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561.
Batch sorption and column breakthrough studies were conducted to investigate the potential of layered double hydroxides (LDHs) to remove bacteriophage MS2 from contaminated waters. All four of the LDHs evaluated in this study had very high retention capacities for MS2. Sorption results showed that MS2 could be completely removed from 5.2 x 10(2) plaque-forming units (pfu)/mL solution by Mg-Al LDH 2 (i.e., 2:1 Mg to Al ratio LDH), with the highest sorption capacity observed in this study of 1.51 x 10(10) pfu/g. Attachment of MS2 to LDHs was a rapid process and reached quasi-equilibrium after a 1-h reaction time. Within the pH range studied (pH 4-9), Mg-Al LDH 2 showed high sorption potential for MS2 at all pH values but sorption decreased slightly with increasing solution pH. Background solution anions influenced virus sorption, with SO4(2-) and HPO4(2-) decreasing sorption significantly whereas the presence of NO3- had little effect on the attachment of MS2 to Mg-Al LDH 2. The addition of another virus (phiX174) only caused a slight decrease in the retention of MS2 by Mg-Al LDH 2, suggesting that there was insignificant competitive sorption between MS2 and phiX174 on LDH surfaces. Results from column experiments indicate that there was no MS2 breakthrough from columns packed with Mg-Al LDH 2-coated sand, suggesting complete MS2 retention at the virus concentration tested. The high mass recovery by beef extract solution revealed that the removal of viruses by the LDH was due to sorption of MS2 to LDH surfaces, rather than inactivation. 相似文献
562.
Luis F. Diaz George M. Savage Linda L. Eggerth Stephen Bantillo 《Journal of Material Cycles and Waste Management》2002,4(1):29-40
The city of San José, California, USA, has a widely recognized integrated waste management program and is currently diverting
close to 50% of its waste stream from landfill disposal. This paper describes the residential and commercial components of
the city's waste management program. Information is presented on performance (e.g., types and quantities of materials that
are collected, processed, and disposed of), customer service, and costs associated with the program.
Received: October 4, 2000 / Accepted: February 15, 2001 相似文献
563.
Dan Binkley George G. Ice Jason Kaye Christopher A. Williams 《Journal of the American Water Resources Association》2004,40(5):1277-1291
ABSTRACT: Seventy to eighty percent of the water flowing in rivers in the United States originates as precipitation in forests. This project developed a synoptic picture of the patterns in water chemistry for over 300 streams in small, forested watersheds across the United States. Nitrate (NO3?) concentrations averaged 0.31 mg N/L, with some streams averaging ten times this level. Nitrate concentrations tended to be higher in the northeastern United States in watersheds dominated by hardwood forests (especially hardwoods other than oaks) and in recently harvested watersheds. Concentrations of dissolved organic N (mean 0.32 mg N/L) were similar to those of NO3~, whereas ammonium (NH4+) concentrations were much lower (mean 0.05 mg N/L). Nitrate dominated the N loads of streams draining hardwood forests, whereas dissolved organic N dominated the streams in coniferous forests. Concentrations of inorganic phosphate were typically much lower (mean 12 mg P/L) than dissolved organic phosphate (mean 84 mg P/L). The frequencies of chemical concentrations in streams in small, forested watersheds showed more streams with higher NO3? concentrations than the streams used in national monitoring programs of larger, mostly forested watersheds. At a local scale, no trend in nitrate concentration with stream order or basin size was consistent across studies. 相似文献
564.
Six major ways in which individuals define the activity of working are empirically identified among national samples of employed labor force members in Belgium, Federal Republic of Germany, Israel, Japan, the Netherlands and the U.S.A. Several types of exchanges being made between working individuals and their working environments are suggested. Primary emphasis is placed upon national similarities and differences in work definition pattern distributions in the six nations. Secondary emphasis is placed upon the influence of demographic context and organizational role context on work definition patterns. Finally, an argument is made for different levels of appropriateness for two specific work definition patterns in work forces of the future. 相似文献
565.
566.
Thomas R. Wentworth George P. Johnson Russell L. Kologiski 《Journal of the American Water Resources Association》1988,24(2):389-396
ABSTRACT: Weighted averages (WA) was investigated as a vegetation-based method for wetland designation, to be used in conjunction with the wetland indicator status of plants from Wetland Plants of the United States of America 1986 (Reed, 1986). Ecological indices were assigned to indicator groups and were used to compute weighted averages for quantitative data obtained from four studies of wetland vegetation conducted in various regions of the United States. Weighted averages of vegetation data proved to be a useful tool for assessing wetland status of the vegetation types included in our study: (1) rankings of vegetation stands or types by WA correlated well with their positions on environmental moisture gradients; and (2) the results of WA could be used, together with a wetland/upland break-point, to designate vegetation types as wetland or upland in a way that agreed well, in three of the four studies, with an alternative classification of wetland habitats. The variation of weighted averages among the sampling units representing a vegetation type was generally small relative to the range of ecological indices assigned. However, designations based on weighted average scores close to the break-point should be considered provisional and must be verified with supplementary data on soils and hydrology. 相似文献
567.
Ecological risk assessment provides a methodology for evaluating the threats to ecosystem function associated with environmental
perturbations or stressors. This report documents the development of a conceptual model for assessing the ecological risk
to the water quality function (WQF) of bottomland hardwood riparian ecosystems (BHRE) in the Tifton-Vidalia upland (TVU) ecoregion
of Georgia. Previus research has demonstrated that mature BHRE are essential to maintaining water quality in this portion
of the coastal plain. The WQF of these ecosystems is considered an assessment endpoit—an ecosystem function or set of functions
that society chooses to value as evidenced by laws, regulations, or common usage. Stressors operate on ecosystems at risk
through an exposure scenario to produce ecological effects that are linked to loss of the desired function or assessment end
point. The WQF of BHRE is at risk because of the ecological and environmental quality effects of a suite of chemical, physical,
and biological stressors. The stressors are related to nonpoint source pollution from adjacent land uses, especially agriculture;
the conversion of BHRE to other land uses; and the encroachment of domestic animals into BHRE. Potential chemical, physical,
and biological stressors to BHRE are identified, and the methodology for evaluating appropriate exposure scenarios is discussed.
Field-scale and watershed-scale measurement end points of most use in assessing the effects of stressors on the WQF are identified
and discussed. The product of this study is a conceptual model of how risks to the WQF of BHRE are produced and how the risk
and associated uncertainties can be quantified. 相似文献
568.
M. Amine Dahmani Kunchang Huang George E. Hoag 《Water, Air, & Soil Pollution: Focus》2006,6(1-2):127-141
This study has been conducted at the University of Connecticut (UCONN) in connection with the USEPA Superfund Innovative Technology
Evaluation (SITE) program to evaluate a chemical oxidation technology (sodium persulfate) developed at UCONN. A protocol to
assess the efficacy of oxidation technologies has been used. This protocol, which consists of obtaining data from a treatability
study, tested two in-situ chemical oxidation technologies that can be used on soil and groundwater at a site in Vernon, Connecticut.
Based on the treatability report results and additional field data collected at the site, the design for the field implementation
of the chemical oxidation remediation was completed. The results indicate that both sodium persulfate and potassium permanganate
were able to effectively degrade the target VOCs (i.e., PCE, TCE and cis-DCE) in groundwater and soil-groundwater matrices.
In the sodium persulfate tests (120 hrs), the extent of destruction of target VOCs was 74% for PCE, 86% for TCE and 84% for
cis-DCE by Na2S2O8 alone and 68% for PCE, 76% for TCE, and 69% for cis-DCE by Fe(II)-catalyzed Na2S2O8. The results demonstrate the sodium persulfate's ability to degrade PCE, TCE and cis-DCE. It is expected that given sufficient
dose and treatment time, a higher destruction rate of the dissolved phase contamination can be achieved. The data also indicates
that the catalytic effect of the iron chelate on persulfate chemistry was much less pronounced in the soil-groundwater matrix.
This indicates an interaction between the iron chelate solution and the soil, which may have resulted in a lower availability
of the chelated iron for catalysis. The study showed that the remediation of the VOCs-contaminated soil and groundwater by
in-situ chemical oxidation using sodium persulfate is feasible at the Roosevelt Mills site. As a result, the USEPA SITE program
will evaluate this technology at this site. 相似文献
569.
570.
Yongtao Li Christina L. McCarty Ed J. George 《Frontiers of Environmental Science & Engineering in China》2011,5(3):417-425
A rapid, sensitive, and cost-effective analytical method was developed for the analysis of selected semi-volatile organic
compounds in water. The method used an automated online solid-phase extraction technique coupled with programmed-temperature
vaporization large-volume injection gas chromatography/mass spectrometry. The water samples were extracted by using a fully
automated mobile rack system based on x-y-z robotic techniques using syringes and disposable 96-well extraction plates. The
method was validated for the analysis of 30 semivolatile analytes in drinking water, groundwater, and surface water. For a
sample volume of 10 mL, the linear calibrations ranged from 0.01 or 0.05 to 2.5 μg·L−1, and the method detection limits were less than 0.1 μg·L−1. For the reagent water samples fortified at 1.0 μg·L−1 and 2.0 μg·L−1, the obtained mean absolute recoveries were 70%–130% with relative standard deviations of less than 20% for most analytes.
For the drinking water, groundwater, and surface water samples fortified at 1.0 μg·L−1, the obtained mean absolute recoveries were 50%–130% with relative standard deviations of less than 20% for most analytes.
The new method demonstrated three advantages: 1) no manipulation except the fortification of surrogate standards prior to
extraction; 2) significant cost reduction associated with sample collection, shipping, storage, and preparation; and 3) reduced
exposure to hazardous solvents and other chemicals. As a result, this new automated method can be used as an effective approach
for screening and/or compliance monitoring of selected semi-volatile organic compounds in water. 相似文献