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31.
BothPseudomonas putida F1 and a mixed culture were used to study TCE degradation in continuous culture under aerobic, non-methanotrophic conditions. TCE mass balance studies were performed with continuous culture reactors to determine the total percent removed in the reactors, and to quantify the percent removed by air stripping and biodegradation. Adsorption of TCE to biomass was assumed to be negligible. This research demonstrated the feasibility of treating TCE-contaminated water under aerobic, non-methanotrophic conditions with a mixed-culture, continuous-flow system.Initially glucose and acetate were fed as primary substrates. Pnenol, which has been shown to induce TCE-degrading enzymes, was fed at a much lower concentration (20mg/L). Little degradation of TCE was observed when acetate and glucose were the primary substrates. After omitting glucose and acetate from the feed and increasing the phenol concentration to 50mg/L, TCE biotransformation was observed at a significant level (46%). When the phenol concentration in the feed was increased to 420mg/L, 85% of the incoming TCE was estimated to have been biodegraded. Under the same conditions, phenol utilization by the mixed culture was greater than that ofP. putida F1, and TCE degradation by the mixed culture (85%) exceeded that ofP. putida F1 (55%). The estimated percent-of-TCE biodegraded by the mixed culture was consistently greater than 80% when phenol was fed at 420mg/L. Biodegradation of TCE was also observed in mixed-culture, batch experiments. 相似文献
32.
Metabolic diversity of aromatic hydrocarbon-degrading bacteria from a petroleum-contaminated aquifer 总被引:11,自引:0,他引:11
We characterized bacteria from contaminated aquifers for their ability to utilize aromatic hydrocarbons under hypoxic (oxygen-limiting) conditions (initial dissolved oxygen concentration about 2 mg/l) with nitrate as an alternate electron acceptor. This is relevant to current intense efforts to establish favorable conditions forin situ bioremediation. Using samples of granular activated carbon slurries from an operating groundwater treatment system, we isolated bacteria that are able to use benzene, toluene, ethylbenzene, orp-xylene as their sole source of carbon under aerobic or hypoxic-denitrifying conditions. Direct isolation on solid medium incubated aerobically or hypoxically with the substrate supplied as vapor yielded 103 to 105 bacteria ml–1 of slurry supernatant, with numbers varying little with respect to isolation substrate or conditions. More than sixty bacterial isolates that varied in colony morphology were purified and characterized according to substrate utilization profiles and growth condition (i.e., aerobic vs. hypoxic) specificity. Strains with distinct characteristics were obtained using benzene compared with those isolated on toluene or ethylbenzene. In general, isolates obtained from direct selection on benzene minimal medium grew well under aerobic conditions but poorly under hypoxic conditions, whereas many ethylbenzene isolates grew well under both incubation conditions. We conclude that the conditions of isolation, rather than the substrate used, will influence the apparent characteristic substrate utilization range of the isolates obtained. Also, using an enrichment culture technique, we isolated a strain ofPseudomonas fluorescens, designated CFS215, which exhibited nitrate dependent degradation of aromatic hydrocarbons under hypoxic conditions.Abbreviations BTEX
benzene, toluene, ethylbenzene, andp-xylene
- HPLC
high performance liquid chromatography
- GAC
granular activated carbon 相似文献
33.
由微生物介导的吡啶降解技术是解决高盐吡啶环境污染的经济有效方法之一,开发具有吡啶降解性能且能够耐受高盐分的微生物是该类研究的重要前提。本研究从山西太原钢铁公司焦化废水处理厂活性污泥中分离培养了一株耐盐吡啶降解菌,通过菌落形态和16S rDNA基因系统发育分析,鉴定其为红球菌属(Rhodococcus sp.)的细菌。耐盐性实验结果表明,菌株LV4能够在0%–6%盐度范围内生长,并完全降解初始浓度为500 mg/L的吡啶;但当盐度高于4%时,菌株LV4因其生长变缓而导致吡啶完全降解时间明显延长。扫描电镜结果显示,高盐环境会使菌株LV4的菌体细胞分裂变慢,诱导细胞表面分泌更多的颗粒状胞外聚合物(extracellular polymeric substance, EPS)。当盐度不高于4%时菌株LV4主要依靠EPS中蛋白含量的增加来响应高盐环境的冲击。单因素实验优化发现,菌株LV4在盐度为4%的高盐环境中降解吡啶的最佳条件为温度30℃、pH 7.0、转速为120 r/min (DO 10.30 mg/L)。最优条件下菌株LV4对于初始浓度为500 mg/L的吡啶,在经过12 h的适应期后,... 相似文献
34.
35.
M A Jackson D P Labeda L A Becker 《Journal of industrial microbiology & biotechnology》1996,16(5):301-304
Bacterial and fungal strains were isolated from enrichment cultures using diethylphthalate, diethylterephthalate, or ethylene glycol dibenzoate as sole carbon sources.Aureobacterium, Flavobacterium, andMicrococcus species were isolated from diethylphthalate enrichments;Rhodococcus andXanthomonas species were isolated from diethylterephthalate enrichments;Rhodococcus andFusarium species were isolated from ethylene glycol dibenzoate enrichments. 相似文献
36.
Laetitia C. M. Commandeur Ralph J. May Heinrich Mokross Donna L. Bedard Walter Reineke Harrie A. J. Govers John R. Parsons 《Biodegradation》1996,7(6):435-443
In contrast to the degradation of penta-and hexachlorobiphenyls in chemostat cultures, the metabolism of PCBs by Alcaligenes sp. JB1 was shown to be restricted to PCBs with up to four chlorine substituents in resting-cell assays. Among these, the PCB congeners containing ortho chlorine substituents on both phenyl rings were found to be least degraded. Monochloro-benzoates and dichlorobenzoates were detected as metabolites. Resting cell assays with chlorobenzoates showed that JB1 could metabolize all three monochlorobenzoates and dichlorobenzoates containing only meta and para chlorine substituents, but not dichlorobenzoates possessing an ortho chlorine substituent. In enzyme activity assays, meta cleaving 2,3-dihydroxybiphenyl 1,2-dioxygenase and catechol 2,3-dioxygenase activities were constitutive, whereas benzoate dioxygenase and ortho cleaving catechol 1,2-dioxygenase activities were induced by their substrates. No activity was found for pyrocatechase II, the enzyme that is specific for chlorocatechols. The data suggest that complete mineralization of PCBs with three or more chlorine substituents by Alcaligenes sp. JB1 is unlikely.Abbreviations PCB
polychlorinated biphenyls
- CBA
chlorobenzoate
- D
di
- Tr
tri
- Te
tetra
- Pe
penta-
- H
hexa 相似文献
37.
Effect of yeast extract on growth kinetics during aerobic biodegradation of chlorobenzoic acids 总被引:4,自引:0,他引:4
The Monod or Andrews kinetic parameters describing the growth of Pseudomonas sp. CPE2 strain on 2,5-dich!orobenzoic acid and 2-chlorobenzoic acid, and Al-caligenes sp. CPE3 strain on 3,4-dichlorobenzoic acid, 4-chlorobenzoic acid, and 3-chlorobenzoic acid were determined from batch and continuous growth experiments conducted in the presence or absence of yeast extract (50 mg/L). Strain CPE2 displayed inhibitory growth kinetics in the absence of yeast extract and a noninhibitory kinetics in the presence of yeast extract. Similar results were obtained for CPE3. The presence of yeast extract also resulted in a significant increase in the affinity of the strains for the chlorobenzoic acids they degraded. (c) 1995 John Wiley & Sons, Inc. 相似文献
38.
Biodegradation of hydrophobic organic compounds in polluted soil is a process involving interactions among soil particles,
pollutants, water, and micro-organisms. Surface-active agents or surfactants are compounds that may affect these interactions,
and the use of these compounds may be a means of overcoming the problem of limited bioavailability of hydrophobic organic
pollutants in biological soil remediation. The effects of surfactants on the physiology of micro-organisms range from inhibition
of growth due to surfactant toxicity to stimulation of growth caused by the use of surfactants as a co-substrate. The most
important effect of surfactants on the interactions among soil and pollutant is stimulation of mass transport of the pollutant
from the soil to the aqueous phase. This can be caused by three different mechanisms: emulsification of liquid pollutant,
micellar solubilisation, and facilitated transport. The importance of these mechanisms with respect to the effect of surfactants
on bioavailability is reviewed for hydrophobic organic pollutants present in different physical states.
The complexity of the effect of surfactants on pollutant bioavailability is reflected by the results in the literature, which
range from stimulation to inhibition of desorption and biodegradation of polluting compounds. No general trends can be found
in these results. Therefore, more research is necessary to make the application of surfactants a standard tool in biological
soil remediation.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
39.
Ülo Niinemets 《Trees - Structure and Function》1997,11(7):420-431
The relationship between stand biomass production, and tree age and size is generally a curve with a maximum. To understand
why wood production decreases in the final stages of stand development, the influence of increasing tree size on foliage chemical
composition and substrate requirement for foliage construction in terms of glucose [CC, g glucose (g dry mass) –
1] was investigated in the evergreen conifer Picea abies (L.) Karst. Because it was already known that irradiance affects both foliage morphology and chemistry in this species, and
it was expected that the foliage in large overstory trees would intercept on average more light than that in saplings in understory,
irradiance was measured in the sampling locations and included in the statistical models. CC of needles increased with increasing
total tree height (TH) and was independent of relative irradiance. A major reason for increasing CC with increasing TH was
a greater proportion of carbon-rich lignin in the needles in large trees. However, lignin did not fully account for the observed
changes in CC, and it was necessary to assume that certain other carbon-rich secondary metabolites such as terpenes also accumulate
in the foliage of large trees. Enhanced requirements for needle mechanical strength as evidenced by greater lignin concentrations
in large trees were attributed to increased water limitations with increasing tree height. Because water relations may also
control the sink capacities for assimilate usage, apart from the mechanical requirements, they may provide an explanation
for the accumulation of other energetically expensive compounds in the needles as well. Biomass partitioning within the shoot
was another foliar parameter modified in response to increasing tree size. The proportion of shoot axes, which serve to provide
needles with mechanical support and to supply them with water, decreased with increasing TH. This may limit water availability
in the needles, and/or manifest a lower water requirement of the needles containing proportionally more supporting and storage
substances, and consequently, less physiologically active compounds such as proteins. Probably the same factors which caused
CC of the needles to depend on TH, were also responsible for greater CC of the shoot axes in larger trees. These results collectively
suggest that increasingly more adverse water relations with increasing tree size may provide a mechanistic explanation for
the decline in foliar biomass and its functional activity during stand ageing.
Received: 9 April 1996 / Accepted: 14 January 1997 相似文献
40.
Husain D.R. Goutx M. Acquaviva M. Gilewicz M. Bertrand J.-C. 《World journal of microbiology & biotechnology》1997,13(5):587-590
Three hydrocarbon uptake modes (adherence, emulsification and solubilization) were identified and quantified in cells and supernatants of a mesophilic marine bacterium Pseudomonas nautica strain 617 grown on eicosane. The adherence capacity was related to the enrichment of cells with wax esters and glycolipids. The emulsifying activity was related to the presence of extracellular biosurfactants composed of proteins, carbohydrates and lipids (35:63:2). The intensity of substrate uptake modes was sensitive to temperatures currently found in the original environment of P. nautica (16°C, 20°C and 32°C). When temperature decreased, a significant increase in adherence and emulsifying activity was observed in relation to biochemical changes, whereas solubilizing activity decreased. The marine bacterium was able to degrade 53–59% eicosane at the end of exponential growth after 13, 5 and 3 days incubation at 16°C, 20°C and 32°C respectively. 相似文献