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1.
The severity of clubroot disease caused by Plasmodiophora brassicae Woron. depended on the density of resting spores in soil, soil type, soil pH, and host susceptibility. The dose response curve (DRC) was determined to indicate the relationship between the disease index and these parameters for predicting the disease severity for each field. DRC patterns varied with the soil types and even among soils of the same type depending on the sampling areas. Disease incidence was lower in the soils adjusted to a higher pH than in those at the initial pH. DRC patterns were also influenced by plant species or cultivars. The DRC is useful for estimating the potential disease severity in agricultural fields with different soils and different plants and essential for the development of an integrated pest management (IPM) strategy for the control of clubroot disease.  相似文献   

2.
pp. 891–896

In order to elucidate the effect of converter furnace slag applied as a liming amendment and continuous cropping of Qing gin cai (Brassicae chinensis L.) or leaf daikon (Raphanus sativus) on the incidence of clubroot disease and the resting spore density in soil, pot cultivation tests were carried out. In the pot tests, pH(H2O) was 5.2–6.1 in the non-application pot, and 7.1–7.6 in the pots receiving an application of converter furnace slag.

A significant incidence of club-root disease was apparent in the non-application pots of Qing gin cai. The resting spore density in the soils decreased soon after harvesting, but then increased after mixing the infected roots and soils.

On the other hand, the incidence of the disease was suppressed significantly, in application pots of continuously cropped Qing gin cai. Furthermore, the resting spore density in these soils decreased with repeated cultivation.

These results agreed well with the results from field cultivation tests that the authors have already reported. Macfarlane has reported that the suppression mechanism of clubroot disease brought about by the amelioration of soil acidity is effected through the inhibition of resting spore germination.

In this study, the decrease of resting spores density was associated with the cultivation of Qing gin cai under conditions of high soil pH. From these results, it is concluded that the suppression mechanism is caused by some phenomenon that occurs after the primary zoospore is infected with the root hair.

Until now, avoidance of continuous cropping of susceptible cruciferous vegetables was promoted as one of the most fundamental countermeasures for the control of clubroot disease. However, continuous cropping of suceptible cruciferous vegetables will be a useful technique to decrease resting density specifically under conditions of high soil pH.  相似文献   

3.
pp. 891–896
In order to elucidate the effect of converter furnace slag applied as a liming amendment and continuous cropping of Qing gin cai ( Brassicae chinensis L.) or leaf daikon ( Raphanus sativus ) on the incidence of clubroot disease and the resting spore density in soil, pot cultivation tests were carried out. In the pot tests, pH(H2O) was 5.2–6.1 in the non-application pot, and 7.1–7.6 in the pots receiving an application of converter furnace slag.
A significant incidence of club-root disease was apparent in the non-application pots of Qing gin cai . The resting spore density in the soils decreased soon after harvesting, but then increased after mixing the infected roots and soils.
On the other hand, the incidence of the disease was suppressed significantly, in application pots of continuously cropped Qing gin cai . Furthermore, the resting spore density in these soils decreased with repeated cultivation.
These results agreed well with the results from field cultivation tests that the authors have already reported. Macfarlane has reported that the suppression mechanism of clubroot disease brought about by the amelioration of soil acidity is effected through the inhibition of resting spore germination.
In this study, the decrease of resting spores density was associated with the cultivation of Qing gin cai under conditions of high soil pH. From these results, it is concluded that the suppression mechanism is caused by some phenomenon that occurs after the primary zoospore is infected with the root hair.
Until now, avoidance of continuous cropping of susceptible cruciferous vegetables was promoted as one of the most fundamental countermeasures for the control of clubroot disease. However, continuous cropping of suceptible cruciferous vegetables will be a useful technique to decrease resting density specifically under conditions of high soil pH.  相似文献   

4.
Abstract

Relationships between the disease severity of clubroot caused by Plasmodiophora brassicae, the soil pH value and the concentration of exchangeable calcium associated with liming were investigated under controlled density of resting spores. Disease indices were lower in the plots treated with lime than in the control plots without lime application. The disease index was significantly lower when lime materials were mixed two weeks before sowing compared with four weeks before sowing. The reduction rate of the disease index was larger for a concentration of 2.0 g kg?1 than 1.0 g kg?1 of lime in soil. The density of the resting spores in soil at the time of sowing was significantly reduced by liming. The reduction rate was 17–31 % for calcium cyanamide, 12–29% for dolomite, and 20–39% for calcium carbonate compared with the control plot. It was suggested that the disease severity was influenced by both the soil pH and the content of exchangeable calcium in soil based on the analysis of covariance.  相似文献   

5.
The effect of bacteria on the expression of clubroot of radish caused by the obligate parasite, Plasmodiophora brassicae, was studied. Inoculations with the bacterial strains isolated from roots of radish plants increased slightly, decreased slightly or did not change the number of root hairs colonized by P. brassicae in the root hair, i.e. primary phase of colonization. Five of six bacterial strains decreased the incidence of clubroot which was associated with a decrease in the extent of P. brassicae -colonization of the stele, i.e. secondary phase colonization. The role of root surface-inhabiting bacteria in clubroot disease development in radish under controlled environmental conditions is discussed.  相似文献   

6.
The effects of the cultivation of preceding plants on the inhibition of Fusarium wilts, vessel diseases of cucumber (Cucumis sativus) caused by Fusarium oxysporum f. sp. cucumerinum (FOC) and yellows of daikon (Raphanus sativus var. longipinnatus) caused by F. oxysporum f. sp. raphani (FOR), were examined. When the cucumber or daikon plant was cultivated as a succeeding plant in the pots where the soils had been inoculated with a spore suspension of FOe or FOR and then various preceding plants had been cultivated, the percentage of disease of the succeeding plants was lower in some plots than in the control plot without preceding plants. Spinach (Spinacia oleracea, cv. Atlas) and burdock (Arctium lappa, cv. Takinogawa) inhibited significantly the vessel disease caused by FOe. Thrnip (Brassica rapa, Parental Line Nou No.1) and spinach (S. oleracea, cv. Try) suppressed the yellows caused by FOR. When the number of FOC or FOR was estimated by the recovery using Komada med.ium and by testing their pathogenicity to the host plant, cucumber or daikon, the numbers of both were not reduced in the plots even where these plants had been cultivated initially. The soil extract from the pots, where preceding plants had been cultivated, did not affect the conidia of FOC and FOR. In both FOC and FOR experiments, the cultivation of preceding plants increased the number of bacteria in soil. Additionally, in the FOR experiment, preceding plants, turnip and spinach, increased the number of F. oxysporum (FOX) except for FOR and decreased the proportion of FOR to FOX. It was suggested that these preceding plants might affect the pathogens of Fusarium wilt indirectly by the changes in the numbers and flora of soil microorganisms.  相似文献   

7.
Abstract

Gram-positive bacterium BRF-1 isolated from the rhizosphere of root-rotten diseased soybean plants shows strong antifungal activity on plates. In the present study, the ability of BRF-1 to control brown stem rot disease and to promote plant growth was examined using soybean plants grown in pots. Brown stem rot is a severe soil-borne disease of soybean that is caused by the pathogenic fungus Phialophora gregata. Eighteen-day-old soybean seedlings were grown in a mixture of soil (40 mL) and BRF-1 suspension (10 mL) and were dipped in a suspension of P. gregata (106 c.f.u. mL?1), and the severity of the disease was judged 62 days after the fungal inoculation. Inoculation with BRF-1 at 107 and 108 c.f.u. mL?1 significantly lowered the severity of the disease. Soybean seeds incubated in 100 mL of the BRF-1 suspension (2 × 106 c.f.u. mL?1) were sown in pots filled with sand, and plants were collected 7 days after emergence. The dry weight increase in shoots and roots and mineral absorption were significantly stimulated by the inoculation. These results suggest that BRF-1 might be an effective biocontrol agent to manage brown stem rot disease in soybean. The 16S rDNA sequence of BRF-1 showed high homology with sequences of Paenibacillus polymyxa strains (e.g. 99.7% identity with P. polymyxa strain WY110).  相似文献   

8.
The present study deals with the isolation and characterization of Azospirillum strains isolated from roots and rhizosphere soil of wheat (at tillering and anthesis stages) plants grown under different moisture regimes in the field and in pots. The survival of Azospirillum isolates from plants of irrigated field and those from well-watered pots was higher than that of Azospirillum strains isolated from roots and rhizosphere soils of plants grown under arid and semiarid (14–8% soil moisture) field conditions and under water-stressed (8% soil moisture) conditions in pots. On the basis of carbon/nitrogen source utilization, the Azospirillum strains isolated from wheat under field and pot conditions were grouped in three groups. The unweighted pair group method with arithmetic means cluster analysis based on random amplification of polymorphic DNA showed that two groups of Azospirillum were similar. The strains isolated from plants (at tillering stage) grown under low moisture conditions either in pots or in field were genetically similar to strains isolated from plants grown under well-watered conditions in both pots and field. Inoculation of wheat with isolates from water-stressed plants induced tolerance to water stress in inoculated plants. Isolates from water-stressed conditions exhibited lower production of indole acetic acid, gibberellic acid, and trans zeatin riboside but a higher production of abscisic acid.  相似文献   

9.
The Azospirillum 10SW used in our experiments was isolated from roots of wheat growing in nitrogen-poor soil of a hilly region of Nepal, where inorganic nitrogen fertilizers were never used. The main objectives of this work were to assess the effects of inorganic nitrogen fertilization in the yield responses of wheat grown in association with the bacteria. The in vitro experiments were done in laboratory, whereas the pot experiments were performed in a greenhouse. The nitrogenase activities of in vitro grown Azospirillum were repressed by nitrate. The magnitude of repression was lower when the bacteria were growing in association with wheat. The number of roots per plant was increased significantly in inoculated plants irrespective of the nitrate concentration of the medium. Inoculation with Azospirillum 10SW also increased the yield of wheat grown in pots with medium levels of nitrogen fertilization. These data show the possibility of inoculation of this Azospirillum spp. in combination with nitrogen fertilizer to improve the yield of wheat. Azospirillum inoculation enhanced the development of roots and shoots in the early growth stages of wheat. It may be one of the factors responsible for the yield increases. Received: 11 December 1996  相似文献   

10.
ABSTRACT

A greenhouse experiment was conducted to determine the bioavailability of copper (Cu) in clay loam and sandy clay loam soil. Lettuce (Lactuca sativa) and spinach (Spinacia oleracea) were grown in pots for 45 d. When mature, plants were treated for 15 additional days with 0, 100, 250, 500, or 1000 mg Cu kg?1 as CuSO4·5H2O. After harvest, Cu in soils and plant tissues was determined. In soils, applied Cu raised total and EDTA-extractible Cu. Results also revealed that the amounts of Cu extracted from sandy clay loam soil (80%) were higher than those extracted from clay loam soil (70%). In plants, increasing soil Cu concentration increased plant concentration of the metal. Plant species vary in their capacity for Cu accumulation: Lettuce has a relatively higher potential for Cu uptake and translocation than does spinach. Cu accumulation also differs among plant organs. In lettuce, metal accumulation is higher in roots than in shoots, where 60% to 80% of the total Cu of the plant is located in the roots. However, in spinach, there is no significant difference in Cu content between roots and shoots. The transfer of the metal from soil to plant is higher for plants grown on sandy clay loam soil. For a given rate of applied Cu, metal content in plant tissues is higher on sandy clay loam soil due to its higher transfer coefficient (CT) from soil to plant. Nevertheless, all crops studied showed a positive linear relationship between extractible soil Cu and plant Cu.  相似文献   

11.
Glasshouse bioassays were conducted to assess the impact of different inputs of oilseed rape plant material on soil and rhizosphere microbial diversity associated with subsequently grown oilseed rape (Brassica napus) plants. The first bioassay focussed on the effect of oilseed rape rhizodeposits and fresh detached root material on microbial communities, in a rapid-cycling experiment in which oilseed rape plants were grown successively in pots of field soil for 4 weeks at a time, with six cycles of repeated vegetative planting in the same pot. Molecular analyses of the microbial communities after each cycle showed that the obligate parasite Olpidium brassicae infected the roots of oilseed rape within 4 weeks after the first planting (irrespective of the influence of rhizodeposits alone or in the presence of fresh detached root material), and consistently dominated the rhizosphere fungal community, ranging in relative abundance from 43 to 88 % when oilseed rape was grown more than once in the same soil. Fresh detached root material also led to a reduction in diversity within the soil fungal community, due to the increased relative abundance of O. brassicae. In addition, rhizosphere bacterial communities were found to have a reduced diversity over time when fresh root material was retained in the soil. In the second glasshouse experiment, the effect of incorporating mature, field-derived oilseed rape crop residues (shoots and root material) on microbial communities associated with subsequently grown oilseed rape was investigated. As before, molecular analyses revealed that O. brassicae dominated the rhizosphere fungal community, despite not being prevalent in either the residue material or soil fungal communities.  相似文献   

12.
Abstract

Seedlings of Brassica oleracea were infected by the pathogenic fungus Plasmodiophora brassicae. causing clubroot formation. Proteins from healthy roots and clubroots were extracted by two different methods and analysed by two-dimensional gel electrophoresis. Host-proteins induced during clubroot infection were not analysed, since the fungus was always present in the infected roots. This work showed that several proteins present in non-infected roots were lost or strongly reduced in the infected roots.  相似文献   

13.
Summary Wheat cultivars assumed to be non-susceptible to vesicular-arbuscular (VA) mycorrhizae became colonized, and this effect persisted under different growth conditions. Colonization of all cultivars was similar regardless of the amount of inoculum and the time interval of inoculation. Different plant growth temperatures and the support given by the culture media, inoculation with different endophytes, and inoculation with sterilized and unsterilized spores affected VA colonization levels, although the level of colonization reached in cv. Champlein was similar to that reached in cv. 7-Cerros under each condition. VA mycorrhizal colonization was also affected by different plant growth conditions. After VA reinoculation, the plant dry weight of Castan and 7-Cerros increased, but not Negrillo and Champlein cultivars. VA mycorrhizae increased the shoot dry weight of 7-Cerros only, but not of Champlein, when grown at 35/24°C, and had no effect on the dry weight of either cultivar grown at 18/12°C and 42/24°C. Inoculation with Glomus mosseae increased the dry weight of the cultivars more than inoculation with G. fasciculatum or G. agregatum. The effect on the plant dry weight was greater in plants grown in soil than in sand/vermiculite pots. Inoculation with sterilized and unsterilized spores of G. mosseae, either in soil pots or in sand/vermiculite tubes, did not increase the plant dry weight. Our results indicate that there was no close relationship between the level of root colonization and the effect on plant growth. The effects of accompanying microorganisms in the VA inoculum on VA mycorrhizal symbiosis are discussed.  相似文献   

14.
Mycorrhizae are fungal symbionts forming mutualistic relationships with plant roots. This study was undertaken to evaluate the overall influence of arbuscular mycorrhizal fungi (AMF) on the overall growth and development of carrot plant. Surface-sterilized seeds of carrot were sown in earthen pots filled with sterile soil. Half of the pots were inoculated with AMF spores; the other half without any AMF inoculation represented control. After germination inoculated plants, along with the controls, were sampled at 20, 40, 60 and 80 days of growth after seedling emergence. There is a progressive net increase in growth with each 20-day interval after seedling emergence. Storage roots of carrot had a higher level of metabolites and nutrients like nitrogen, phosphorus and potassium in mycorrhiza colonized plants than the control. High performance liquid chromatography analysis indicated an increase in the carbohydrate fractions in AMF-inoculated roots. Thus, mycorrhiza has been found increasing the growth, metabolites and nutrition of carrot plant.  相似文献   

15.
Summary Spores of the vesicular-arbuscular mycorrhizal (VAM) fungus Glomus clarum obtained from sweet potatoes grown in soil inoculated with this fungus and with an enrichment culture of Acetobacter diazotrophicus contained A. diazotrophicus and several other bacteria, including a diazotrophic Klebsiella sp. Inoculation of micropropagated sweet potatoes with G. clarum and A. diazotrophicus enhanced spore formation in soil compared to VAM inoculation alone. Plants inoculated with VAM spores containing the bacteria showed additional increases in the number of spores formed within roots. A. diazotrophicus infected aerial plant parts only when inoculated together with VAM or when present within VAM spores. Micropropagated sugarcane seedlings inoculated with the same VAM spores containing the diazotrophs also contained much higher numbers of A. diazotrophicus in aerial parts than seedlings inoculated in vitro with the bacteria alone. When grown in non-sterile soil, the sugarcane seedlings again showed the greatest infection of aerial parts after inoculation with VAM spores containing the diazotrophs. This treatment also increased VAM colonization and the numbers of spores formed within roots. Similar effects were observed in sweet sorghum except that the aerial plant parts were not infected by A. diazotrophicus.  相似文献   

16.
Abstract

The extent of the rhizosphere was investigated by using root volume and root length in ten replications. The experiment was conducted using split cylindrical pots, 23 cm long and 7.5 cm in diameter. Sorghum (Sorghum bicolor) plants were grown in a calcareous soil of low phosphorus (P) status. Fertilized soil (750 g soil and 250 g sand) was placed in a closed‐bottom PVC tube. At harvest, plant roots were gently removed from the pots and the roots were shaken five times in order to reduce variation between samples. The soil that was easily shaken from the root surface was assumed to be non‐rhizosphere soil, and the soil adhering to the root segment after a gentle shake was considered to be rhizosphere soil. The rhizosphere thickness was found to have a range of 0.39 to 0.64 mm from the root surface (0.51 mm average thickness). Rhizosphere soil mass was also calculated and found to be on average 22% of the total soil mass.  相似文献   

17.
 Populations of plant parasitic nematodes and their effects on symbiotic nitrogen (N) fixation in herbaceous legumes and on some selected characteristics of other plant species associated with such cover crops were studied. Two legume species [mucuna, Mucuna pruriens (L) DC. var. utilis (Wright) Bruck and lablab, Lablab purpureus L. Sweet], one grass/weed species [imperata, Imperata cylindrica (L.) Rauschel] and a cereal (maize, Zea mays L.) were used. There were three soil treatments (fumigation, fumigation plus inoculation with Meloidogyne species, and an untreated control). Plant parasitic nematode populations in soil, roots and nodules were determined at 4, 8 and 12 weeks after planting. The response of the phytoparasitic nematodes to soil treatments varied according to the plant species present. The predominant nematodes in soils, roots and nodules of legumes were of the genus Meloidogyne, whereas other genera of parasitic nematodes dominated the fauna in soils and roots of maize and imperata. Biomass yield of mucuna was not significantly affected by either Meloidogyne spp. or the other genera of phytoparasitic nematodes. In contrast, the dry matter yield of lablab measured at 12 weeks was reduced by 16% in inoculated compared with fumigated soils. Similarly, the biomass yields of maize and imperata were reduced by 10% and 29%, respectively, in unfumigated rather than fumigated soils. The amounts of N accumulated in mucuna, maize and imperata were not significantly affected by the two groups of plant parasitic nematodes. However, at 12 weeks, lablab grown on inoculated soils accumulated only 69% of the N found in plants grown on fumigated soils. Inoculation of soil with Meloidogyne spp. significantly increased the number of nodules on lablab roots compared with the non-inoculated treatments, whereas nodulation in mucuna was not affected by soil treatment. After 12 weeks, the quantity of N2 derived from symbiotic fixation in mucuna was not significantly affected by soil treatments whereas the amount of fixed N in lablab was 32% lower in inoculated than in fumigated soils. Possible mechanisms for the non-suppressive effect of plant parasitic nematodes on mucuna are discussed. Received: 12 March 1999  相似文献   

18.
Lindane ( γ‐hexachlorocyclohexane or γ‐HCH) is an organochlorine insecticide previously used extensively for the control of agricultural pests. We studied the effects of soil HCH contamination on vegetation and its associated arbuscular mycorrhizas (AM). The polluted and unpolluted plots had similar plant cover, with the same species richness and abundance. Plantago lanceolata plants were selected for mycorrhizal analysis because of their presence in both plots and known mycotrophy. The presence of HCH appeared to have no significant effect on the extent of colonization of Plantago roots by AM, suggesting a similar functionality of the fungal symbionts. However, infective AM propagules, the density of AM spores and viable AM hyphae in the rhizosphere were much less in the HCH‐polluted soil than in the unpolluted plot. Pre‐inoculation of four plant species with an isolate of Glomus deserticola obtained from the HCH‐contaminated soil resulted in increased growth and fungal colonization of roots compared with plants pre‐inoculated with the introduced fungus G. macrocarpum or colonized by the consortium of indigenous AM fungal species, when those plants were transplanted to an HCH‐contaminated soil. This suggests that the fungus increases the tolerance of plants to the toxic soil environment. We conclude that herbaceous and woody plants can grow in soil with little P contaminated with <100 mg HCH kg?1 with the help of tolerant AM, despite the detrimental effect of HCH on AM fungal propagules in soil. The effects of AM fungi on plant growth and soil microbial community structure in HCH‐polluted sites could be important for remediation of the pollutant through the microbial activity in the rhizosphere.  相似文献   

19.
Pea plants were grown in γ-irradiated soil in pots with and without addition of the AM fungus Glomus intraradices at sufficient N and limiting P. Depending on the growth phase of the plant presence of AM had negative or positive effect on rhizosphere activity. Before flowering during nutrient acquisition AM decreased rhizosphere respiration and number of protozoa but did not affect bacterial number suggesting top-down regulation of bacterial number by protozoan grazing. In contrast, during flowering and pod formation AM stimulated rhizosphere respiration and the negative effect on protozoa decreased. AM also affected the composition of the rhizosphere bacterial community as revealed from DNA analysis (DGGE). With or without mycorrhiza, rhizosphere respiration was P-limited on very young roots, not nutrient limited at more mature roots and C-limited at withering. This suggests changes in the rhizosphere community during plant growth also supported by changes in the bacteria (DGGE).  相似文献   

20.
丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)和根围促生细菌(plant growthpromoting rhizobacteria,PGPR)能降解有毒有机物,但分解土壤中残留甲胺磷农药尚未见报道。本试验旨在测定AMF和PGPR矿化甲胺磷的效应。试验设甲胺磷0、50、100和150μg g-1下,对番茄(Lycospersicon esculentum,品种金冠)接种AMF Glomus mosseae(Gm)、Glomus etunicatum(Ge)、PGPR Bacillus subtilis(Bs)、Bacillus sp.B697(Bsp)、Pseudomonas fluorescens(Pf)、Gm+Bs、Gm+Bsp、Gm+Pf、Ge+Bs、Ge+Bsp、Ge+Pf和不接种对照,共48个处理。结果表明,接种Gm显著增加了根区土壤和根内PGPR定殖数量,而Pf处理显著提高了AMF侵染率,表明Gm与Pf能够相互促进。甲胺磷100μg g-1水平下,Gm+Pf处理的番茄株高显著高于其他处理,地上部干重显著高于其他处理(Ge+Pf除外),根系干重显著高于对照、PGPR各处理和Ge处理;而根内甲胺磷浓度则显著低于其他处理,茎叶中的则显著低于其他处理(Gm+Bs、Gm+Bsp和Ge+Pf除外)。AMF、PGPR或AMF+PGPR处理均显著降低番茄体内甲胺磷浓度。甲胺磷50~100μg g-1水平下,Gm+Pf显著降低根区土壤中甲胺磷残留量,矿化率达52%~60.6%。AMF和PGPR显著提高了根区土壤中甲胺脱氢酶活性,其中以Gm+Pf组合处理的酶活性最高。表明AMF和PGPR均能促进土壤中残留甲胺磷的降解,Gm+Pf是本试验条件下的最佳组合。  相似文献   

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