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61.
The 2,4-dichlorophenoxyacetic acid (2,4-D) degrading bacterium, Burkholderia cepacia (formerly Pseudomonas cepacia) DBO1(pRO101) was coated on non-sterile barley (Hordeum vulgare) seeds, which were planted in two non-sterile soils amended with varying amounts of 2,4-D herbicide. In the presence of 10 or 100 mg 2,4-D per kg soil B. cepacia DBO1(pRO101) readily colonized the root at densities up to 107 CFU per cm root. In soil without 2,4-D the bacterium showed weak root colonization. The seeds coated with B. cepacia DBO1(pRO101) were able to germinate and grow in soils containing 10 or 100 mg kg–1 2,4-D, while non-coated seeds either did not germinate or quickly withered after germination. The results suggest that colonization of the plant roots by the herbicide-degrading B. cepacia DBO1(pRO101) can protect the plant by degradation of the herbicide in the rhizosphere soil. The study shows that the ability to degrade certain pesticides should be considered, when searching for potential plant growth-promoting rhizobacteria. The role of root colonization by xenobiotic degrading bacteria is further discussed in relation to bioremediation of contaminated soils. 相似文献
62.
Effects of soil compaction on the microbial populations of melon and maize rhizoplane 总被引:3,自引:0,他引:3
Effects of soil compaction on the microbial populations of melon and maize rhizoplane were investigated in quantity and quality. The numbers of culturable bacteria and fluorescent pseudomonads on the rhizoplane were higher when plants were grown in more compacted soil and the relative increase was larger in fluorescent pseudomonads. Total bacterial counts, however, did not appear to be affected by soil compaction, resulting in the increase in the culturable bacteria among total counts in more compacted soil. The determination of extracellular enzymatic properties (pectinase, -glucosidase, -glucosidase and -galactosidase) of each 100 isolates from bulk soil and root samples suggested that the microbial populations on the rhizoplane, especially when plants were grown in highly, compacted soil, were composed of high ratios of bacteria with abilities to utilize root exudates efficiently. The microbial community structure estimated from the colony forming curves of bulk soil and root samples suggested that the microbial populations on the rhizoplane, especially when plants were grown in compacted soil, were likely to be composed of more r-strategists which were defined as those who formed colonies within 2 days. 相似文献
63.
植物根际促生枯草芽孢杆菌JC01筛选 总被引:4,自引:0,他引:4
【目的】筛选高效植物根际促生细菌,阐明产挥发性有机化合物(VOC)菌株JC01的促生机制。【方法】选取从植物根际中分离得到的838株细菌,以固氮、解(溶)磷以及分泌嗜铁素、吲哚乙酸(IAA)活性为指标,对其促生能力进行赋值评估,将赋值在3分以上的107株细菌进行指纹图谱分析,挑选其中不同簇的20株促生潜力细菌进行温室实验,以评价赋值体系与温室促生效果之间的关系,进一步探究具有较好促生效果菌株JC01的作用机理。【结果】共筛选出了来源于指纹图谱中不同簇的4株具有较好促生效果的菌株,细菌的平板活性赋值与促生效果之间的相关系数r大于0.6。其中,菌株JC01分泌的具有促生作用的VOC能够增强番茄植株IAA信号通路关键基因的表达,减弱脱落酸(ABA)、乙烯(ETH)信号通路关键基因的表达。JC01经16S r RNA基因鉴定为枯草芽孢杆菌。【结论】细菌的平板活性赋值与促生效果之间存在较高的正相关性,枯草芽孢杆菌JC01可能通过产生VOC对番茄生长进行调控。 相似文献
64.
Synergistic effects of Arbuscular mycorrhizal fungi and plant growth promoting rhizobacteria in bioremediation of iron contaminated soils 总被引:3,自引:0,他引:3
Vartika Mishra Antriksh Gupta Parvinder Kaur Simranjeet Singh Nasib Singh Praveen Gehlot 《International journal of phytoremediation》2016,18(7):697-703
Three Arbuscular mycorrhizal fungi (AMF) from Glomus, Acaulospora and Scutellospora, and four plant growth promoting rhizobacteria (PGPR) isolates related to genera Streptomyces, Azotobacter, Pseudomonas and Paenibacillus were found to be effective in phytoremediation of Fe3+ contaminated soil where Pennisetum glaucum and Sorghum bicolor were growing as host plants. Co-inoculation of AMF and PGPR showed better results in comparison to either, AMF and PGPR under pot conditions. Both AMF and PGPR were able to produce siderophores. AMF and PGPR associated to P. glaucum and S. bicolor plants increased the extent of iron absorption. AMF and PGPR combination exhibited superior (p < 0.01) phytoremediation efficiency with P. glaucum compared to S. bicolor. These findings warrant further investigations of these synergistic interactions and large-scale in situ studies for bioremediation of iron-contaminated soils. 相似文献
65.
Joseph W. Kloepper Rodrigo Rodríguez-Kábana John A. McInroy Daniel J. Collins 《Plant and Soil》1991,136(1):95-102
Populations of rhizosphere microflora of plants which have demonstrated an antagonism toward phytopathogenic nematodes, including
velvet bean (Mucuna deeringiana), castor bean (Ricinus communis), sword bean (Cannavalia ensiformis), and Abruzzi rye (Secale cereale)., were compared to the rhizosphere microflora of soybean. Population densities of total bacteria were significantly lower
for young Abruzzi rye, mature velvet bean, and mature castor bean, and fungi from mature velvet bean than for soybean. Population
densities of spore-forming bacilli were significantly higher for Abruzzi rye than for soybean. Population densities of coryneform
bacteria for mature sword bean and velvet bean were significantly higher than for soybean. All seedling test poants supported
significantly higher population densities of chitinolytic fungi than soybean. On mature plants, chitinolytic bacteria were
significantly higher on all test plants except velvet bean. Populations of endophytic root bacteria for three of the four
test plants were significantly higher than for soybean. Fifty randomly, selected bacterial strains from seedlings and mature
plants of soybean and each test plant were characterized for various physiological traits associated with rhizosphere competence,
including chitinolytic activity, gelatin hydrolysis, production of hydrogen cyanide, starch hydrolysis, phenol oxidation,
siderophore production, and production of antifungal compounds (inhibition ofPythium ultimum and/orRhizoctonia solani). There was a strong trend to increased frequency in each of the physiological tests with bacteria from test plants in comparison
to those from soybean. The frequency of starch hydrolysis was up to 24 times greater for strains from test plants than for
soybean strains, and siderophore production was up to 22 times more frequent for test plants. These results demonstrate that,
compared to soybean, plants with properties antagonistic to phytopathogenic nematodes have a distinct rhizosphere microflora. 相似文献
66.
Azosprillum inoculated withRhizobium improved the nodulation of chickpea-Cicer arietinum. This interaction was further enhanced by organic matter present in the growth medium. 相似文献
67.
The rhizosphere bacteriumAzospirillum brasilense Cd adsorbed strongly to light-textured and heavy-textured soils, but only slightly to quartz sand. Bacterial attachment to sand particles was mediated by a network made up of various sizes and shapes of fibrillar material. Inoculation of sand with an aggregate-deficient mutant resulted in no detectable fibrillar formation. Rinsing or agitating the sand, colonized by the wild-type and the mutant, had a greater effect on the mutant than on the parental strain. We propose that bacterial fibrils are essential for anchoring ofA. brasilense to sand.
A. brasilense Cd was capable of efficiently colonizing the elongation and root-hair zones of tomato, pepper, cotton and soybean plants as well as of wheat plants. All inoculated plants demonstrated: (i) larger amounts of a mucigel-like substance on the root surface than non-inoculated plants, and (ii) fibrillar material which anchored the bacterial cells to the root surface. These fibrils established also connections between cells within bacterial aggregates. On non-water stressed soybean roots, mostA. brasilense Cd cells occurred as vibroid forms. Whereas, those on roots of water-stressed plants.(wilting) were cyst-like. A lower rhizosphere bacterial population was observed on water-stressed plants. When water stress conditions were eliminated, cells reverted to the vibroid form. A concomitant increase in the bacterial population was observed. We suggest that cyst-like formation is a natural response forA. brasilense Cd in the rhizosphere of water-stressed plants. 相似文献
68.
Methods are described for measuring the colonisation of a radish (Raphanus sativus) root system by seedlings with rifampicin resistant fluorescent pseudomonads by dilution plating, and which would take account of differences in root morphology. Differences in the levels of pseudomonad colonisation was highly dependent on the units in which surface areas was expressed. Population levels are expressed using estimates of surface area based on root length, tap-root length and root weight. The best estimate of surface area was root length, but the most practical method was surface area calculated as a function of dry weight. This method could differentiate differences in the levels of root colonisation independent of differences in root morphology and was efficient enough to allow the routine processing of a large number of replicate root samples. 相似文献
69.
70.
E. Simonetti A.I. Hernández N.L. Kerber N.L. Pucheu M.A. Carmona A.F. García 《Biocontrol Science and Technology》2012,22(1):111-115
Strains of Pseudomonas fluorescens and Bacillus amyloliquefaciens, isolated from soybean rhizosphere, inhibited mycelial growth of Botrytis cinerea and Sclerotinia sclerotiorum, in vitro. Leaves from Brassica napus seedlings, pre-inoculated with either of these bacteria, exhibited systemic protection against fungal pathogens. 相似文献