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1.
Ten isolates of Trichoderma spp were examined for their ability to antagonize growth and to parasitize mycelium of Sclerotium rolfsii (Sr-1) on agar media, to inhibit germination of sclerotia of S. rolfsii on natural soil plates and to sporulate on the sclerotia, and to protect bean seedlings against the pathogen in the greenhouse. A high negative correlation (r = ?0.844) was observed between plant stand in the greenhouse and sclerotial germination on soil plates but not with antagonism on agar plates. Three isolates of T. harzianum (Th-7, Th-20, WT-6) and one of T. hamatum (TRI-4) were especially effective in reducing sclerotial germination and controlling disease in the greenhouse. Three isolates of Trichoderma spp (WT-6, TMP, and TRI-4), effective in reducing sclerotial germination of isolate Sr-1, also prevented sclerotial germination in four out of five additional S. rolfsii isolates studied. 相似文献
2.
Nineteen monoconidial isolates (referred to as clones) of Trichoderma from different species aggregates, one isolate of Gliocladium virens, and one isolate of an Acrostalagmus sp. (that was naturally associated with sclerotia of Sclerotinia spp and Macrophomina phaseolina) were tested. They were incubated in controlled conditions, in sterile soil, with sclerotia of Corticium rolfsii, Sclerotinia minor, or S. sclerotiorum. At the end of appropriate periods of incubation (respectively 26, 20 and 8 days), the sclerotia were retrieved from soil and checked for invasion by the antagonist. Important differences between the parasitic ability of Trichoderma clones were noted. Clones from at least three different species (T. aureoviride, T. hamatum, T. harzianum) exhibited a high antagonistic activity. Activity of the G. virens isolate was at the same level as the best clones of Trichoderma, whereas no parasitic tendencies were found in the isolate of Acrostalagmus sp., thus confirming previous results.A rather good correlation was found between the capacity of the clones for attacking C. rolfsii sclerotia and their ability to parasitize both Sclerotinia.In conclusion, it is proposed that a screening with only one of the sclerotial species would give clones efficient against all three, and possibly against related sclerotial types. 相似文献
3.
The development and survival of the mycoparasite Coniothyrium minitans associated with sclerotia of the plant pathogen Sclerotinia sclerotiorum was studied in pasteurised and non-sterile (untreated) soil. Using scanning electron microscopy, developing pycnidia were first seen within the sclerotial medulla at 7 days post-inoculation with the mycoparasite in pasteurised soil. However, by 14 days post-inoculation, pycnidia had developed fully in both pasteurised and non-pasteurised treatments, and conidial droplets were exuded onto the outer surface of the infected sclerotia. Thirty days post-inoculation, irrespective of soil treatment, the majority of the sclerotial medulla had been converted to pycnidia, with the sclerotial rind remaining largely intact. The pycnidia and dried intact droplets were still observed 6 months post-inoculation with C. minitans, although the conidia on the outer surface of the dried droplets had largely collapsed by this stage. Germinability studies at 10 months post-inoculation showed that approximately 13% of the conidia in dried droplets were still viable. This work shows the potential for infected sclerotia of S. sclerotiorum to provide a unique reservoir for the survival of C. minitans. 相似文献
4.
Aspects of the biology of C. minitans and its potential for control of S. sclerotiorum were investigated.Temperatures below 7°C resulted in comparatively slow rates of germination and infection of sclerotia by C. minitans. The optimum temperature for germination, growth, infection of sclerotia, and destructive parasitism by C. minitans was 20°C. The optimum relative humidity for germination, growth and infection by C. minitans was above 95%.Autumn inoculations with suspensions of conidia, pycnidia and mycelium of C. minitans in the field resulted in negligible numbers of sclerotia remaining viable after 1 month. With culture-grown sclerotia 2 months were required for a similar reduction of sclerotial viability. In the absence of C. minitans mulching had no significant effect on sclerotial viability. In the presence of C. minitans mulching did, however, influence the viability and infection by C. minitans of culture-grown sclerotia. Populations of field sclerotia also differed from culture-grown sclerotia in that they harboured an internal population of microorganisms, which included C. minitans, and had a lower level of viability at the commencement of the treatments.A winter application of C. minitans did not result in significant infection of sclerotia nor in a reduction in viability of sclerotia. This failure is believed to have resulted from low temperatures and dry conditions. 相似文献
5.
Andrew R. Entwistle Peter R. Merriman Herbie L. Munasinghe Patricia Mitchell 《Soil biology & biochemistry》1982,14(3):229-232
A single injection of 0.2 ml diallyl disulphide (DADS) at 0.156% (v/v) into soil containing naturally-produced sclerotia of Sclerotium cepivorum and maintained in the laboratory at 15°C stimulated sclerotial germination and reduced sclerotial numbers by 67%; ungerminated sclerotia remained viable. Higher concentrations of DADS had no additional effect except that at 20% (v/v), germination was slightly inhibited. A similar reduction in sclerotial numbers was obtained when the mixture of soil and sclerotia was exposed to DADS vapour. Four, monthly applications of DADS at 0.2 ml 0.15% (v/v) per application did not give a further reduction.The effect of DADS was temperature dependant, with a reduction in sclerotial numbers of 65 and 9% at 15 and 5°C respectively. 相似文献
6.
Sclerotia are the primary over wintering inoculum of Sclerotinia sclerotiorum (Lib.) de Bary. The effects of tillage on the primary inoculum are not well understood. The purpose of this research was to study sclerotial viability over time and between burial depths in soil, to identify bacteria colonizing and degrading the sclerotia, and determine whether these bacteria may be utilized as biological control agents. Correlation analysis indicated that a significant negative relationship existed between sclerotial viability and elapsed temporal factors (R2=−0.68, P<0.0001), and depth of burial (R2=−0.58, P<0.0001). After twelve months, sclerotia on the soil surface had the highest viability (57.5%), followed by those at the 5 cm depth (12.5%), and only 2.5% of those placed at the 10 cm depth remained viable. A significant negative relationship between sclerotial viability and bacterial populations also existed (R2=−0.60, P<0.0001). Two hundred and sixty-eight bacteria were isolated from sclerotia, 29 of which showed strong in vitro antagonism to the mycelial growth of S. sclerotiorum. Biodiversity of the inhibitory bacterial isolates was minimal on sclerotia from the soil surface and within all depths sampled at three months (i.e. in January). All burial depths within the April and July sampling dates produced bacterial diversities that were distinct from each other. 相似文献
7.
Rhizoctonia solani causes worldwide losses in numerous crops. Sclerotia of R. solani remain viable for several years in soil and are an important source of primary infection. In this study the effect of soil incorporation of Kraft pine lignin, a side product of the paper industry, on viability of R. solani AG1-1B sclerotia was investigated. The efficacy of lignin was assessed in a sandy loam (Oppuurs) and a silt loam soil (Leest) collected from commercial fields in Belgium. Evaluating sclerotial viability after 4 weeks incubation in the two soils amended with 1% (w/w) Kraft pine lignin demonstrated a soil-dependent effect. In Leest soil the addition of lignin resulted in a significantly reduced sclerotial viability, together with an increased mycoparasitism by Trichoderma spp.; in Oppuurs soil, on the other hand, only a slight and insignificant reduction in sclerotial viability was observed. Based on phospholipid fatty acid analysis, different changes in microbial community structure upon lignin amendment were detected in the two soils. Both amended soils showed a significant increase in Gram negative bacteria. In Leest soil this increase was accompanied with a significantly higher increase in fungi and actinomycetes compared with Oppuurs soil. In addition, Kraft pine lignin resulted in both soils in a small but significant increase in manganese peroxidase activity and this increase tended to be higher in Leest soil. Manganese peroxidase produced by lignin-degrading basidiomycetes has previously been shown to degrade melanin, which protects the sclerotia against biotic and abiotic stress. We hypothesize that lignin-degrading fungi increased the susceptibility of the sclerotia to sclerotial antagonists such as Trichoderma, Gram negative bacteria and actinomycetes. Clearly, the effect observed here did not rely on the stimulation of one microbial group, but is the result of an interaction of different groups. 相似文献
8.
P. Davet 《Soil biology & biochemistry》1981,13(6):513-517
The effects of some pesticides upon substrate colonization by Trichoderma harzianum Rifai in the presence of other soil fungi.A herbicide (propyzamide) and 5 fungicides (benomyl, quintozene, vinclozolin. thiram, prothiocarb) were added at various concentrations to two Trichoderma harziunum-enriched garden soils. After thorough mixing, followed by solidifying with water agar, discs of these mixtures were cut with a cork-borer and transferred to a non specific nutrient medium (PDA). The development of T. harzianum on the agar, around each implant, was estimated after incubation for 1 week at 28°C.In the presence of other soil fungi, T. harzianum development was scarcely or not at all modified by prothiocarb, propyzamide and quintozene. It was highly depressed by benomyl. Vinclozolin was only slightly inhibitory. In our experimental conditions, T. harzianum development was strongly enhanced by thiram, even at a high dosage (300 μg ml?1).The limits and the advantages of the method are estimated and the results are discussed in view of practical applications. 相似文献
9.
G.C. Papavizas 《Soil biology & biochemistry》1977,9(5):343-348
Exposure of sclerotia of Macrophomina phaseolina to 0 and 33% relative humidity (r.h.) for 12 weeks and of Sclerotium cepivorum to 0, 33 and 55% r.h. for 20 weeks did not reduce their germinability on agar. Exposure to 78% r.h. caused high loss of germinability in M. phaseolina and complete loss in S. cepivorum. After 7-day exposures respective moisture contents of sclerotia of M. phaseolina and S. cepivorum were 1 and 2% at 0% r.h.; and 10 and 14% at 78% r.h. M. phaseolina sclerotia held at 0% and 33% r.h. in desiccators for several times up to 12 days did not decrease in subsequent survivability in moist soil, unlike sclerotia held at 78% r.h. for 4 days.More sclerotia of M. phaseolina were colonized by fungi and Streptomyces spp. on alkaline soil than on acid soil. On alkaline soil twice as many sclerotia were colonized after exposure to 0% r.h. as after exposure to 33, 55 and 78% r.h. Colonization of S. cepivorum sclerotia was as high on acid as on alkaline soil and 3 times as high on sclerotia treated at 0% r.h. as on those treated at higher r.h. Attempts to ascertain the effects of colonization on sclerotial viability were unsuccessful. Incubation of sclerotia of M. phaseolina in moist Rumsford sandy loam (50% m.h.c.) for 20 weeks reduced survivability by 43%. At room temperature, alternate drying and wetting of soil containing sclerotia did not appreciably affect survivability of either pathogen. Survivability of S. cepivorum sclerotia was highest when the sclerotia were incubated in air-dried soil (2–3% m.h.c.) for 20 weeks.Incidence of white rot on onion seedlings transplanted to S. cepivorum-infested soil was higher in soil that had been air-dried for 20 weeks than in soil that had been alternately wetted and dried. Sclerotia that were exposed to 0% r.h. for 7 days before soil incubation produced little white rot. 相似文献
10.
Pea roots (Pisum sativum L. cultivar Tall Sugar White) were inoculated with Pseudomonas sp., isolated from the roots of Timothy grass (Phleum pratensis L.). Microscopic examination showed that the bacterium had invaded many epidermal and outer cortical cells of the root. The presence of the soil amoeba, Acanthamoeba palestinensis (Reich), which readily ingests Pseudomonas sp., did not alter the root damage. The amoebae were also found in the epidermis and outer cortex of pea roots. No amoebae were found inside pea roots when Pseudomonas sp. was absent. Bacterial invasion also occurred in pea roots grown in garden soil previously sterilized by γ-irradiation and inoculated with Pseudomonas sp., but not in the same soil inoculated and unsterilized. Timothy grass roots were similarly uninfected in inoculated unsterilized garden soil. 相似文献
11.
Luigi d'Aquino Massimo Morgana Michele Staiano Marilena Re Francesco Vinale Sheridan L. Woo 《Soil biology & biochemistry》2009,41(12):2406-2413
Accumulation of rare earth elements (REE) in the soil may be due to the use of REE enriched fertilizers and to contamination by REE containing wastes. Although widely used in China for soil and foliar dressing of crops, little is known about the effect of REE applications on the soil microbial community. The effect of REE on the growth of biological control strains of Trichoderma atroviride and Trichoderma harzianum was investigated in vitro using either a mix of different REE containing different amounts of lanthanum, cerium, praseodymium, neodymium, gadolinium nitrate and lanthanum nitrate alone in comparison to treatments with potassium nitrate and water. In plate tests applied concentrations ranged from 0.1 mM to 300 mM for lanthanum and REE mix and from 0.1 mM to 900 mM for the potassium solution. In liquid culture tests applied concentrations ranged from 0.001 mM to 100 mM for lanthanum and REE mix and from 0.003 mM to 900 mM for the potassium solution. ICP-MS, TEM and TEM X-ray microanalysis were used to study the accumulation of REE in fungal biomass. All the Trichoderma strains showed a good tolerance to the presence of REE in the culture media. Some growth enhancing effects were observed in liquid cultures of T. harzianum strains but not in T. atroviride. Accumulation of REE in fungal biomass, both at intracellular level and in the extracellular matrix, was observed. 相似文献
12.
Experiments were made on the nature of fungal competition on sal leaf-litter with emphasis on the antibiotic action of culture filtrates. The culture filtrates of Mortierella subtilissima, Aspergillus candidus, A. flavus, A. niger, Penicillium rubrum, Papulaspora sp., Staphylococcus aureus and Bacillus subtilis were found most effective in suppressing the growth of various leaf-litter fungi. Dominant fungi which displayed best competitive tolerance to the staling products of culture filtrates were Aspergillus flavus, A. niger, A. sclerotiorum, A. terreus and Trichoderma harzianum. 相似文献
13.
Propagules of Trichoderma generally formed less than 3 per cent of the total fungal propagules in a variety of forest soils in the southeastern U.S. and Washington State. The largest populations were found in the F and H organic horizons of the forest floor or under conditions of excessive moisture. T. viride Pers. ex S.F. Gray and T. polysporum (Link ex Pers.) Rifai were largely restricted to cool temperate regions; whereas, T. harzianum Rifai was characteristic of warm climates. T. koningii Oud. and T. hamatum (Bon.) Bain, were the most widely distributed species aggregates and were found in all the climatic regions investigated. Under conditions of excessive moisture, strains of T. hamatum and T. pseudokoningii Rifai were the dominant forms. 相似文献
14.
Phialospores of Trichoderma species required an external source of nutrients and CO2 for germination on agar discs. Both unwashed agar and unwashed spores contributed sufficient quantities of nutrients to support germination.In a nutrient-depleted system germination was much greater under acid conditions than under neutral conditions. The addition of malt extract to the agar largely eliminated the acidity effect with T. viride Pers. ex S.F. Gray, T. harzianum Rifai and T. koningii Oud. The germination of T. polysporum (Link ex Pers.) Rifai and T. saturnisporum Hammill was strongly inhibited by neutral conditions and this inhibition was not completely overcome by nutrient additions. As spores of most species aged, they required more nutrients and became more sensitive to neutral conditions.Dextrose was less effective than malt extract in promoting germination and amino acids were generally inhibitory. A high level of Al in solution inhibited germination and the degree of inhibition varied from one species to another. 相似文献
15.
Isolates of Trichoderma spp grew and produced chlamydospores as well as conidia in molasses-corn steep liquor (M-CSL), sucrose nitrate (SN), and glucose tartrate (GT) media. In M-SCL, isolates of T. hamatum, T. viride, and T. harzianum formed 10.4, 5.9 and 1.1 × 108 chlamydospores g?1 dry weight of mycelium. Fewer chlamydospores formed in SN and GT. Although T. harzianum formed the least number of chlamydospores, it produced the highest number of conidia in all three media. Molasses-corn steep liquor was superior to SN or GT in supporting development of both spore types. Spore production was not influenced by initial pH of the media or by continuous maintenance of the media at pH 4 or 7. Equal numbers of chlamydospores were formed in liquid media incubated in shake or static culture. Conidia formation, however, was stimulated in static culture. Chlamydospores and conidia of several naturally occurring isolates and induced biotypes of Trichoderma spp were abundantly produced on a variety of solid substrates moistened with liquid nutrients or water, preferably at pH 4. Bran, cornmeal, and peanut hull meal were better than eight other solid substrates for production of chlamydospores and conidia. A u.v.-induced, benomyl-resistant biotype of T. viride (T-1-R9) formed 22 × 107 and 18 × 108 chlamydospores and conidia, respectively, g?1 of bran-SN. The ratio of conidia to chlamydospores was always greater in solid than liquid media. In solid media, 10 times more conidia than chlamydospores were formed, whereas in liquid only two or three times more were formed. Chlamydospores from liquid and solid fermentations were viable (ca 80%) and fresh chlamydospores germinated well (ca 75%) on nutrient agar. Although dried chlamydospores were viable, as determined with tetrazolium bromide, their germination on agar was poor (ca 8%). 相似文献
16.
The energy content of the mycoparasite Sporidesmium sclerotivorum mycelium was 18,389 J g?1 and 16,334 J g?1 for macroconidia on a dry weight basis. The energy content of Sclerotinia minor sclerotia, the host of the mycoparasite, was 16,485 J g?1. In liquid culture, the economic coefficient for the conversion of glucose to mycelium (mycelial dry wt ÷ glucose consumed × 100) was 51–60 whereas the mycelial energy coefficient, [mycelial energy (J) ÷ substrate energy (J) × 100] was 65–75. In soil, the conidial energy coefficient [conidial energy (J) ÷ substrate energy (J) × 100] for the conversion of host sclerotial energy to the macroconidia of the mycoparasite was 19.8, which was 2–9 times that for the conversion of glucose in liquid culture. The conidial energy coefficient when grown on a liquid medium on vermiculite was 23.0. S. sclerotivorum, as an obligate parasite of sclerotia in soil, was most efficient in the conversion of energy in a system where there was a high surface: energy ratio. In liquid culture S. sclerotivorum is more efficient than most other fungi. 相似文献
17.
A. K. Srivastava D. K. Arora S. Gupta R. R. Pandey M. W. Lee 《Biology and Fertility of Soils》1996,22(1-2):136-140
The colonization of Macrophomina phaseolina sclerotia by microbial parasites was evaluated in unsterilized field soil at different levels of soil moisture (0,-5, and-10 kPa) and temperature (20, 30, and 40°C). The maximum colonization of sclerotia was recorded in soil held at-5 or-10 kPa at 30–40°C. Trichoderma harzianum isolate 25–92 and Pseudomonas fluorescens isolate 4–92 were recorded as potential sclerotial parasites, and they significantly (P=0.05) reduced the germination of sclerotia by 60–63%. Cells of P. fluorescens and buffer-washed conidia of T. harzianum were completely agglutinated at 28°C with crude agglutinin of M. phaseolina. The ability of different antagonists to parasitize the sclerotia were correlated with the agglutination ability of the antagonists. 相似文献
18.
Mulching of Sclerotium oryzae infested soil (moist or dry) with polyethylene sheets during hot summer days of May and June increased the soil temperature at 5 cm from 36°C (unmulched) to 48°C (wet) and from 44 to 52°C (dry) and at 20cm from 32 to 38°C (wet) and from 35 to 39°C (dry). In artificially-infested soil, the sclerotia were not eradicated but 95–100% loss in viability was observed at 5 cm by a mulch treatment for 1 week and at 20 cm by mulching for 8 weeks. Mulching effects were not influenced by moisture content of soil or by amendments with lucerne or wheat straw. Mulching of naturally-infested soil at a second site did not eradicate S. oryzae but reduced sclerotial viability by 93%. 相似文献
19.
Five strains (C4, C13, C17, C30, C44) of Trichoderma harzianum that efficiently antagonise Sclerotium cepivorum in vitro, were used in central México to inoculate field grown garlic (Allium sativum L.). Endorhiza, rhizosphere and soil colonization were evaluated at different times and at various root and soil depths. Experiments were conducted in both the 2000 and 2001 crop cycles to evaluate the capacity of five strains as biological control agents (BCA) against S. cepivorum. Significant differences were observed among the strains in terms of their ecological behavior. Strain C4 showed the best endorhizal and rhizosphere colonization. Strain C44, besides being a good rhizosphere colonizer, dispersed widely in the soil. In terms of all three variables, strain C30 had poor colonization ability, whereas the strains C4, C17 and C44 were best able to control white rot in the field. Of these, strain C4 showed the best performance over 2 years when it was applied as a pre-colonized substrate at planting time. High early endorhizal colonization was positively correlated with the BCA capacity of the strains. These data suggest that the ecological behavior of Trichoderma strains should be included as a criterion for strain selection for biological control purposes. 相似文献
20.
《European Journal of Soil Biology》2002,38(1):71-74
In a simple experimental system with wheat plants, interactions between the collembolan Onychiurus armatus and Trichoderma harzianum, a soil-borne fungus parasite of several plant pathogenic fungi, were studied in the presence of Gaeumannomyces graminis var. tritici, one of the most important foot and root fungal pathogens of cereals world-wide. Trichoderma harzianum was used according to two different modalities: fungal inoculum applied to seed or mixed with substrate. The isolate of T. harzianum proved to be ineffective against the pathogenic fungus, independent of the application modality, as shown in the experiments where this fungus was used alone, whereas Collembola used alone significantly reduced disease severity. However, the mode by which T. harzianum was applied significantly influenced the disease control ability of Collembola. In fact, only when T. harzianum was coated to seed were springtails able to reduce the disease caused by G. graminis var. tritici. 相似文献