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1.
Summary This study was conducted to select a suitable host for maintenance and mass production of VA mycorrhiza since sudan grass does not grow well under Bangalore conditions. Of the eight grasses tested, guinea grass was found to be a better host since it is more susceptible to infection and also supported higher spore production by VA mycorrhizal fungus,Glomus fasciculatus.  相似文献   

2.
A low-cost, low-maintenance system for soilless production of vesicular-arbuscular mycorrhizal (VAM) fungus spores and inoculum was developed and adapted for production of acidophilic and basophilic isolates. Corn (Zea mays) plants were grown with Glomus etunicatum, G. mosseae or Gigaspora margarita in sand automatically irrigated with modified Hoagland's solution. Sand particle size, irrigation frequency, P concentration, and buffer constituents were adjusted to maximize spore production. Modified half-strength Hoagland's solution buffered with 4-morpholine ethane-sulfonic acid (MES) automatically applied 5 times/day resulted in production of 235 G. etunicatum spores/g dry wt. of medium (341000 spores/pot) and 44 G. margarita spores/g dry wt. of medium (64800 spores/pot). For six basophilic isolates of G. mosseae, CaCO3 was incorporated into the sand and pots were supplied with the same nutrient solution as for acidophilic isolates. The increased pH from 6.1±0.2 to 7.2±0.2 resulted in spore production ranging from 70 to 145 spores/g dry wt. (102000–210000 spores/pot). Spore production by all isolates grown in the soilless sand system at Beltsville has exceeded that of traditional soil mixtures by 32–362% in 8–12 weeks.  相似文献   

3.
Bean roots grown by the nutrient film technique and infected with vesicular-arbuscular mycorrhizal fungi were successfully used as inoculum for red clover growing in an unsterile field site. The endophyte introduced with the roots became well established in the presence of indigenous mycorrhizal fungi.  相似文献   

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The present study evaluated the efficiency of lignocellulosic agrowastes produced in Brazil as substrates for production of on farm AMF inoculum and tested different diluents and inoculation techniques. In a first experiment, Sorghum bicolor seedlings were colonized with Rhizophagus clarus or Claroideoglomus etunicatus and transplanted to 20 L bags containing sugarcane bagasse (SC), king palm leaf sheets (KP), or barley hulls (BH) mixed (1:1:1 or 2:1:1, v/v/v) with sand and rice shell. SC and KP were conducive for production of spores and infectious propagules. A number of infectious propagules obtained were greater than with BH and ranged from 233–350 propagules cm?3 for both isolates in SC and KP at the1:1:1 mix dilution. Number of spores of both fungi was affected mainly by the SC agrowaste, and spore densities were significantly higher compared to KP and BH. In a second experiment, SC was mixed with soil or sand and inoculation consisted of transplanting colonized seedlings or adding soil inoculum. Number of propagules tended to differ for each fungus according to the inoculation technique or diluent. It is concluded from the data that SC and KP are suitable agrowastes to be incorporated in substrates for producing AMF inoculum using the on farm method.  相似文献   

8.
A sucrose-agar globule (SAG) was newly introduced to increase production of the vesicular arbuscular mycorrhizal (VAM) fungal spores, Gigaspora gigantea and Glomus fasciculatum. An SAG inoculum and a sucrose-agar globule with root exudates (SAGE) inoculum were prepared, and their spore productions were compared with a soil inoculum. When the SAGE was used as the inoculum on sucrose-agar medium plates the number of spores was increased (35% more than the soil inoculum). After the soil inoculum and SAGE were inoculated on an experimental plant, Zingiber officinale, the percentage root colonization, number of VAM spores, and dry matter content were analyzed. It was observed that the SAGE showed a higher percentage of root colonization (about 10% more), and increases in the number of spores (about 26%) and dry matter (more than 13%) for the two VAM fungal spores than the soil inoculum. The results of this study suggested that the SAGE inoculum may be useful for the mass production of VAM fungi and also for the large scale production of VAM fungal fertilizer.  相似文献   

9.
The symbiosis between vesicular-arbuscular mycorrhizal (VAM) fungi and host plants develops after successful interactions between both partners. These interactions probably involve signal molecules produced by the host plant, by the fungi, or by both. So far the biotrophic status of VAM fungi has hampered the understanding of the processes regulating their physiology. However, among different methods for co-cultivating VAM fungi, root organ cultures (ROC) appear to be a useful technique for studying VAM development. This system has been useful in defining the nutritional requirements of VAM fungi in the precolonization stage and in obtaining axenic fungal material in various developmental stages. The work discussed here focuses on the application of Polymerase Chain Reaction (PCR) technology and the potential of promoting hyphal growth in the absence of the plant. These techniques are being used to study VAM fungi in two main areas. The first concerns the determination of the DNA sequences coding for the SSU ribosomal RNA of two VAM fungi. This approach has allowed the design of specific primers for the rapid identification and quantification of VAM fungi. The second area of research concerns the potential use of PCR technology to study selective expression of specific genes during fungal spore development in defined in vitro conditions. The achievement of this future prospect depends on the ability to prepare PCR-based cDNA libraries from small amounts of fungal material after stimulation of hyphal growth with CO2 and plant flavonols.  相似文献   

10.
Summary The vesicular-arbuscular mycorrhizal (VAM) fungus,Glomus versiforme increased significantly the growth ofAsparagus officinalis under controlled conditions using Turface as the growth medium. The growth responses, including increases in root fresh weight, numbers of shoots, shoot dry weight, and shoot height follow a pattern similar to other mycorrhizal systems. Indigenous VAM fungi appeared to have negative effects on average shoot fresh and dry weight, number of shoots per pot and average shoot height on one year oldA. officinalis seedlings obtained from the field and grown under controlled conditions. These results may be due either to the high levels of soluble phosphate present in the soil or the ineffectiveness of the particular indigenous fungi as mycorrhizal fungi in asparagus. Indigenous mycorrhizal fungi overwinter in asparagus root crown as vesicles and as external and internal hyphae. Soil obtained from the same fields as the one year old crowns was a good source of mycorrhizal inoculum for sterile seedlings.  相似文献   

11.
Summary A greenhouse study was conducted to determine the effects of stockpiling prairie grassland topsoil for 3 years on mycorrhizal development and root and shoot production of slender wheatgrass. The vesicular-arbuscular mycorrhizal (VAM) fungi involved in the symbiosis were also assessed as was the decomposition potential of the soil. During the first week of growth, VAM development in grasses grown in the stockpiled soil lagged behind that observed for grasses in the undisturbed soil. However, by 3 weeks, the mycorrhizal infection in plants in the stockpiled soil had reached levels similar to that in plants in the undisturbed soil. The dominant species of VAM fungi involved in the symbiosis at 8 weeks after planting shifted fromGlomus fasciculatum in the undisturbed soil toG. mosseae in the stockpiled soil. The delay in initial VAM infection and shift in VAM fungal species did not significantly affect plant productivity which was greatest in the stockpiled soil. The greater shoot production exhibited by grasses in the stockpiled soil was attributed to higher levels of NO3-N in the stockpiled than undisturbed soil. The potential of the soil to decay dead slender wheatgrass roots was not altered by stockpiling.  相似文献   

12.
Summary Brassica nigra and selected species of Leucaena and Sesbania were used as indicator hosts in a greenhouse experiment designed to establish distinct categories of mycorrhizal dependence. The plants were grown in an oxisol with different concentrations of established soil solution P in the presence or absence of the vesicular-arbuscular mycorrhizal (VAM) fungus Glomus aggregatum. The extent to which the plant species depended on the fungus for dry matter production diminished with increased concentrations of soil solution P, but the magnitude of this decrease varied from species to species. Five distinct mycorrhizal categories are proposed based on the differences observed, ranging from non-dependent to very highly dependent. The critical soil solution P concentrations that were useful for separating host species into distinct VAM-dependency groups were 0.02 and 0.2 mg/l. Species differing in their mycorrhizal dependency differed with respect to the soil solution P concentration required for the expression of maximum VAM effectiveness, the degree to which increasing concentrations of P depressed VAM infection and the pattern of immobile nutrient accumulation.Contribution from the Hawaii Institute of Tropical Agriculture and Human Resources Journal Series No. 3547  相似文献   

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Nitrogenase activity measured by acetylene reduction, was detected when surface-sterilized spores of vesicular-arbuscular (VA) mycorrhizal fungi (Glomus fasciculatum, G. intraradices, G. scientillans, G. mosseae, Gigaspora gilmorei andEndogone dusii) were inoculated into nitrogen-free liquid medium containing malic acid and incubated under microaerophilic conditions (99% N2+1% O2) at 30°C.Azospirillum species were isolated from the nitrogenase-active cultures.  相似文献   

15.
Water relations, drought and vesicular-arbuscular mycorrhizal symbiosis   总被引:32,自引:0,他引:32  
Vesicular-arbuscular mycorrhizal fungi can affect the water balance of both amply watered and droughted host plants. This review summarizes these effects and possible causal mechanisms. Also discussed are host drought resistance and the influence of soil drying on the fungi. Accepted: 30 December 2000  相似文献   

16.
A. Warner 《Plant and Soil》1983,74(3):387-394
Summary The effect of lead and cadmium on the dry matter yield and nutrient concentration of tomato (Lycopersicum esculentum) and egg-plant (Solanum melongena) was studied in a greenhouse experiment. The results showed some benificial effects of Pb and Cd at their lower doses and toxicity at higher levels. The threshold concentration (C10), toxicity index (T10) and loading rate to produce C10 were also calculated. These values suggested the tomato to be more tolerant than egg-plant for heavy metals whose toxicity was found in the order of Cd>Pb in both the plants.The application of the heavy metals was found to effect the nutrient concentration and their uptake by plants. The results have been explained on the basis of their complexation and translocation through the plant sap.  相似文献   

17.
Bacterial isolates of different capabilities influenced the development of vesicular-arbuscular mycorrhizal infection in the roots of maize cultivated in a hydroponic system. The introduced bacteria influenced different parameters of infection and the effect was specific for the bacterial isolate used. Two phosphate solubilizers and a bacterial chitin decomposing isolate increased the abundance of arbuscules in the root cortex.  相似文献   

18.
Natural occurrence of vesicular-arbuscular mycorrhizal (VAM) fungi in Haryana soils showed that VAM sporulation was more intensive in the rhizosphere of nonlegumes than of legumes. Maximum number of spores (342 spores per 50 g of soil) was observed in the rhizosphere of mustard, followed by chickpea, wheat, pearl millet and pigeonpea. Four VAM generaviz. Glomus, Gigaspora, Sclerocystis andAcaulospora, were present there. Soil pH, total soil P, available P, type of soil, soil moisture and cropping season all variables influenced the VA mycorrhizal population in the natural ecosystem. Numbers of VAM spores highly correlated with the presence of total soil P and soil pH indirectly affected the VAM population through the total soil P. The spore population was abundant in sandy soils as compared to loamy sands. Drier soils had higher number of VAM spores. In summer, the VAM population in soil was less as compared to winter season.  相似文献   

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Nitrate reducing capacity of two vesicular-arbuscular mycorrhizal fungi.   总被引:10,自引:0,他引:10  
I Ho  J M Trappe 《Mycologia》1975,67(4):886-888
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