Effect of Rhizobium andAzospirillum lipoferum inoculation on the nodulation,yield and nitrogen uptake of peanut cultivars

Peanut (Arachis hypogaea Linn.) Cvs. Robut 33-1 and JL 24 were inoculated with Rhizobium strain NC 92 and a strain ofAzospirillum lipoferum singly and as mixed inoculum. Seed inoculation with these bacteria enhanced nodulation, N content and yield of these cultivars under field conditions. While a mix inoculation of these two diazotrophic cultures had an adverse effect on these parameters as compare to single inoculation.     

Effect of salinity on growth of four strains of Rhizobium and their infectivity and effectiveness on two species of Acacia

Two Rhizobium strains (WU1001 and WU1008) were isolated from nodules of Acacia redolens growing in saline areas of south-west Australia, and two strains selected from the University of Western Australia's culture collection (WU429 isolated from A. saligna and WU433 from A. cyclops). The growth of each in buffered, yeast extract mannitol broth culture was largely unaffected by salt up to 300 mM NaCl. A slight increase in lag time occurred at concentrations of 120 mM NaCl and above, but cell number at the static phase was not affected. Each of the four Rhizobium strains tested accumulated Na⁺ but showed decreasing levels of sugar with increasing salt in the external medium. Amino acid levels also increased, in some cases by more than tenfold. However, the relative proportion of each remained fairly constant in the bacteria, irrespective of salt treatment. Only trace quantities of proline were detected and there was no increase in this amino acid with salt. Acidic amino acids (glutamate and aspartate) remained as a constant proportion.Rhizobium strains WU429, WU1001 and WU1008 produced effective nodules on both A. cyclops and A. redolens grown in sand with up to 80 mM NaCl (added in nutrient solutions free of nitrogen). Strain WU433 was highly infective on both Acacia species tested at low salt concentrations (2–40 mM NaCl), but infection was sensitive to salt levels at 120 mM NaCl and above. Nodules formed with strain WU433 were, however, ineffective on both A. redolens and on A. cyclops and showed nil or negligible rates of acetylene reduction at all salt concentrations. Strains WU429, WU1001 and WU1008 in combination with a highly salt-tolerant provenance of A. redolens formed symbioses which did not vary significantly in nodule number and mass, specific nodule activity or total N content irrespective of salt level up to 160 mM NaCl. On a more salt sensitive provenance of A. redolens and on A. cyclops the infectivity and effectivity of the Rhizobium strains tested usually decreased as the external salt concentration increased. These data are interpreted to indicate that tolerance of the legume host was the most important factor determining the success of compatible Rhizobium strains in forming effective symbioses under conditions of high soil salinity.     

Nodulation of lucerne (Medicago sativa L.) in an acid soil: Effects of inoculum size and lime-pelleting

The effects of inoculum level and lime-pelleting were studied in an acid soil with respect to the nodulation and growth of lucerne (Medicago sativa cv Resis) and the population dynamics of Rhizobium meliloti. In small root-boxes (rhizotrons), the in-situ survival of inoculated rhizobia was studied in the micro-environment around the seed for a period of 12 days after sowing. During the initial 24 hours, a strong increase in rhizobial numbers was measured, concomitantly with the development of roots. As a result of lime-pelleting, rhizobial numbers were higher only at 3 days after sowing (P<0.05). Later, this difference diminished steadily. Addition of lime did not increase the adhesion of the rhizobia to the seedling tap root. Plant responses to inoculation were studied in pots. To obtain optimal nodulation, the soil had to be neutralized around the seed with lime and at least 10⁵ cells of R. meliloti were required. With more than 10⁵ rhizobia per seed, lime-pelleting increased the number of crown-nodulated seedlings from 24% to 77%. Higher numbers of rhizobia could not compensate the effect of lime. A strong correlation was found between crown nodulation, nitrogen content and dry weight of the shoots.     

Etude de la symbiose Rhizobium-legumineuse: Préparation de cellules isolées pour l'étudein vitro

Résumé En vue d'une étude, au laboratoire, de la nodulation et de la symbiose plante-bactérie des préparations de protoplastes de mésophylle et de nodule racinaire ont été effectuées chez le haricot (Phaseolus vulgaris variété Constant). Pour chaque préparation, les conditions opératoires et les concentrations optimales de cellulase et de pectinase en solution, dans du mannitol 0,6M ont été définies.Áprès 15 jours, 10 à 15% des protoplastes de mésophylle mis en culture dans le milieu B5 de Gamborg se divisent 2 à 3 fois. Des essais de fusion réalisés avec des faibles densités cellulaires entre protoplastes de mésophylle et protoplastes de nodule ont, donné des taux de fusion de l'ordre de 2,43%.

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Study of the symbiosis Rhizobium-legume: Preparation of isolated cells forin vitro study

Summary With a view to studyin vitro the processes of nodulation and plant-bacteria symbiosis, preparation of mesophyll protoplasts and root nodule protoplasts have been realized fromPhaseolus vulgaris (Constant var.).For every preparation the process of experimentation and optimum concentrations of cellulase and pectinase diluted in mannitol 0,6M have been defined.After a 15 days' period, 10 to 15% of mesophyll protoplasts divided twice or even three times in B5 Gamborg's medium. Although we used low rate cell concentrations, root nodule protoplasts and mesophyll protoplasts have been able to fuse in the proportion of 2,43%.

     

Numerical taxonomic analysis of cross-inoculation patterns of legumes and Rhizobium

Summary A survey was made of published results of tests of the capacity of Rhizobium derived from one legume genus to nodulate plants from other genera. The data were derived from more than 14,000 separate cross-inoculation trials involving species from 165 genera of legumes. Numerical taxonomic techniques were applied to 113 of the genera for which results of substantial cross-infection tests were available. The data were examined using mean character difference coefficients re-expressed as total and positive-only similarity coefficients. The resulting similarity matrices were clustered by the unweighted pair-group method using arithmetic averages. Eighteen affinity groups were defined at the 70% similarity level. With few exceptions, the physiological and cultural behavior of the rhizobia was consistent within the defined groups. Two broad categories were suggested in the numerical taxonomic analysis, and their validity is discussed in regard to the geographic, physiological and cultural characteristics of the legumes and their Rhizobium microsymbionts. The taxonomic and agronomic value of this approach and the new groupings are discussed.     

Use of an organic buffer for the selection of acid tolerantRhizobium meliloti strains

Summary Nine media used to grow rhizobia were examined for their ability to maintain a stable low pH during the growth ofR. meliloti Large fluctuations in the pH of all media were recorded within 72 h, indicating their unsuitability for use in the selection of acid tolerant rhizobia. Morpholino-ethanesulphonic acid (MES) was assessed for its ability to buffer the pH of the media whilst still permitting rapid growth ofR. meliloti, R. trifolii, andBr. lupini. With 30.7 mM MES, the pH of a defined medium containing galactose, arabinose, and glutamate did not change from the initial value of 5.5 even though rhizobial numbers increased from 10⁴ to 10⁹ cells.ml^–1. Even at a buffer concentration of 15.3 mM, pH only increased from 5.5 to 5.6. There was no effect of the buffer on rhizobial growth.     

Regulation of the β-ketoadipate pathway in Rhizobium japonicum and bacteroids by succinate

Rhizobium japonicum 61-A-101 and its bacteroids catabolize phenol and p-hydroxybenzoate. With phenol as a carbon source, utilization started only after a prolonged lag phase while p-hydroxybenzoate was almost instantancously metabolized. Succinate, which supports rapid growth of Rhizobium japonicum, completely repressed respication of phenol; the oxidation of p-hydroxybenzoate was partially inhibited. Pyruvate, supporting slower growth than succinate, retarded the onset of phenol consumption but did not affect its maximum rate.Catabolite repression of phenol utilization by succinate appears to be a characteristic feature of rhizobia. In Pseudomonas putida which also actively metabolizes phenol, succinate had no effect on phenol utilization.     

The effect of bacterial strain and temperature changes on the nitrogenase activity of Lotus pedunculatus root nodules

After 40 days of growth at 25°C, Lotus pedunculatus cav., cv. Maku plants infected with Rhizobium loti strain NZP2037 displayed similar relative growth rates but had twice the nodule mass and only one third the whole plant dry weight of plants infected with Bradyrhizobium sp. (Lotus) strain CC814s. In the NZP2037 symbiosis, the rate of CO₂ evolution (per g dry weight of nodulated root) was 1.6 times as high as that in the CC814s symbiosis while the rate of C₂H₂ reduction (per g dry weight of nodule) was only 48% of that in the CC814s symbiosis. Studies of the effect of short term temperature changes on the gas exchange characteristics (CO₂ and H₂ evolution, C₂H₂ reduction) of these symbioses revealed wide differences in the optima for C₂H₂ reduction. Nodules infected with NZP2037 displayed maximal C₂H₂ reduction rates [157 μmol (g dry weight nodule)^?1 h^?1] at 12°C, whereas nodules infected with CC814s were optimal at 30°C [208 μmol (g dry weight nodule)^?1 h^?1]. These short term studies suggested that differences in temperature optima for N₂ may have partially accounted for the poorer effectivity, at 25°C, of strain NZP2037 when compared with strain CC-814s. The relative efficiency [RE = 1 – (H₂ evolution/C₂H₂ reduction)] of N₂ fixation varied widely with temperature in the two symbioses, but there was a general trend toward higher RE with lower temperatures. The ratio of CO₂ evolution: C₂H₂ reduction (mol/mol) in nodulated roots infected with CC814s was constant (ca 10 CO₂/C₂H₂) between 5°C and 30°C, whereas in plants infected with NZP2037 it reached a minimal value of 3.3 CO₂/C₂H₂ at 10°C and was 19 CO₂/C₂H₂ at the growing temperature (25°C).     

Characterization of sialic acids containing lipopolysaccharide from Rhizobium meliloti M 11 S

Abstract The lipopolysaccharide (LPS) of Rhizobium meliloti strain M 11 S was isolated and analyzed. It contained fatty acids (3-hydroxymyristic, palmitic, stearic, arachidic acids) and sugars: glucose, galactose, glucosamine, 3-deoxy- d -mannooctulosonic acid and sialic acids (NeuAc, 9- O -acetyl-NeuAc) identified by combined gas-liquid-chromatography/ mass spectrometry (GLC-MS).