Associative effect of inoculation of different strains of Azotobacter and homologous rhizobium on the yield of moong (Vigna radiata), soybean (Glycine max) and pea (Pisum sativum)

Summary It has been observed that in the case ofVigna radiata andGlycine max incorporation of suitable strain of Azotobacter gave higher yield than obtained by the use of Rhizobium as inoculant. In the case ofVigna radiata even a strain of Azotobacter isolated from the rhizosphere of berseem gave similar yields as Rhizobium. In the case ofPisum sativum association of Rhizobium with a strain ofAzotobacter chroococcum isolated from the rhizosphere of pea gave numerically higher yield than Rhizobium alone. It may be possible that statistically higher yield may be obtained when a suitable strain of Azotobacter is used after screening a large number of strains of Azotobacter from the rhizosphere of pea.     

Studies on Aspergilli

Summary The effect of foliar sprays of urea on the Aspergilli of the rhizosphere ofTriticum vulgare L was studied in detail. In all 16 species ofAspergillus were isolated from the rhizosphere region of wheat. The urea-treated plants (five sprayings) registered largest number ofAspergillus species. Out of 16 species the percentage occurrence of the following species,A. nidulans, A. rugulosus, A. sydowi A. fumigatus, A. niger andA. flavus, increased with the sprayings of urea. There was a general increase in the concentration of amino acids in urea-treated plants. But fourfold increase in the concentration was noted in the case of -aminobutyric acid and glutamine. In contrast to this the concentration of organic acids decreased as the sprayings increased.     

Direct and indirect fluorescent antibody staining ofOphiobolus graminis Sacc. in culture and in the rhizosphere of cereal plants

Fluorescein isothiocyanate (FITC) conjugates were prepared to whole-cell and cell-wall fractions of four cultures ofOphiobolus graminis W1, W2, O1 and O₂. Homologous and heterologous direct and indirect FA staining of the four cultures ofO. graminis gave positive staining in all reactions. This indicated that the four cultures could not be differentiated by fluorescent antibody (FA) staining. Species specificity of the conjugates was shown by the staining ofO. graminis hyphae in the rhizosphere of wheat and oat roots. Plant tissues were not stained. Furthermore out of 52 rhizosphere isolates stained with whole-cell and cell-wall conjugates of the four cultures ofO. graminis, only 7 cross-reacted with the whole-cell conjugates whereas none cross-reacted with the cell-wall conjugates.These results indicate the potentiality of the FA staining technique as a serological tool in localizing, and identifyingO. graminis amongst mixed fungal populations in the rhizosphere of roots.     

Effects of rhizosphere soil,vesicular-arbuscular mycorrhizal fungi and phosphate onPlantago major L. ssp.pleiosperma Pilger

Biotic factors in the rhizosphere and their effect on the growth ofPlantago major L. ssp.pleiosperma Pilger (Great plantain) were studied. In a pot experiment the effect on shoot growth of the addition of 2.5% rhizosphere soil at four levels of phosphate was highly dependent on the availability of phosphate: a promoting effect at low phosphate levels was observed while a reducing effect occurred at higher phosphate levels. As the roots were infected with vesicular-arbuscular mycorrhizal (VAM) fungi in the treatment with rhizosphere soil, two other experiments were set up to separate effects of the indigenous VAM fungi from effects of the total rhizosphere population. The uptake of phosphate and shoot growth was not decreased at higher phosphate availability when VAM inoculum was added alone or in combination with rhizosphere soil. The growth reducing effect of the rhizosphere soil could therefore not be ascribed only to mycorrhizal infection. The results suggest that biotic factors in the rhizosphere soil affect the phosphate uptake ofPlantago major ssp.pleiosperma. This may, under conditions of phosphate limitation, lead to an increase of phosphate stress and, subsequently, a growth reduction. Futhermore, it is concluded that VAM fungi, as part of the rhizosphere population, may compensate this phosphate stress by enhancing the phosphate uptake.Grassland Species Research Group Publication No. 148.     

Contribution to the knowledge of soil fungi in Libya

Summary Rhizosphere and soil counts of fungi aroundArtemisia herba alba grown in three localities in Tripoli have shown a rhizosphere effect. Counts from localities near the sea shore were higher than from areas a distant to the south. However, R/S ratios were almost the same in the three localities and on all the experimental agar media. Ten genera and 25 species commonly occurring in the rhizosphere or soil ofArtemisia could be identified. The order of occurrence for the chief genera of the rhizosphere ofArtemisia was the same in the three localities.     

Behaviour of the hyphae of<Emphasis Type="Italic"> Laccaria laccata</Emphasis> in the presence of<Emphasis Type="Italic"> Trichoderma harzianum</Emphasis> in vitro

The growth rate and the behaviour of Laccaria laccata and Trichoderma harzianum hyphae in co-culture and in the rhizosphere of 3-month-old Pinus sylvestris seedlings grown in vitro were investigated. In the interaction zone, hyphae of L. laccata became more pigmented and formed short branches growing towards the hyphae of the saprobic fungus, coiled around them and penetrated sporadically. Vacuolated hyphae of T. harzianum showed protoplasm granulation and breaks in walls followed by release of protoplasts. In the rhizosphere, the mantle hyphae of L. laccata showed a tendency to surround conidia of T. harzianum. No obvious penetration of the conidial walls by the hyphae of the mycorrhizal fungus was observed by scanning electron microscopy. Instead, in rare cases, the hyphae of L. laccata showed marked wrinkles, and a partial degradation of a mucilaginous material covering the mantle appeared to occur.     

Nitrate reduction in the leaves and numbers of nitrifiers in the rhizosphere ofPlantago lanceolata growing in two contrasting sites

Summary Numbers of autotrophic nitrifiers in the rhizosphere, and thein vivo nitrate reductase activity (NRA) in the leaves of individual plants ofPlantago lanceolata were determined in plants at two contrasting sites. In a dune grassland, high numbers of nitrifiers were present in the rhizosphere, and significant NRA was detected in the leaves. During dry periods nitrate utilization sometimes was depressed. In a wet hayfield, on peat soil, very low numbers of nitrifiers were found in the rhizosphere. Also the NRA was low. In the wet habitat, the NRA in the leaves of some fen species, containing aerenchyma in the roots, was higher than that ofP. lanceolata, not containing aerenchyma.Grassland Species Research Group. Publication No. 105.     

Effect of the chemical and physical condition of the soil on Verticillium wilt of antirrhinum

Summary In vitro study showed thatVerticillium dahliae Kleb. grew well in a wide range of acid and alkaline media (viz. pH 3.5 to 10.5). The best growth of the fungus was observed in pH 5.5. Soil pH 3.5 was toxic for growing antirrhinum seedlings. Development of Verticillium wilt of antirrhinum was affected by soil pH. The severity of the disease was greater in alkaline soil conditions compared with acid conditions. Soil of pH 3.5 gave very good control of the symptom expression by the infected plants. Rhizosphere analysis results showed that fungal population with the exception ofPenicillium spp., was drastically reduced in the rhizosphere of the plants grown in acid soil. Although the overall population of fungi was reduced in theV. dahliae infected antirrhinum rhizosphere in acid soil, the population ofPenicillium spp. markedly increased. The antagonistic activity of thePenicillium spp. in the rhizosphere might also have reduced the disease severity. Since the seedlings did not grow properly in very dry and very wet soil, rhizosphere analysis of these soils was not possible. Disease severity was much less in wet soil compared with plants grown in medium moisture level and dry soil, but the plant growth was very poor. Dedicated to the memory of the late Prof. H. K. Baruah from whom I had the inspiration for research     

Reduced rhizosphere colonization ability ofAgrobacterium tumefaciens chromosomal virulence (chv) mutants

Mutations in the chromosomal virulence (chv) region ofA. tumefaciens strain A723 reduce virulence, motility, and ability of the bacteria to bind to plant cells. We conducted experiments to assess the ability ofchv mutants to colonize the rhizosphere ofPisum sativum. The mutation had no effect on ability of bacteria to grow with a defined number of root cap cells as the sole carbon and nitrogen source. Ten days after inoculation, there were up to 103-fold more wild type thanchv mutant bacteria present in the rhizosphere of inoculated plants.     

Biological control of the root rot and wilt diseases ofLens culinaris medic

Summary Biological control visualizes a control of disease with the help of living organisms. In case of root disease, organisms occur in soil which suppress the activity of disease fungi. In the present investigation antagonists have been isolated and used in the control of root rot and wilt disease ofLens culinaris caused byS. rolfsii andF. oxysporum respectively.Isolation of antagonistic micro-organisms were done from the rhizosphere soil of Bombay 20 and local varieties and from field soil. Antagonists were screened against certain test organisms and pathogens. The selected antagonists were used for the control of the diseases of lentil crop by inoculating the antagonists in the soil and thereby to see the effect of decreased plant disease in sterilized and unsterilized soil.Amendments in the form of different organic materials were also given to control the diseases in natural soil.The most effective results were obtained withT. viride, Streptomyces gougeroti Streptomyces species 12 and 13, bacterial isolates no. 16 and 18 in case ofF. oxysporum f.lentis inoculated pots, where there was no disease. In case ofS. rolfsii inoculated pots not a single antagonist was able to eradicate the disease completely.Portion of the Ph. D. thesis accepted by the University of Saugor, Sagar, India.     

Nitrogen-fixing bacteria of the genusBeijerinckia Derx in the rhizosphere of sugar cane

Summary and Conclusions The rhizosphere effect of sugar cane on nitrogen fixing bacteria of the genusBeijerinckia Derx was studied under field conditions, during two growing periods of the cane. Counts ofBeijerinckia in soil samples from the rhizosphere and from the rhizoplan (soil from root surface) showed an increase in this nitrogen fixer of up to 20 times in the rhizosphere and up to 50 times in the rhizoplan. Bacteria, actinomyces, and fungi developing on egg-albumin agar decreased in the rhizosphere of sugar cane.This work was in part, supported by the Conselho Nacional de pesquisas.     

Influence of seed and root exudations on the rhizosphere effect inSorghum vulgare andCrotalaria juncea

The influence of seed and root exudations on the rhizosphere effect ofSorghum vulgare andCrotalaria juncea was examined. While the quantitative occurrence of certain morphological and physiological groups of bacteria on the seeds and rhizospheres of the two plant species differed, there were similarities in the occurrence of certain physiological and nutritional groups of bacteria on the seed as well as on the rhizosphere. The occurrence of some genera of fungi on the seeds and in the rhizosphere indicated the influence of both seeds and root exudations on the rhizosphere effect. Increase in root exudations of amino acids and sugars correlated with a concomitant increase in microbial activity in the rhizosphere on the 15th day of growth in both plant species but there was a delayed effect of the exuded chemicals on the rhizosphere microflora after 30 d of plant growth. Based on the Ph.D. thesis of the first author submitted to the University of Agricultural Sciences, Bangalore.     

Nitrate production in the rhizosphere of Plantago species

Summary The production of nitrate in an old established dune grassland soil and its uptake by plants was studied by comparing amounts of mineral nitrogen and numbers of nitrifying bacteria in the rhizosphere on the one hand, and on the other accumulated nitrate and levels of nitrate reductase (NaR) of individual plants of three Plantago species,i. e., P. major, P. lanceolata andP. coronopus. For these three Plantago species andP. media basal levels of NaR in the absence of nitrate were determined in plants grown in culture solutions. The basal NaR levels ofP. major andP. media (species occurring on nutrient-rich soils) were significantly higher than those ofP. lanceolata andP. coronopus (species found on nutrient-poor soils). NaR activity increased in the presence of nitrate and was suppressed by ammonium.From the numbers of nitrifying bacteria in the rhizosphere and NaR activity in the leaves it was concluded that nitrate was produced in the root environments of the three Plantago species and that the compound was taken up by the plants. NaR activities and numbers of nitrifying bacteria were higher for individuals ofP. major than for those ofP. lanceolata andP. coronopus. No correlation was found between the ammonium levels and the numbers of nitrifying bacteria in the soil, and no indications of inhibition of nitrifying bacteria in the rhizosphere were obtained. For individuals ofP. lanceolata a correlation was found between the numbers of nitrifying bacteria in the soil and NaR activity in the leaves. The results are discussed in relation to the ecological habitats of the three species.Grassland Species Research Group Publication No.38.     

Trichodorus orientalis n.sp. (Nematoda: Trichodoridae) from Jordan and Iran

Summary A new species ofTrichodorus is described from the rhizosphere of vegetables (Lycopersicon esculentum Mill. andPhaseolus vulgaris L.) in Jordan and from the rhizosphere of grape-vine (Vitis sp.) in Iran.The females are characterized by the shape of the sclerotized thickenings at the vulva. The males are characterized by the shorter body, onchiostyle and spicules and by the shape of the spicules. ac]19830124     

Effect of certain chemical fertilizers on the rhizosphere mycoflora ofOryza sativa linn

The present paper deals with the study of the effect of potassium fertilizer (Potassium sulphate) on rhizosphere mycoflora ofOryza sativa. The fertilization improves the microbial activity both in rhizosphere and nonrhizosphere regions. 40 lbs/acre dose of the fertilizer proved best for paddy growth and rhizosphere fungal poulation. The highest fungal population was recorded at the time of flowering of the plants.     

Rhizosphere soil fungi of some vegetable plants

Summary The fungi from the rhizosphere and non-rhizosphere soils of some important vegetable crop plants, viz.,Lycopersicon esculentum, Allium cepa, Trigonella foenum-graecum, Daucus carota, Hibiscus esculentus, Raphanus sativus, andBrassica oleradcea were isolated. Some members of Phycomycetes, Acsomycetes and Fungi Imperfecti were isolated.It has also been observed that the pH in the region of the rhizosphere was lower and the moisture content was higher than in the soil away from it. Further, the maximum number of fungi was found in the rhizosphere of young plants. The present studies also supported the view that the number of fungi in the rhizosphere is greater than in the soil away from it. The largest number of fungi was obtained from the rhizosphere ofTrigonella foenum-graecum.     

Attachment,colonization and proliferation ofAzospirillum brasilense andEnterobacter spp. on root surface of grasses

Root colonization studies, employing immunofluorescence and using locally isolated strains, showed thatEnterbacter sp. QH7 andEnterobacter agglomerans AX12 attached more readily to the roots of most plants compared withAzospirillum brasilense JM82. Heat treatment of either root or inoculum significantly decreased the adsorption of bacteria to the root surface. Kallar grass and rice root exudates sustained the growth ofA. brasilense JM82,Enterobacter sp. QH7 andE. agglomerans AX12 in Hoagland and Fahraeus medium. All the strains colonized kallar grass and rice roots in an axenic culture system. However, in studies involving mixed cultures,A. brasilense JM82 was inhibited byEnterobacter sp. QH7 in kallar grass rhizosphere and the simultaneous presence ofEnterobacter sp. QH7 andE. agglomerans AX12 suppressed the growth ofA. brasilense JM82 in rice rhizosphere. The bacterial colonization pattern changed from dispersed to aggregated within 3 days of inoculation. The colonization sites corresponded mainly to the areas where root mucigel was present. The area around the point of emergence of lateral roots usually showed maximum colonization.     

Survival ofPseudomonas syringae pv.lachrymans with cucumber roots

Summary Survival ofPseudomonas syringae pv.lachrymans with seedling cucumber roots, root washings, rhizosphere soil, and nonrhizosphere soil was determined 7–8 days after the soil surface was watered with a cell suspension of the bacterium. Plants were in pots in the green-house and soil was not sterilized. Survival was best with roots and root washings, next best in rhizosphere soil, and poor in nonrhizosphere soil.     

Occurrence and survival ofAzospirillum spp. in temperate regions

In order to evaluate the suitability ofAzospirillum spp. as a crop inoculant in temperate regions, the natural occurrence, distribution and survival ofAzospirillum after seed inoculation in Belgian agricultural soils was studied.Azospirillum was present in most of the fields examined, but concentrations never exceeded 1000 cfu per g soil or per g roots. Under field conditions none of the known species was found to be localized inside the roots of barley, wheat, rye, maize or grasses. Also, the distribution ofA. brasilense SpBr 14 within the root system of hydroponic-grown wheat was studied by immunofluorescence. From the rhizosphere samples of the field crops investigated, a number of microaërophilic, diazotrophic bacteria were isolated and identified asA. lipoferum, found only on maize and grass roots, andA. brasilense, present under all crops. In contrast toA. brasilense, A. lipoferum was able to use different amino-acids and some derivatives as sole carbon and nitrogen sources. Use of a peat-based seed inoculant resulted in the establishment of theAzospirillum spp. in the rhizosphere of field-grown winter barley and winter wheat. The established population survived during winter without appreciable change in numbers, but there was no indication of active growth during spring or summer.     

Rhizosphere microorganism effects on soluble amino acids,sugars and organic acids in the root zone ofAgropyron cristatum,A. smithii andBouteloua gracilis

Three axenic and rhizosphere microorganism-inoculated shortgrass steppe plant species were evaluated for possible differences in residual organic carbon and nitrogen present as sugars, organic acids and amino acids. IntroducedAgropyron cristatum was compared toA. smithii andBouteloua gracilis, which are dominant species in the native shortgrass steppe. These plants, grown for 90 days in root growth chambers, showed differences in residual organic carbon and nitrogen per gram of root, and rhizosphere microbe presence resulted in additional changes in these compounds. The root biomass ofB. gracilis was significantly increased with microbes present. TheAgropyron species had significantly lower amino acid levels with microbes present, while under the same conditions, theB. gracilis showed significant decreases in residual sugars. Based on the amino acids, sugars and organic acids, the C/N ratio of the sterileA. cristatum was higher than forB. gracilis. Rhizosphere microbe presence did not result in changes in these C/N ratios. These results suggest thatA. cristatum, with microbes present, will have lower levels of amino acids present, whileB. gracilis, with a lower C/N ratio, will have sugars used to a greater extent by the rhizosphere microbes. This resulted in the higher levels of residual soluble organic C and N in the rhizosphere ofB. gracilis, in comparison with the introducedA. cristatum. These differences may be critical in influencing the course of nutrient accumulation and plant competition in short-grass steppe communities, and in understanding basic aspects of plant-rhizosphere microorganism interactions.