAF at 12.5 mug/ml did not reduce the incidence of conidial germination, it inhibited appressorium formation and suppressed Bipolaris leaf spot development. Two mutant strains of C3 (K19 and DeltaNRPS) that were disrupted in different domains in the hybrid polyketide synthase-nonribosomal peptide synthetase gene for HSAF biosynthesis and had lost the ability to produce HSAF were compared with the wild-type strain for biological control efficacy against Bipolaris leaf spot on tall fescue and Fusarium head blight, caused by Fusarium graminearum, on wheat. Both mutant strains exhibited decreased capacity to reduce the incidence and severity of Bipolaris leaf spot compared with C3. In contrast, the mutant strains were as efficacious as the wild-type strain in reducing the severity of Fusarium head blight. Thus, HSAF appears to be a mechanism for biological control by strain C3 against some, but not all, plant pathogenic fungi.  相似文献   

16.
Field and glasshouse observations of Lolium spp. grasses indicated that the lower, abaxial, leaf surface was rarely infected by powdery mildew ( Erysiphe graminis ) even when the upper, adaxial, surface was densely colonized. Experiments showed that conidia of two strains of E. graminis , one from Lolium and one from Avena , germinated equally well on both surfaces of Lolium and Avena leaves, but that the subsequent growth and development of germlings was impaired on the lower surface of Lolium leaves, so that most formed only multiple short germ tubes or an abnormal long tube, and only c. 25% or fewer formed infection structures. This contributes to the apparent resistance of the lower Lolium leaf surface to powdery mildew and may help to explain why the disease is relatively unimportant in UK ryegrass crops, since infection structures develop at a high frequency on only 50% of the leaf area, i.e. the upper surface. Scanning electron microscopy showed that the epicuticular waxes on the lower Lolium leaf surface form amorphous sheets. This contrasts with the crystalline plate waxes seen on the upper surface of Lolium leaves and on both surfaces of oat leaves. However, when the lower Lolium leaf surface was washed with chloroform to remove epicuticular wax, normal germling and infection structure development was obtained on the wax-free surface. This suggests that the sheet waxes prevent the pathogen gaining access to features of the cuticular membrane which trigger normal germling development.  相似文献   

17.
Active ingredient deposition as a whole during foliar spray application was studied by means of microscopic and macroscopic methods. High-speed photography of the impact of spray droplets showed that rebound from reflective plant surfaces was reduced only with surfactant concentrations well above the critical micelle concentration. These results correlate with laboratory spraying experiments to determine quantitatively the retention of spray solutions. The dynamic interaction between droplet and foliage seemed to be specifically dependent on surfactant structure, concentration and the distribution of isomers or by-products in the technical product. Rough surfaces with epicuticular wax crystals were difficult to wet; the orientation of the leaf, however, had little influence on retention. Apolar artificial surfaces retained water rather well and are therefore unsuitable as model surfaces for reflective leaves. Measurement of dynamic surface tension at 100 msec gave a satisfactory correlation with retention values in the case of liquids containing surfactant but failed to predict the good adhesion of polyvinyl alcohol solutions.  相似文献   

18.
A pathotype of Drechslera avenae (Eidam) Scharif exhibited host‐specificity, being pathogenic to Avena sterilis L but not to a number of related or unrelated species tested. In culture, the fungus produces a metabolite which was identified as the macrodiolide pyrenophorol (5,13‐dihydroxy‐8,16‐dimethyl‐1,9‐dioxa‐cyclohexadeca‐3,11‐diene‐2,10‐dione). This compound at a concentration of 320 µM was phytotoxic to A sterilis and considerably less so to Avena fatua L. The phytotoxicity was expressed as leaf necrosis on seedling cuttings partially immersed in pyrenophorol solution and as ‘green islands’ on detached leaves on which droplets of the solution were placed. Seed germination and seedling growth of A sterilis were not affected. Pyrenophorol at concentrations up to 640 µM did not cause any symptoms of phytotoxicity to a number of other monocotyledons or dicotyledons tested, with the exception of Lycopersicon esculentum Miller on which leaf necrosis was observed after application of the substance through the vascular system to seedling cuttings. These findings are discussed in relation to the exploitation of such compounds of natural origin as wild oat herbicides. © 2000 Society of Chemical Industry  相似文献   

19.
Conidial germination and differentiation, the so‐called prepenetration processes, of the barley powdery mildew fungus (Blumeria graminis f.sp. hordei) are triggered in vitro by very‐long‐chain aldehydes, minor constituents of barley leaf wax. However, until now it has not been demonstrated that these cuticle‐derived molecules also play a significant role in the initiation and promotion of the fungal prepenetration processes in vivo, on the surface of a living plant leaf. In the maize (Zea mays) wax mutant glossy11, which is completely devoid of cuticular very‐long‐chain aldehydes, germination and appressorial differentiation of B. graminis were strongly impeded. Spraying the mutant leaf surface with aldehyde‐containing wild‐type wax or pure n‐hexacosanal (C26‐aldehyde) fully restored fungal prepenetration, whereas maize wild‐type leaf surfaces coated with n‐docosanoic acid exhibited reduced conidial germination rates of 23%, and only 5% of the conidia differentiated infection structures. In vitro studies were performed to further corroborate the extensive prevention of fungal germination and differentiation in response to artificial surfaces coated with aldehyde‐deficient maize wax. Because of its phenotype affecting the B. graminis prepenetration processes, the glossy11 mutation of maize may become a valuable molecular target and genetic tool that could provide a means of developing basal powdery mildew resistance in the globally important crops wheat and barley.  相似文献   

20.
细辛挥发油抗植物病原真菌活性初步研究   总被引:12,自引:0,他引:12  
从天然产物包括植物中开发新的高效低毒环境友好型杀虫杀菌剂,是农药领域重要的研究内容。细辛(Asarum)为马兜铃科(Aristolochiaceae)草本植物,是我国特有的传统中药,中医用于治疗风寒头痛、痰饮咳喘、关节疼痛、鼻塞、牙痛、胃炎以及口腔糜烂等。有文献报道,细辛提取物对黄曲霉(Aspergillus sp.)、黑曲霉(Aspergillusr sp.)、人类致病菌白色念珠菌(Candida sp.)、伤寒杆菌(Salmonella sp.)有抑菌作用;对人参黑斑病菌(Alternaria panax)、人参根疫病菌(Phytophthora cactorum)、腐皮镰孢(Fusarium solani)和番茄灰霉病菌(Botrytis cinerea)等植物病原菌具有较好的抗菌效果。有关细辛抗菌机制的研究尚未见报道。本文选择9属16种植物病原真菌进行生物测定,探讨细辛挥发油抗菌的广谱性,并以Alternaria humicola为研究对象,对其抗菌机理进行初步研究,以便为开发新型植物杀菌剂提供理论依据。  相似文献   

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