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1.
The ability of 4 strains of Rhizobium trifolii to compete with naturalized strains in nodulating Trifolium subterruneum cv. Mt Barker and cv. Woogenellup was assessed at 5 sites in New South Wales. The populations of naturalized rhizobia at these sites ranged from 4 × 106 rhizobia/g to one where no rhizobia were detected. The introduced strains were inoculated singly or as mixed strain inocula onto seed of the host at 2 × 106 rhizobia/seed. There were marked differences in competitive ability between the strains but these differences were modified by the host cultivar and the site.At the R. trifolii-free site the inoculum strain formed 100% of the nodules in the 1st yr; by the second year serologically unrelated strains had invaded the plots and these formed almost all of the nodules in the 3rd yr. At the site where competition was greatest (4 × 106 naturalized rhizobia/g), there were no differences in the competitive abilities of the strains in the first year but at all other sites WU95 was superior whether used as a single strain or in a mixed strain inoculum. In these sites also the proportion of nodules formed by the inoculum strains declined markedly by the 2nd yr. 相似文献
2.
A. Ikram 《Soil biology & biochemistry》1983,15(5):537-541
The shade-tolerant cover legume Calopogonium caeruleum is promiscuous in its nodulating habits. In sand culture, symbiotic effectiveness of the strains tested was variable; 6 strains of rhizobia markedly improved shoot yields and 20 increased shoot N content. In pot experiments using cultivated and non-cultivated soils, inoculation gave no significant increase in shoot yields. When grown under rubber in plantation conditions at four localities, shoot dry matter yields, N content and nodulation also were not different from uninoculated plants when sampled for up to 2 yr after planting. This occurred despite the low numbers (< 10 g?1 soil) of native rhizobia at some sites and an appreciable establishment (> 70% recovery in nodules) by the inoculant strains. 相似文献
3.
H.V.A. Bushby 《Soil biology & biochemistry》1984,16(6):635-641
Changes in the populations of Rhizobium strains CB756str, CB985 and CB1024strspc in the rhizospheres of cowpea (Vigna unguiculata) and black gram (V. mungo) grown at three sites were evaluated. The population dynamics of the three rhizobia varied with soil type but the strain responses on the two legumes were generally similar. Most noticeable was the ability of CB756str to grow in the sandy soil (Beerwah) but not in the heavy clays (Narayen and Emerald). In contrast, the levels of CB1024strspc and CB985 generally increased in the clay soils.Nodulation (% due to the inoculum strain) did not always reflect events within the rhizosphere. Although not suited to Narayen, CB756str formed a similar proportion of the nodule population of black gram as CB1024strspc but this may have been due to higher seed inoculum levels of CB756str. At Emerald nodulation by all three strains of rhizobia was poor regardless of the success in colonization of the rhizosphere. Successful competition for nodule sites by native rhizobia may contribute to this discrepancy between Narayen and Emerald although lower seed inoculum levels at Emerald may also have been important.Nodule decay was consistently associated with a large increase in the number of rhizobia per root system. This is likely to be important in the survival of strains into the following season.Comparisons of nodulation by parent and mutant rhizobia suggested that resistance to antibotics may have slightly reduced nodule forming ability for CB1024strspc on black gram at Emerald. 相似文献
4.
Matthew D. Denton Wayne G. ReeveJohn G. Howieson David R. Coventry 《Soil biology & biochemistry》2003,35(8):1039-1048
We previously reported that commercial Rhizobium leguminosarum bv. trifolii inoculants failed to outcompete naturalized strains for nodule occupation of clover sown into an alkaline soil [Aust. J. Agric. Res. 53 (2002) 1019]. Two field isolates that dominated nodule occupancy at the field site were labeled with a PnifH-gusA marker. Marked strains were chosen on the basis that they were equally competitive and fixed similar amounts of nitrogen in comparison to their parental strain. The minitransposon insertions were cloned and sequence analysis revealed that neither lesion disrupted the integrity of any known gene. The marked strains were then used to follow nodule occupancy of Trifolium alexandrinum in competition against the commercial inoculant TA1 under a range of experimental conditions. In co-inoculation experiments in sand-vermiculite, TA1 outcompeted each marked field isolate for nodule occupancy. However, using TA1-inoculated seed sown into alkaline soil containing a marked field strain, it was demonstrated that by increasing the cell number of marked rhizobia in the soil and reducing the cell number of the commercial inoculant, the proportion of nodules occupied by TA1 was reduced. These studies indicate that the ability of the field isolates to dominate nodule occupancy in the alkaline field soils was most likely caused by poor commercial inoculant survival providing the advantage for naturalized soil rhizobia to initiate nodulation. 相似文献
5.
Field pea (Pisum sativum L.) is widely grown in South Australia (SA), often without inoculation with commercial rhizobia. To establish if symbiotic factors are limiting the growth of field pea we examined the size, symbiotic effectiveness and diversity of populations of field pea rhizobia (Rhizobium leguminosarum bv. viciae) that have become naturalised in South Australian soils and nodulate many pea crops. Most probable number plant infection tests on 33 soils showed that R. l. bv. viciae populations ranged from undetectable (six soils) to 32×103 rhizobia g−1 of dry soil. Twenty-four of the 33 soils contained more than 100 rhizobia g−1 soil. Three of the six soils in which no R. l. bv. viciae were detected had not grown a host legume (field pea, faba bean, vetch or lentil). For soils that had grown a host legume, there was no correlation between the size of R. l. bv. viciae populations and either the time since a host legume had been grown or any measured soil factor (pH, inorganic N and organic C). In glasshouse experiments, inoculation of the field pea cultivar Parafield with the commercial Rhizobium strain SU303 resulted in a highly effective symbiosis. The SU303 treatment produced as much shoot dry weight as the mineral N treatment and more than 2.9 times the shoot dry weight of the uninoculated treatment. Twenty-two of the 33 naturalised populations of rhizobia (applied to pea plants as soil suspensions) produced prompt and abundant nodulation. These symbioses were generally effective at N2 fixation, with shoot dry weight ranging from 98% (soil 21) down to 61% (soil 30) of the SU303 treatment, the least effective population of rhizobia still producing nearly double the growth of the uninoculated treatment. Low shoot dry weights resulting from most of the remaining soil treatments were associated with delayed or erratic nodulation caused by low numbers of rhizobia. Random amplified polymorphic DNA (RAPD) polymerase chain reaction (PCR) fingerprinting of 70 rhizobial isolates recovered from five of the 33 soils (14 isolates from each soil) showed that naturalised populations were composed of multiple (5-9) strain types. There was little evidence of strain dominance, with a single strain type occupying more than 30% of trap host nodules in only two of the five populations. Cluster analysis of RAPD PCR banding patterns showed that strain types in naturalised populations were not closely related to the current commercial inoculant strain for field pea (SU303, ≥75% dissimilarity), six previous field pea inoculant strains (≥55% dissimilarity) or a former commercial inoculant strain for faba bean (WSM1274, ≥66% dissimilarity). Two of the most closely related strain types (≤15% dissimilarity) were found at widely separate locations in SA and may have potential as commercial inoculant strains. Given the size and diversity of the naturalised pea rhizobia populations in SA soils and their relative effectiveness, it is unlikely that inoculation with a commercial strain of rhizobia will improve N2 fixation in field pea crops, unless the number of rhizobia in the soil is very low or absent (e.g. where a legume host has not been previously grown and for three soils from western Eyre Peninsula). The general effectiveness of the pea rhizobia populations also indicates that reduced N2 fixation is unlikely to be the major cause of the declining field pea yields observed in recent times. 相似文献
6.
TGX soybean lines were bred at IITA Ibadan for promiscuity with indigenous rhizobia in Nigerian soils. Two cultivars, TGX1456-2E and TGX1660-19F, were tested in a 2-year trial for their response to rhizobial inoculation in five farmers' fields within a 60-km radius of Minna town, in the Southern Guinea savanna zone of Nigeria. Using the ELISA method, the competitiveness and persistence of the two elite strains of rhizobia contained in the inoculant mixture were also studied. There was a close relationship between nodulation and the size of resident rhizobial populations, with wide variation in nodulation across the various sites irrespective of the treatments. Cultivar effect on height and nodule number was significant only in the first cropping season of the trial. The inoculant strains appeared to be less competitive, but more effective, than the indigenous populations. The proportions of the nodules occupied by the inoculant strains were 17% in the first cropping season, and 24% in the second. Inoculation with rhizobia increased the percent arbuscular mycorrhizal infection by an average of 50%. Although grain yield varied between sites, no significant cultivar effect was observed. However, inoculation increased grain yield by 40% in the first cropping season, while no such yield differences occurred in the second season. The proportion of nitrogen derived from N2 fixation ranged from 27% to 50% in both cropping seasons, and this was dependent on crop management on farmers' fields, rather than any cultivar or inoculation effect. 相似文献
7.
N. Amarger 《Soil biology & biochemistry》1981,13(6):481-486
The shoot dry weight of alfalfa inoculated with an effective strain of Rhizobium meliloti mixed with an ineffective strain in different ratios was found to be directly proportional to the log of the number of effective nodules. Consequently the comparison of the shoot dry weight of plants inoculated with a mixture of effective and ineffective strains with the shoot dry weight of plants inoculated with the effective strain should allow the estimation of the relative competitiveness of the effective strains. To check this. the competitiveness of 14 antibiotic-resistant strains of R. leguminosarum was evaluated in this way and compared with the ability of the strains to form nodules when inoculated to seeds of Vicia faba planted in a soil containing indigenous R. leguminosarum. The percentage of recovery of the inoculum strains in the nodules of field-grown fababeans was positively correlated with the competitiveness of the strains as estimated by the greenhouse test. This simple way of evaluating the nodulating competitiveness of strains of rhizobia being indicative of their competitive behaviour with indigenous rhizobia in the field could therefore be useful for screening a large number of strains for competitiveness. 相似文献
8.
In acid soil, low pH, reduced availability of nutrients, and toxicity of Al and Mn limit plant growth and the survival and effectiveness of rhizobia. The symbiosis between legumes and rhizobia is particularly sensitive to acid soil stress. A pot experiment evaluated whether Bradyrhizobium japonicum strain growth on acidic agar media would predict ability to colonize the rhizosphere and form effective nodules in acidic soils. Three Indonesian strains of B. japonicum with similar effectiveness at neutral pH in sand culture but with different tolerance of acid soil stress factors in agar media, and an acid-tolerant commercial strain (CB1809) of comparable effectiveness, were tested in three acid soils using the Al tolerant soybean (Glycine max cv PI 416937). At 7 days after inoculation all strains had achieved large rhizosphere populations, but by day 14 the rhizosphere population of the acid-sensitive strain had decreased, while the more acid-tolerant strains increased. The acid-tolerant strains had significantly greater nodulation and symbiotic effectiveness than plants inoculated with the acid-sensitive strain. Laboratory prescreening of B. japonicum for acid, Al and Mn tolerance in acid media successfully identified strains which were symbiotically competent in low pH soils. 相似文献
9.
This study tested the competitive ability of three locally isolated Cyclopia rhizobia and strain PPRICI3, the strain currently recommended for the cultivation of Cyclopia, a tea-producing legume. Under sterile glasshouse conditions, the three locally isolated strains were equally competitive with strain PPRICI3. In field soils, the inoculant strains were largely outcompeted by native rhizobia present in the soil, although nodule occupancy was higher in nodules growing close to the root crown (the original inoculation area). In glasshouse experiments using field soil, the test strains again performed poorly, gaining less than 6% nodule occupancy in the one soil type. The presence of Cyclopia-compatible rhizobia in field soils, together with the poor competitive ability of inoculant strains, resulted in inoculation having no effect on Cyclopia yield, nodule number or nodule mass. The native rhizobial population did not only effectively nodulate uninoculated control plants, they also out-competed introduced strains for nodule occupancy in inoculated plants. Nonetheless, the Cyclopia produced high crop yields, possibly due to an adequate supply of soil N. 相似文献
10.
Glycine max cv. Malayan is a promiscuously nodulating cultivar which formed nodules with 6 out of 9 strains of Rhizobium spp of diverse origin and all strains of R. japonicum tested. No generalizations can be made as to the probability of strains isolated from a particular host being infective on Malayan as only some isolated from Centrosema pubescens, and Cajanus cajan were able to form nodules. In competition with R. japonicum at 30°C all 20 strains of Rhizobium spp isolated from Malayan grown in Nigeria formed fewer than 50% of the nodules and 14 strains fewer than 25%. Competition was influenced by root temperature. Three strains of Rhizobium spp were poor competitors with R. japonicum between 24° and 33°C but at 36°C they formed more nodules (74–88%) than R. japonicum. Another strain of Rhizobium spp formed the majority of the nodules between 27° and 36°C whereas R. japonicum formed the most at 24°C. 相似文献
11.
The use of the GUS reporter gene was found to be very suitable for studying the competitiveness of the Rhizobium strain NGR234 and Bradyrhizobium strain CP283 for nodulation in siratro. However, the expression from the transposon mTn5SSgusA20 declined in the nodules of old plants, particularly the nodules at 35 d after inoculation and onward. Siratro inoculated with both gusA-marked NGR234 and CP283 strains showed a similar nodulation and acetylene reduction activity (ARA) to those of their parental strains. No major changes in nodulation and symbiotic properties in these marked strains were observed. When the Rhizobium strain NGR234 and Bradyrhizobium strain CP283 were inoculated separately to siratro, both of them were found equally effective for nodulation in the plant. But when the Rhizobium strain NGR234, and gusAmarked Bradyrhizobium strain CP283 were co-inoculated to the plants in a ratio of 1:1, the strain NGR234 occupied 75% of the nodules, while, the strain CP283 occupied only 25%, irrespective of the growth stages and inoculum concentrations. Similar results were also observed in the plants in which the Bradyrhizobium strain CP283 and gusA-marked Rhizobium strain NGR234 had been co-inoculated. Thus, the Rhizobium strain NGR234 was more competitive for nodulation in siratro. 相似文献
12.
Non-protein nitrogen accumulated in nodules formed on Trifolium subterraneum cv. Tallarook by Rhizobium trifolii strain NA30, but not in nodules formed by strain TA1. Studies with six R. trifolii strains and four T. subterraneum cultivars indicated that the accumulation of non-protein nitrogen was a characteristic of certain strains and that it was accompanied by a greater development of nodule tissue. With normal symbiotic associations, approximately 6 per cent of the total plant nitrogen was located in the nodule system whereas nodules accumulating non-protein nitrogen contained, on average, 12 per cent of the total nitrogen in the plant.The principal component of the accumulating non-protein nitrogen was identified as “bound” γ-aminobutyric acid. Moderate to high concentrations of γ-aminobutyric acid (0.3–1.7 mmoles/g nodule dry weight) were found in nodules formed by 10 strains (of 36 examined) on Tallarook. With two “accumulating” strains, higher concentrations of γ-aminobutyric acid were found in nodules formed on the cultivar Clare (2.0 mmoles/g nodule dry weight) than in nodules formed on Tallarook or Yarloop (1 1.4 mmoles). No γ-aminobutyric acid was found in cultured cells of either an accumulating strain (NA30) or a nonaccumulating strain (TA1) of R. trifolii.The accumulation of non-protein nitrogen as γ-aminobutyric acid, and the accompanying increase in nodule tissue, each resulting in the export of a lower proportion of the nitrogen fixed to the host, is considered to be a factor causing a lower degree of symbiotic effectiveness. 相似文献
13.
George N. Chemining'wa 《Soil biology & biochemistry》2006,38(2):294-302
For optimum production, the use of commercial rhizobial inoculant on pea (Pisum sativum L.) at seeding is necessary in the absence of compatible rhizobial strains or when rhizobial soil populations are low or symbiotically ineffective. Multiple site experiments were conducted to characterize the abundance and effectiveness of resident populations of Rhizobium leguminosarum bv. viciae (Rlv) in eastern Canadian prairie soils. A survey of 20 sites across a broad geographical range of southern Manitoba was carried out in 1998 and was followed by more intensive study of five of the sites in 1999 and 2000. Appreciable nodulation of uninoculated pea was observed at all sites which had previously grown inoculated pea. However, uninoculated pea grown at two sites, which had not previously grown pea, had negligible nodulation. Likewise, wild Lathyrus sp. and Vicia sp. plants collected from uncultivated areas adjacent to agricultural sites were poorly nodulated. In the more intensively studied sites, there was a tendency towards higher nodulation in pea plants receiving commercial inoculant containing Rlv strain PBC108 across all site-years (e.g., 4.7% in nodulation and 22% in nodule mass), but the effect was significant at only 2 of 10 site-years. Despite a relatively high range of soil pH (6-8), regression analysis indicated that decreasing soil pH resulted in lower nodulation rates. Likewise, electrical conductivity (EC) was correlated to nodulation levels, however the effect of EC was likely more indicative of the influence of soil texture and organic matter than salinity. As with nodulation, commercial inoculation tended to increase above-ground dry matter (DM) and fixed-N (estimated by the difference method) at the early pod-filling stage, but again the effects were significant at only 2 of 10 site-years. Specifically, above-ground DM and fixed-N levels were up to 29 and 51% greater, respectively, in inoculated compared to non-inoculated treatments at these sites. Addition of N-fertilizer at a rate of 100 kg N ha−1 decreased nodulation at almost all site-years (by as much as 70% at one site), but rarely resulted in increases in above-ground DM compared to inoculated plots. The study indicates for the first time that populations of infective, and generally effective strains of Rlv occur broadly in agricultural soils across the eastern Canadian prairie, but that there is a tendency for increased symbiotic efficiency with the use of commercial inoculant. 相似文献
14.
Lime pelleting of the inoculated seed is recommended for most pasture legume species to improve survival of the rhizobia on the seed and to counter deleterious effects of soil or fertiliser acidity on rhizobial numbers. Except for New South Wales, lime pelleting is specifically not recommended for serradella (Ornithopus spp.). Our objectives were to evaluate effects of lime pelleting on bradyrhizobial numbers on seed, and nodulation and growth of the serradella plants. Three experiments are reported at two acid-soil sites in northern New South Wales involving four cultivars of yellow serradella (Ornithopus compressus) and Bradyrhizobium sp. (Lupinus) strains WSM471 (current inoculant strain) and WU425 and WSM480. Lime pelleting increased bradyrhizobial numbers on seed, 24 h after inoculation, by an average of 90%. Similarly, lime pelleting increased nodulation and shoot dry matter of the inoculated plants by an average of 57 and 28%, respectively. The three strains were similar in effects on plant growth. Relative values for shoot dry weight, averaged over sites, were 100 for WSM471 and 98 for both WU425 and WSM480. Our results confirmed previous research that lime pelleting inoculated serradella seed was not deleterious to survival of the bradyrhizobial inoculum, and showed that it could result in enhanced symbiotic activity of the inoculum in some instances. We recommend lime pelleting of serradella and that WSM471 remain the inoculant strain. 相似文献
15.
Five strains of Rhizohium trifolii were used to inoculate Trifolium subterraneum cv. Woogenellup sown into two soils with naturally-occurring populations of R. trifolii. In the 1st year all inoculant strains used singly were present at high frequency in the sampled nodule populations from the inoculated plots. Where an inoculant containing a mixture of equal parts of the 5 strains was used. one strain (WU95) predominated at both sites.The persistence of the strains was followed for a further 3 years at one site. Three of the strains WU95, CC2480a and WU290, were maintained at a high frequency (>75% of nodules sampled) for the entire period, but the other two strains showed poor persistence in this environment. Highly effective strains of rhizobia, not identifiable as inoculant strains, nor present in the nodule population at the first sampling, appeared during the course of the study. One strain. WU290, showed a high degree of variation in symbiotic effectiveness between single colony isolates from the stock culture and also between field isolates that were serologically identical with this strain. 相似文献
16.
Marked strains of Rhizobium trifolii, distinguishable from other strains antigenically and by streptomycin resistance, were introduced by seed inoculation of subterranean clover (Trifolium subterraneum L.) into a field environment having a natural population of R. trifolii. Isolates from nodules obtained periodically during the following 41 months were classified using both methods of identification in parallel. This procedure made it possible to determine the reliability of each method independently.There was a gradual disappearance of the inoculum strains which occurred more rapidly in plots of cv. Woogenellup than in plots seeded with cv. Mount Barker. At five harvests, there was 95% (or greater) correspondence between inoculum survival using either method of identification. There was evidence that a small proportion of the progeny of the inocula sustained independent loss of antigenic character and/or streptomycin resistance in the field or, alternatively, that strains occurring naturally acquired these characteristics. A few nodules contained more than one strain of rhizobia. These exceptions occurred at low frequency and did not interfere substantially with identification results. It is concluded that gel immune diffusion serology and the use of streptomycin-resistant mutants are both reliable methods for identifying strains of rhizobia reisolated from field environments. 相似文献
17.
Summary Previous laboratory and greenhouse studies have shown that phages significantly reduce soil populations of homologous rhizobia. Reductions in nodulation and N2 fixation have also been observed. The purpose of the current study was to examine the effect of a phage specific ofBradyrhizobium japonicum USDA 117 on nodulation, nodule occupancy, N2 fixation and soybean growth and yield under field conditions. The phage was inoculated in combination withB. japonicum USDA 117 and/orB. japonicum USDA 110 (resistant strain) into a rhizobia-free sandy loam soil and planted toGlycine max (L.) Merr. Williams. When the phage was applied to soil inoculated withB. japonicum USDA 117 alone, significant reductions in nodule weight and number, shoot weight, foliar N, nitrogenase activity, and seed index were observed. When, however, the soil also contained the non-homologous strain,B. japonicum USDA 110, no significant effects on any of these parameters were found. Nodule occupancy by competing strains ofB. japonicum USDA 110 and USDA 117 was also affected by the phage. In soil which did not contain the phage, 46% and 44% of the identified nodules were occupied by USDA 110 and 117, respectively. When the phage was present in the soil, nodule occupancy byB. japonicum USDA 117 was reduced to 23%, while occupancy byB. japonicum USDA 110 was increased to 71%. These results suggest that nodulation by selected strains of rhizobia can be restricted and nodulation by more effective, inoculated strains can be increased through the introduction of a homologous phage to soils. 相似文献
18.
The nodulation of Lotus pedunculatus and the multiplication of three Rhizobium loti (fast-growing, acid-producing) and two Bradyrhizobium (slow-growing, alkali-producing) strains was investigated in acidified rooting solution. R. loti strains multiplied at pH 4.5 but Bradyrhizobium strains failed to multiply. No difference in growth rate between R. loti and Bradyrhizobium strains was apparent in rooting solution at pH 6.7. Similar responses to pH were observed in yeast extract-mannitol broth except that Bradyrhizobium strains multiplied more slowly than R. loti at pH 6.7. All strains nodulated L. pedunculatus growing in acid (pH 4.5) rooting solution when presented as single cultures. Following inoculation with 1:1 mixtures of R. loti and Bradyrhizobium strains, R. loti formed 93% of nodules at pH 4.5 and significantly fewer nodules (66%) at pH 6.7. These results demonstrate a competitive advantage for acid-tolerant strains over acid-sensitive strains in nodulation of their lost legume at pH 4.5. 相似文献
19.
The nodulation of provenances of Acacia seyal, Acacia tortilis and Faidherbia albida, and other indigenous multipurpose tree species were tested in 14 different soil samples collected from diverse agro-ecological zones in southern Ethiopia. Associated rhizobia were isolated from these and from excavated nodules of field standing mature trees, and phenotypically characterized. Indigenous rhizobia capable of eliciting nodules on at least one or more of the woody legume species tested were present in most of the soils. Tree species were markedly different in nodulation in the different site soils. Sesbania sesban and Acacia abyssinica showed higher nodulation ability across the different sites indicating widespread occurrence of compatible rhizobia in the soils. The nodulation patterns of the different provenances of Acacia spp. suggested the existence of intraspecific provenance variations in rhizobial affinity which can be exploited to improve N fixation through tree selection. Altogether, 241 isolates were recovered from the root nodules of trap host species and from excavated nodules. Isolates were differentiated by growth rate and colony morphology and there were very fast-, fast-, slow-, and very slow-growing rhizobia. The bulk of them (68.5%) were fast-growing acid-producing rhizobia while 25.3% were slow-growing alkali-producing types. Fast-growing alkali-producing (2.9%) and slow-growing acid-producing strains (3.3%) were isolated from trap host species and excavated nodules, respectively. All isolates fell into four colony types: watery translucent, white translucent, dull glistering and milky (curdled) type. The diversity of indigenous rhizobia in growth rate and colony morphology suggested that the collection probably includes several rhizobial genera. 相似文献
20.
Sudan is the fourth largest exporter of groundnuts in the world, yet little is known concerning the plant-rhizobial symbiosis. A study was made on the abundance of groundnut-nodulating rhizobia in the soils of Sudan as related to soil properties and the duration since groundnuts were last planted. Also, physiological, serological and nitrogen-fixing characteristics of Sudanese rhizobia are reported. All but one of 32 sites contained more than 300 rhizobia g?1 soil capable of forming nodules on siratro (Macroptilium atropurpureum). Several of these soils had never been planted to groundnut. A correlation matrix indicated no relationship was present between soil rhizobial populations and any of the measured soil properties, or between soil rhizobial populations and the time since groundnuts were last planted in the rotation. Individual isolates of Rhizobium from six legumes: groundnut (Arachis hypogaea), mung bean (Vigna radiata), lubia (Dolichos lablab), cowpea (Vigna unguiculata), pigeonpea (Cajanus cajan) and bambara groundnut (Voandzeia subterranea) were obtained from four locations in Sudan. All isolates were able to nodulate each of the six legumes when grown in sterile vermiculite. The isolates grew in 0.1% NaCl-amended media, but growth was variable in 2.0% amended media. Most isolates grew after exposure to moist heat for 15 min at 50°C. Optimum pH for growth was, in general, between pH 6 and 8. Agglutination reactions indicated isolates from groundnuts, as well as isolates from other legumes, belonged to several serological groupings. Some isolates formed a large number of nodules on a Sudanese groundnut cultivar, whereas other isolates formed only few nodules. 相似文献