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Development and Application of a New Passive Sampling Device

Development and Application of a New Passive Sampling Device
Author: Lucas W. Quarles
Publisher:
Total Pages: 350
Release: 2010
Genre: Membranes (Technology)
ISBN:
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Contaminants can exist in a wide range of states in aqueous environments, especially in surface waters. They can be freely dissolved or associated with dissolved or particulate organic matter depending on their chemical and physical characteristics. The freely dissolved fraction represents the most bioavailable fraction to an organism. These freely dissolved contaminants can cross biomembranes, potentially exerting toxic effects. Passive sampling devices (PSDs) have been developed to aid in sampling many of these contaminants by having the ability to distinguish between the freely dissolved and bound fraction of a contaminant. A new PSD, the Lipid-Free Tube (LFT) sampler was developed in response to some of the shortcomings of other current PSD that sample hydrophobic organic contaminants (HOCs). The device and laboratory methods were original modeled after a widely utilized PSD, the semipermeable membrane device (SPMD), and then improved upon. The effectiveness, efficiency, and sensitivity of not only the PSD itself, but also the laboratory methods were investigated. One requirement during LFT development was to ensure LFTs could be coupled with biological analyses without deleterious results. In an embryonic zebrafish developmental toxicity assay, embryos exposed to un-fortified LFT extracts did not show significant adverse biological response as compared to controls. Also, LFT technology lends itself to easy application in monitoring pesticides at remote sampling sites. LFTs were utilized during a series of training exchanges between Oregon State University and the Centre de Recherches en Ecotoxicologie pour le Sahel (CERES)/LOCUSTOX laboratory in Dakar, Senegal that sought to build "in country" analytical capacity. Application of LFTs as biological surrogates for predicting potential human health risk endpoints, such as those in a public health assessment was also investigated. LFT mass and accumulated contaminant masses were used directly, representing the amount of contaminants an organism would be exposed to through partitioning assuming steady state without metabolism. These exposure concentrations allow for calculating potential health risks in a human health risk model. LFT prove to be a robust tool not only for assessing bioavailable water concentrations of HOCs, but also potentially providing many insights into the toxicological significance of aquatic contaminants and mixtures.

New Applications and Emerging Contaminants

New Applications and Emerging Contaminants
Author: Steven G. O'Connell
Publisher:
Total Pages: 156
Release: 2014
Genre: Environmental sampling
ISBN:
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Passive sampling is a popular technology for environmental monitoring, and silicone is an ideal choice for a variety of passive sampling applications. The silicone work described here encompasses laboratory and field studies that demonstrate the use of this polymer in novel environments, for new applications, and for emerging compounds. Unique attributes of silicone polymers make them advantageous for targeting semi-polar contaminants not typically targeted in environmental research. Oxygenated polycyclic hydrocarbons (OPAHs) represent an emerging class of contaminants with chemical properties well suited to silicone passive sampling. The first challenge was to create a robust OPAH analytical method to examine these compounds in silicone, and two independent methods (liquid as well as gas chromatography) were optimized and demonstrated for 24 ketone-containing aromatic hydrocarbons, more than other methods published at that time. An isotopically labeled OPAH was used as an internal standard in contrast to previous methods which used only labeled polycyclic aromatic hydrocarbons (PAHs). The efficacy of each method was further demonstrated by comparing standard addition to internal standard quantitation. Next, OPAHs, PAHs and pesticides were used to compare several silicone materials with low density polyethylene (LDPE) at Portland Harbor Superfund field sites. Target analyte detection, precision, and practical considerations in the field and laboratory were used to evaluate silicone materials. Individual differences between LDPE and the most optimal silicone polymer for OPAHs highlighted the importance of using optimized methods or polymer choice for a particular analyte class. Biggest differences were found for 9-fluorenone, benzanthrone, and 5,12-naphtacenequinone. After this successful polymer comparison, the next study involved a novel application of silicone wristbands as personal passive samplers. Commercially available silicone was modified to serve as personal samplers and tested in both an ambient and occupational settings. Silicone wristbands provided a valuable tool to monitor individual exposures that were time weighted averages of personalized exposure. The ambient study captured 49 individual compounds including PAHs, personal and consumer products, pesticides, phthalates, and as well as other industrial compounds. In the occupational study, roofers working with hot asphalt wore silicone samplers and evidence of both temporal (day versus week deployment, p

Development of Innovative Applications for Passive Sampling Devices

Development of Innovative Applications for Passive Sampling Devices
Author: Sarah E. Allan
Publisher:
Total Pages: 113
Release: 2011
Genre: Organic water pollutants
ISBN:
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Chemicals must be bioavailable for there to be a potential for exposure and consequent risk to human or environmental health. Passive sampling devices (PSDs) are used to quantify the time-integrated concentration of bioavailable contaminants. We demonstrate that PSDs can be paired with the zebrafish developmental toxicity bioassay to produce site-specific, temporally resolved information about the toxicity of environmental samples. Furthermore, modeling associations between the chemical components of environmental mixtures and the toxic outcomes they elicit can link bioactive compounds to biological effects. This research also shows that PSDs can be used as direct biological surrogates in a risk assessment model. We were able to determine spatial and seasonal variations in exposure and risk from the consumption of polycyclic aromatic hydrocarbons (PAH) in organisms from the Portland Harbor Superfund that were not detected in the Public Health Assessment for the area. Additionally, PSDs are a tool that we were able to rapidly deploy after the Deepwater Horizon oil spill. We quantified biologically relevant PAH contamination on a large spatial scale, over a long period of time when the chemicals of concern were present at relatively low dissolved concentrations, their impact on certain areas was sporadic and their presence and toxicological significance were not easily visualized. The research presented here can be applied to improve environmental monitoring, mixture toxicity assessment and risk assessment.

Development and Evaluation of Passive Sampling Devices to Characterize the Sources, Occurrence, and Fate of Polar Organic Contaminants in Aquatic Systems

Development and Evaluation of Passive Sampling Devices to Characterize the Sources, Occurrence, and Fate of Polar Organic Contaminants in Aquatic Systems
Author: Jonathan K. Challis
Publisher:
Total Pages: 0
Release: 2018
Genre:
ISBN:
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The primary goal of this dissertation was to develop and evaluate an improved aquatic passive sampling device (PSD) for measurement of polar organic contaminants. Chemical uptake of current polar-PSDs (e.g., POCIS - polar organic chemical integrative sampler) is dependent on the specific environmental conditions in which the sampler is deployed (flow-rate, temperature), leading to large uncertainties when applying laboratory-derived sampling rates in-situ. A novel configuration of the diffusive gradients in thin-films (DGT) passive sampler was developed to overcome these challenges. The organic-DGT (o-DGT) configuration comprised a hydrophilic-lipophilic balance® sorbent binding phase and an outer agarose diffusive gel (thickness = 0.5-1.5 mm), notably excluding a polyethersulfone protective membrane which is used with all other polar-PSDs. Sampler calibration exhibited linear uptake and sufficient capacity for 34 pharmaceuticals and pesticides over typical environmental deployment times, with measured sampling rates ranging from 9-16 mL/d. Measured and modelled diffusion coefficients (D) through the outer agarose gel provided temperature-specific estimates of o-DGT sampling rates within 20% (measured-D) and 30% (modelled-D) compared to rates determined through full-sampler calibration. Boundary layer experiments in lab and field demonstrated that inclusion of the agarose diffusive gel negated boundary layer effects, suggesting that o-DGT uptake is largely insensitive to hydrodynamic conditions. The utility of o-DGT was evaluated under a variety of field conditions and performance was assessed in comparison to POCIS and grab samples. o-DGT was effective at measuring pharmaceuticals and pesticides in raw wastewater effluents, small creeks, large fast-flowing rivers, open-water lakes, and under ice at near-zero water temperatures. Concentrations measured by o-DGT were more accurate than POCIS when compared to grab samples, likely resulting from the influence in-situ conditions have on POCIS. Modelled sampling rates were successfully used to estimate semi-quantitative water concentrations of suspect wastewater contaminants using high-resolution mass spectrometry, demonstrating the unique utility of this o-DGT technique. This dissertation establishes o-DGT as a more accurate, user-friendly, and widely applicable passive sampler compared to current-use polar-PSDs. The o-DGT tool will help facilitate more accurate and efficient monitoring efforts and ultimately lead to more appropriate exposure data and environmental risk assessment.

Development of an In-situ Passive Sampling Device for Munitions Compounds and Sulfate

Development of an In-situ Passive Sampling Device for Munitions Compounds and Sulfate
Author: Joseph K Warren
Publisher:
Total Pages:
Release: 2017
Genre: Electronic dissertations
ISBN:
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Passive sampling is a novel method of analyte concentration from the environment that strives to bring greater ease to field sampling regimes than traditional liquid-solid phase extractions (SPE). It is easier to deploy than a Niskin bottle or CTD rosette, and easier to recover than hoisting up dozens of liters of water. Passive sampling also offers the opportunity for wider exploratory studies, as compounds can be selectively extracted back in lab, rather than having to select a particular phase SPE and follow phase-specific elution methods. In this study, Ethylene Vinyl Acetate copolymer (EVA) was used as a marine sorption and collection media. Its efficacy was tested in both ambient munitions sampling for TNT and RDX, and for sulfate in porewaters. For the munitions subset of samples, the interaction between salinity, temperature, and percent acetate composition of the EVA samplers was explored. It was found that salinity had a large increase on Log KEVA from 0-5 PSU, then became nonlinear from 5-34 PSU. The initial increase was present for all EVA types, and the 5-34 PSU subset’s Log KEVA was affected in similar manner between EVA types. Increasing temperature was found to decrease munitions sorption over 5-25˚C, and it was found that EVA80 was the most efficient sorption media out of the EVA subtypes. This is likely due to dipole interactions from the increase in the polar acetate group. An EVA polymer seeded with barium containing organic compounds was tested for efficacy in sulfate precipitation to the film for use in isotopic sulfur measurements. Out of the many barium containing organic compounds selected for testing, barium oxalate was chosen for its efficiency at precipitating and trapping sulfate from the marine environment, while being able to be easily purified by an acid-catalyzed hydrolysis procedure. It was also proven that the EVA sampler does not add an isotopic bias through fractionation during precipitation to the film from the environment. Overall, it was proven that the Ethylene Vinyl Acetate copolymer is an effective passive sorption media for marine systems, for both munitions compounds and inorganic sulfate.

Development of Alternative Green Sample Preparation Techniques

Development of Alternative Green Sample Preparation Techniques
Author: Emanuela Gionfriddo
Publisher: MDPI
Total Pages: 230
Release: 2020-11-23
Genre: Science
ISBN: 3039434683
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The Special Issue of Separations, “Development of Alternative Green Sample Preparation Techniques”, provides an overview on recent trends in green sample preparation. This Special Issue of Separations collates 11 impressive contributions that describe the state-of-the-art in the development of green extraction technologies, from green materials for microextraction to the development of new sampling devices geometries for enhanced extraction efficiency and analysis throughput.

Passive Sampling Techniques in Environmental Monitoring

Passive Sampling Techniques in Environmental Monitoring
Author: Richard Greenwood
Publisher: Elsevier
Total Pages: 487
Release: 2007-07-03
Genre: Science
ISBN: 0080489508
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Monitoring pollutants in air, soil and water is a routine requirement in the workplace, and in the wider environment. Passive samplers can provide a representative picture of levels of pollutants over a period of time from days to months by measuring the average concentrations to which they have been exposed. Air monitors are widely used, for instance to measure the exposure of workers to volatile compounds, but also for monitoring the fate of pollutants in the atmosphere. Passive sampling devices are now becomining increasingly used to monitor pollutants in rivers, coastal waters and ground water where contamination results from sources such as domestic and industrial discharges, and the use of agrochemicals. Passive Sampling Techniques in Environmental Monitoring provides a timely collection of information on a set of techniques that help monitor the quality of air, surface and ground waters. Passive sampling can provide an inexpensive means of obtaining a representative picture of quality over a period of time, even where levels of pollutants fluctuate due to discontinuous discharges or seasonal application of chemicals such as pesticides. Recent changes in legislation have increased the pressure to obtain better information than that provided by classical infrequent spot sampling.Brought together in one source, this book looks at the performance of a range of devices for the passive sampling of metals, and of non-polar and polar organic chemicals in air and in water. The strengths and weaknesses and the range of applicability of the technology are considered. * Comprehensive review of passive sampling - covering air, water and majority of available technologies in one volume* Chapters written by international specialist experts * Covers theory and applications, providing background information and guidelines for use in the field

Development, Validation, Uptake Rate Modeling and Field Applications of a New Permeation Passive Sampler

Development, Validation, Uptake Rate Modeling and Field Applications of a New Permeation Passive Sampler
Author: Suresh Seethapathy
Publisher:
Total Pages: 224
Release: 2009
Genre:
ISBN:
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Passive air sampling techniques are an attractive alternative to active air sampling because of the lower costs, simple deployment and retrieval methods, minimum training requirements, no need for power sources, etc.. Because of their advantages, passive samplers are now widely used not only for water and indoor, outdoor and workplace air analysis, but also for soil-gas sampling required for various purposes, including vapor intrusion studies, contamination mapping and remediation. A simple and cost effective permeation-type passive sampler, invented in our laboratory, was further developed and validated during this project. The sampler is based on a 1.8 mL crimp-cap gas chromatography autosampler vial equipped with a polydimethylsiloxane (PDMS) membrane and filled with a carbon based adsorbent. Apart from the low material costs of the sampler and ease of fabrication, the design allows for potential automation of the extraction and chromatographic analysis for high-throughput analysis. The use of highly non-polar PDMS reduces water uptake into the sampler and reduces early adsorbent saturation. The thermodynamic properties of PDMS result in moderately low sampling rate effects with temperature variations. Further, the use of PDMS allows for easy estimation of the uptake-rates based on the physicochemical properties of the analytes such as retention indices determined using capillary columns coated with PDMS stationary phase. In the thesis, the theoretical and practical aspects of the new design with regards to uptake kinetics modeling and the dependence of the calibration constants on temperature, humidity, linear flow velocity of air across the sampler surface, sampler geometry, sampling duration, and analyte concentrations are discussed. The permeability of polydimethylsiloxane toward various analytes, as well as thermodynamic parameters such as the energy of activation of permeation through PDMS membranes was determined. Finally, many applications of the passive samplers developed in actual field locations, vital for the field validation and future regulatory acceptance are presented. The areas of application of the samplers include indoor and outdoor air monitoring, horizontal and vertical soil-gas contamination profiling and vapour intrusion studies.