摘要:

The transformation of carbon tetrachloride (CT) and hexachloroethane (HCA) by aquatic plants and freshwater algae was investigated. Stressed, axenic, and physiologically healthy freshwater plants all transformed the two chlorinated alkanes, yielding similar breakdown products. Experiments conducted with dead plants were used to indirectly test the hypothesis that dead aquatic plants maintain and possibly contribute to the dehalogenase activity observed in organic-rich sediments. After exposure of the aquatic plants and algae to HCA- and CT-dosed solutions, a rapid sorption (or sequestration) step followed by a slow transformation lasting several hours thereafter was observed. The kinetics data were adequately described by two first-order rate equations; pseudo-first-order sorption rate coefficients were calculated for the initial rapid adsorption and transformation steps. The identified metabolites extracted from plants indicated that more than one pathway, possibly requiring different reactants, mediated the phytotransformation reactions. Mass balance estimations confirmed that >80% of the parent chemical was sequestered, transformed, and/or assimilated by the biomass. The metabolic activity observed with dead plants and algae suggests that photoautotrophs maintain this activity at death, and the active agents could become bound to the sediment-organic matrix as plants die, decay, and are buried in sediment. The results of this study suggest the potential usefulness of aquatic plants and freshwater algae in the removal of chlorinated alkanes from water and remediation of aquatic environments.

ISSN:1522-6514    

DOI:10.1080/15226519908500016

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor

摘要:

The formation of TNT-derived conjugates was investigated in hairy root tissue cultures ofCatharanthus roseusand in aquatic plant systems ofMyriophyllum aquaticum.The temporal profiles of four TNT-derived conjugates, TNT-1, 2A-1, TNT-2 and 4A-1, were determined over 3 to 16-day exposure durations. When axenicC. roseusroots were exposed separately to 2,4,6 trinitrotoluene, 2-amino-4,6-dinitrotoluene and 4-amino-2,6-dinitrotoluene, the array and levels of conjugates varied. Exposure of axenic roots to either 4-amino-2,6-dinitrotoluene or 2-amino-4,6-dinitrotoluene resulted in the formation of only 4A-1 and 2A-1, respectively, and not TNT-1 and TNT-2. However, amendment of previously unexposed roots with TNT produced all four conjugates. The conjugates were preferentially accumulated within the biomass phase of root cultures. Significantly, conjugates TNT-1 and TNT-2 were observed in the biomass phase of intactM. aquaticumplants exposed to TNT. The results clearly indicate the presence of common TNT transformation products in two diverse plants species and tissue type. The distribution of conjugates formed via monoamine derivatives of TNT, however, may be a function of several factors, including the starting xenobiotic type and/or level. Initial bulk rate constants for disappearance of 2,4,6 trinitrotoluene, 2-amino-4,6-dinitrotoluene, and 4-amino-2,6-dinitrotoluene were also determined. Their magnitude followed the order: TNT >> 4-A-2,6-DNT > 2-A-4,6-DNT.

ISSN:1522-6514    

DOI:10.1080/15226519908500017

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor

摘要:

The presence and density of methanotrophic bacteria has been shown to play an important role in the bioremediation of trichloroethylene (TCE). This article describes the methanotrophic bacterial densities in rhizosphere soils from two areas of the Department of Energy's Savannah River Site in Aiken, South Carolina. A direct fluorescent antibody (DFA) technique was evaluated to determine the presence of methanotrophic bacteria in roots and rhizospheres from vascular plants. The first site, the Miscellaneous Chemical Basin (MCB), was contaminated with a mixture of chemicals, including chlorinated solvents. The second site will be potentially affected by outcropping of TCE-contaminated groundwater. Significantly higher numbers of methanotrophic bacteria were observed with DFA in rhizosphere soils and on roots ofLespedeza cuneataandPinus taeda(that previously showed higher rates of14C-TCE mineralization) compared with nonvegetated soils. In addition, viable and heterotrophic microbial counts were consistently higher in rhizosphere soils and on plant roots compared with nonvegetated soils. Therefore, the presence of these plant species may enhance14C-TCE mineralization by selectively increasing the microbial population in the root zone. Methanotrophic bacteria were directly observed by DFA in soils, on the surface of root hairs, within plant roots, and in higher densities associated with mycorrhizal fungi. These experiments provide further evidence that specific types of bacterial interactions with vegetation in the rhizosphere may play an important role in remediation of TCE-contaminated soils and groundwater.

ISSN:1522-6514    

DOI:10.1080/15226519908500018

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor

摘要:

Sulfonated aromatic compounds are released into the environment in large amounts: the main sources of these recalcitrant pollutants are anionic detergents, dyestuffs, and their byproducts, such as sulfonated anthraquinones. Different derivatives of anthraquinones occur naturally in several plant species such as rhubarb. Therefore, this plant could possess enzymes able to accept sulfonated anthraquinones as substrates. Previously, it has been shown that cultured cells isolated fromRheum palmatumare able to efficiently accumulate and transform different mono- and disulfonated anthraquinones. Because rhubarb is a hardy plant species, it may prove a promising candidate in developing new biological processes to decontaminate effluents containing recalcitrant xenobiotics. The ability of rhubarb cells to accumulate and transform other sulfonoaromatics was investigated in this study. Results obtained show that cultured rhubarb cells were able to efficiently accumulate 2-chloro-5-nitro-benzene sulfonate, both 2-hydroxy-4-sulfo- and 2-hydroxy-4-sulfo-6-nitro-naphthalene-diazonium, as well as 1,3-naphthalene disulfonates, containing either an amino or a nitro group in position 7. Rhubarb cells were also able to biotransform four of these compounds without releasing the metabolites formed.

ISSN:1522-6514    

DOI:10.1080/15226519908500019

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor

摘要:

Agricultural drainage waters and industrial effluents often consist of waste waters laden with salts, boron (B), selenium (Se), molybdenum (Mo), and other contaminants. However, increasing shortages of high-quality water in arid and semiarid regions and increasing demands to maintain the water quality in rivers, lakes, streams, and groundwater have made water reuse an imperative. Trees have been viewed as potential candidates for wastewater reuse because of their capacities for high evapotranspiration, high growth rates, and abilities to accumulate salts and specific ions in a marketable product that is not biologically hazardous. Clones of eight hybrid poplar (Populusspp.) crosses were tested for salt tolerance and ion uptake characteristics in a sand culture study in Riverside, CA. After hardwood cuttings were planted and established under nonsaline conditions, young saplings were treated with artificial waste waters containing different levels of salts, Se, and B. High salt concentrations reduced growth and led to leaf damage and shedding; however, Se and B had no detrimental effect on growth. Salinity affected Se and B accumulation patterns in leaves. A significant degree of genetic variation in salt tolerance was noted among the clones. The salinity at which dry weight was reduced ranged from about 3.3 to about 7.6 dS m-1depending on clone, and the relative decrease in dry weight yield with increasing salinity varied among clones and ranged from about 10 to 15% per dS m-1. This would indicate that poplars, whereas certainly more salt tolerant than avocado trees, are significantly less salt tolerant than eucalyptus. Leaf C1 concentrations increased in relation to the C1 concentrations in the irrigation waters, but also were subject to clonal variation. Salt tolerance in poplar was generally related to C1 in the leaves and stems but was also influenced by growth and vigor characteristics, as well as the allometric relationships between leaves and stems that influenced the sinks in which ions could accumulate before reaching toxic levels.

ISSN:1522-6514    

DOI:10.1080/15226519908500020

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor

摘要:

Phytoremediation was evaluated as a potential treatment for the creosote-contaminated surface soil at the McCormick and Baxter (M&B) Superfund Site in Portland, Oregon. Soil at the M&B site is contaminated with pentachlorophenol (PCP) and polyaromatic hydrocarbons (PAHs). Eight individual PAH compounds (containing four to six aromatic rings) were included in the investigation. Greenhouse and field studies were carried out using perennial ryegrass (Lolium perenne). The following three treatments were compared in both studies: T1 = planted-amended soil; T2 = unplanted-amended soil; and T3 = unplanted-unamended soil. The amendments were mineral nutrients and dolomite, which was used to raise the acidic pH of the soil. Contaminant concentrations in the soil were measured initially and at regular intervals for several months. In the greenhouse study, the concentrations of certain contaminants decreased as a function of time. Thus, PCP, fluoranthene, pyrene, chrysene, and benzo(k)fluoranthene appeared to undergo biodegradation in all of the treatments. On the other hand, certain larger molecular weight PAHs were relatively recalcitrant. These “recalcitrant PAHs” included benzo(b)fluoranthene, benzo(a)pyrene, benzo(g,h,i)perylene and indeno(1,2,3-cd)pyrene. Statistical methods were used to compare the concentrations of the more easily biodegraded contaminants in treatments T1, T2, and T3. The statistical analysis was facilitated by normalizing the contaminant concentrations relative to the sum of the recalcitrant PAHs in the same sample. Thus, ratios were created that could be compared directly to benchmark values indicative of the contaminant at the beginning of the study. In the greenhouse study, statistically significant differences between T1 and T2, across all treatment times, were obtained for fluoranthene, pyrene, and chrysene (p≤0.05), suggesting enhanced rhizosphere biodegradation for these compounds. Significant differences between T2 and T3 were obtained for pyrene (p≤0.03), indicating that nutrients stimulated the biodegradation of this contaminant. Although the greenhouse study was carried out with a well-mixed soil sample from the M&B site, an extremely uneven distribution of contaminants was encountered in the field study. The resulting scatter in the field data made comparisons difficult, and treatment-specific effects observed in the greenhouse study were not statistically significant in the field study. However, analysis of the normalized data from the field revealed the same time-dependent decreases in contaminant concentration as observed in the greenhouse study.

ISSN:1522-6514    

DOI:10.1080/15226519908500021

出版商:Taylor & Francis Group    

年代:1999

数据来源: Taylor