Spelling suggestions: "subject:"brominated diphenyl ethers""
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Dietary intake patterns and relationships to polybrominated diphenyl ether (PBDE) and phthalate body burden.Colacino, Justin. Schecter, Arnold, Harris, T. Robert January 2009 (has links)
Source: Masters Abstracts International, Volume: 47-06, page: 3476. Adviser: Arnold J. Schecter. Includes bibliographical references.
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Polybrominated Diphenyl Ethers in Sediments within the Hillsborough Bay WatershedSimmons, Candice 01 January 2013 (has links)
Polybrominated diphenyl ethers (PBDEs) are a widely used class of flame retardants that are important sources for contamination in the marine environment. Sediments serve as a large reservoir for PBDEs due to their large sorption capacity. This research assessed the presence and distribution of PBDEs in Hillsborough Bay, a subdivision of Tampa Bay, FL, by determining levels in surface sediment samples, creating a historical profile of the contaminant in a sediment core taken from within the bay, and investigating sediment characteristics that control their distribution. Compositional patterns and temporal distributions of 8 of the 209 congeners of PBDEs (BDE-28, -47, -99, -100, -153, -154, -183 and 209) were determined in sediment surface samples and a sediment core collected throughout the study area. Contaminant concentrations varied spatially due to proximity to sources and the spatial variability of physical processes that suspend or remove contaminants from the water column. Concentrations in the bay also varied in time with factors such as wind, precipitation, and subsequent freshwater runoff. PBDE contamination in surficial sediments from various regions of Tampa Bay is not well correlated with sediment grain size or organic matter content, but these factors may be more important in suspended sediments which may control the fate of these contaminants in the bay. The results from this investigation can be used in understanding the extent of PBDE pollution, identifying sources, as well as implementing management strategies for Hillsborough Bay.
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Determination of brominated flame retardants in Jukskei river and the identification of potential pollution sources.Olukunle, O. I. January 2012 (has links)
Thesis (MTech. degree: Environmental Management.)--Tshwane University of Technology, 2012. / Determines the presence and levels of common brominated flame retardants (BFRs) in surface water and sediments in Jukskei River catchments with the aim of identifying potential pollution sources using Geographical Information System (GIS) land use map in order to provide baseline data required to protect water resources against such hazardous chemicals.
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Brominated flame retardant concentrations in office and household dust in South AfricaKefeni, Kebede Keterew. January 2012 (has links)
Thesis (DTech. degree: Environmental Management)--Tshwane University of Technology, 2012. / Discusses polybromobiphenyls (PBBs) and polybromodiphenyl ethers (PBDEs) are among brominated flame retardants commonly used as additive flame retardants and are now well-known pollutants. They can easily be released from household and office materials if present and tend to settle on dust. Of all the PBDEs congeners, the detection of BDE-209 is considerably more difficult than the lower congeners. Furthermore, there is no available data on the presence of PBBs and PBDEs in indoor dust in South Africa, and, therefore, it was deemed necessary to conduct the present study.
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Receiving environment shapes transport and bioaccumulation of polybrominated diphenyl ethers near two submarine municipal outfallsDinn, Pamela 02 December 2011 (has links)
The fate and bioaccumulation of a contaminant entering the marine environment through wastewater outfalls depends on the contaminant’s persistence and affinity for particles. The physical characteristics of the receiving environment, e.g. current velocity, sedimentary processes, and the availability of organic carbon are also important. However, these latter effects are not usually evaluated quantitatively. This thesis investigates the near-field accumulation in sediment and biota of particle-reactive polybrominated diphenyl ethers (PBDEs) entering coastal waters via two municipal outfalls: one discharging into a high energy, low sedimentation environment near Victoria, B.C., Canada; the other into a low energy, high sedimentation environment near Vancouver, B.C. We used 210Pb profiles in sediment box cores together with an advection-diffusion model to determine surface mixing and sedimentation rates, and to model the depositional history of PBDEs at these sites. A particularly important finding of this study is that the very high energy environment to the southeast of the Victoria outfall accumulates PBDEs despite not having net sediment accumulation. Although the discharge of PBDEs was much lower from the Victoria outfall than from Vancouver, some sediment PBDE concentrations were higher near Victoria. Most PBDEs were dispersed beyond the near-field at both sites, but a greater proportion was captured in the sediment near the Vancouver outfall where rapid burial was facilitated by inorganic sediment supplied from the nearby Fraser River. Clearly, treating wastewater to the same level, regardless of local oceanographic conditions, will not result in a uniform environmental footprint. Total PBDE concentrations in benthic invertebrate communities were higher near Vancouver than Victoria, despite lower concentrations in sediments, and correlated with organic carbon normalized sediment concentrations. Principal Components Analysis suggested uptake of individual PBDE congeners was determined by sediment properties (TOC, grain size), whereas PCB congener uptake was governed by physico-chemical properties (octanol-water partitioning coefficient). Our results suggest that sediment quality guidelines for PBDEs and likely PCBs may be more relevant if corrected to TOC content in sediment. In addition, where enhanced wastewater treatment increases the ratio of PBDEs to particulate organic carbon in effluent, nearfield benthic invertebrates may face increased PBDE accumulation. This underlines the need for source control of persistent organic contaminants, which cannot be broken down by conventional wastewater treatment. / Graduate
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Brominated flame retardants - sources and exposure pathwaysLeisa-Maree LeontjewToms Unknown Date (has links)
Summary Polybrominated diphenyl ethers (PBDEs) are a class of brominated flame retardants. The addition of these chemicals to electrical and electronic equipment, building materials, carpet and textiles reduces flammability and therefore harm and destruction caused by unwanted fire. These chemicals are now internationally ubiquitous in the environment and humans because of their increased usage and physical and chemical properties of persistence and lipophilicity. Although Australian data on both the concentrations and the sources and exposure pathways was limited, a preliminary study of PBDEs in 10 pools of human blood serum revealed that concentrations of PBDEs in Australia were comparatively higher than most countries with the exception of Canada and the USA. The aim of this project was to determine the concentrations of PBDEs in the Australian population and to examine the possible sources and pathways of exposure in humans. Experimental evaluation of PBDE exposure matrices included samples of: sediment (n=46), air (n=19), dust (n=19), surface wipes (n=10) and human milk (157 samples combined into 17 pools, n=10 individual samples); and the general population using human blood serum (10552 samples combined into 169 pools). With accumulating evidence regarding age differences in PBDE concentrations, the scope of this project was broadened to include a focus on infants and young children. This study found that PBDE contamination was widespread in the Australian environment and human population. In sediment, PBDEs were relatively low at the majority of sites with mean ± standard deviation and median ΣPBDE concentrations across all sites of 4707 ± 12580 and 305 pg g-1 dw, respectively. There were elevated concentrations found downstream of sewerage treatment plants; in areas dominated by industrial and urban land-use types; and in estuarine compared to freshwater environments. PBDEs were detected in air, dust and surface wipes. Concentrations on the whole were found to be higher indoors compared to outdoors and in offices compared to homes. ΣPBDE concentrations ranged from 0.5 -179 pg/m3 for homes and 15 - 487 pg/m3 for offices and at the two outdoor sites the concentrations were 1.7 and 6.8 pg/m3. PBDEs were detected on 9 out of 10 surfaces (e.g. television, refrigerator, DVD player) sampled and ranged from non-detectable to 5985 pg/cm2 while in dust, ΣPBDEs ranged from 87 - 733 ng/g dust in homes and 583 - 3070 ng/g dust in offices. PBDEs were detected in all individual and pooled samples of human milk and blood serum and the ΣPBDE and BDE-47 concentrations ranged from 5.5 to 103 and 0.6 to 55 ng/g lipid, respectively. There were no regional differences in concentrations in human milk or blood serum and in general PBDE concentrations were higher in males than in females. Although no temporal trend was apparent in samples of human milk or blood serum collected between 2002 and 2008, the ban on penta- and octa-BDE commercial products in several countries has only been in place since 2004. Hence, effects of the ban may not be reflected in human body burden for several years. The concentrations of PBDEs were found to be highest in young children aged 2 – 5 years of age where concentrations were up to 10 times greater than those detected in adults. Congener profiles for sediment, air, dust and surface wipes were mostly dominated by BDE-209. In human milk and serum, BDE-47 was dominant while BDE-209 contributed only 3% in human milk and was not determined in serum. Concentrations of PBDEs found in Australian human and environmental samples were lower than those reported from North America but higher than those reported from Europe and Asia. The results of modeling and the assessment of matched samples of human milk, indoor air and dust showed that body burden could be partly explained by exposure via food, air, dust and human milk as well as clearance (half-life) data. However, the higher than expected concentrations in young children indicated that there are likely to be missing sources and exposure pathways and/ or the clearance data is inaccurate. The results of this thesis provide baseline data on PBDE concentrations in Australia and will prove important for long term monitoring of the effect of changes in usage rates of these chemicals. It is important to understand the specific sources and exposure pathways of PBDEs in infants and young children in order to identify intervention methods whereby exposure to this vulnerable population can be reduced. In terms of the future use of PBDEs or other flame retardant chemicals, it is important that the risk-benefit ratio is regulated so that the minimization of human exposure and potential associated negative health effects is balanced with the reduction of harm caused by fire.
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Neonatal exposure to highly brominated diphenyl ethers and perfluorinated compounds developmental dependent toxicity and interaction /Johansson, Niclas. January 1900 (has links)
Thesis (Ph.D.)--Uppsala Universitet, 2009. / This website links to the complete document in PDF format. Title from title screen (viewed on November 21, 2009). Includes bibliographical references.
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Alterações mitocondriais induzidas por representantes das principais classes de Éteres Difenílicos Polibromados / Mitochondrial alterations induced by representatives main of the classes of poly-brominated diphenyls ethers (PBDEs)Lílian Cristina Pereira 26 April 2012 (has links)
Os retardantes de chama bromados são substâncias utilizadas nos mais variados bens de consumo para aumentar sua resistência ao fogo e/ou altas temperaturas em casos de incêndio, aumentando assim, as chances de escape e reduzindo a gravidade das queimaduras. Para este fim os éteres difenílicos polibromados (PBDEs) representam a classe mais utilizada tendo em vista sua eficiência no controle da propagação da chama e seu baixo custo. Estes compostos se incluem entre os recentemente denominados contaminantes ambientais emergentes que apresentam uma carência de dados toxicológicos, principalmente em relação aos efeitos danosos e aos biomarcadores de exposição, além do potencial dano ao ambiente, sendo esta uma preocupação recente da comunidade científica. Pelo fato da mitocôndria ser reconhecida como a principal organela produtora de energia celular, além de exercer um papel fundamental na manutenção de inúmeras funções celulares, ela foi utilizada como modelo experimental para avaliar os efeitos dos congêneres de BDE- 100; -153; -154 e -209 na faixa de concentração de 0,1 ?mol/L a 50 ?mol/L. Nossos resultados mostram que os efeitos em mitocôndrias isoladas podem ocorrer em menores concentrações para os congêneres BDE-153; -154 (Hexa-BDE) e -209 (Deca-BDE) e em maiores concentrações para o BDE-100 (Penta-BDE). Desta forma, foi observado que os compostos possuem capacidade de interagir com membrana mitocondrial, induzir inchamento mitocondrial, desregular a homeostase cálcica e dissipar o potencial de membrana mitocondrial em concentrações diferentes, entretanto não são capazes de induzir estresse oxidativo na mitocôndria. Assim, os resultados indicam que a ação dos PBDEs sobre mitocôndrias pode ser um dos mecanismos de toxicidade desta classe de compostos. / The brominated flame retardants are substances used in various consumer goods to increase their fire resistance and / or higher temperatures in case of fire, thus increasing the chances of escape and reducing the severity of burns. To this end polybrominated diphenyls ethers (PBDEs) are the most used class in view of its efficiency in controlling the spread of flame and its low cost. These compounds are among the newly emerging environmental contaminants known to exhibit a lack of toxicological data, especially regarding the harmful effects and biomarkers of exposure and potential harm to the environment, which is a recent concern of the scientific community. Because the mitochondrion is recognized as the main energy-producing cell organelles, as well as play a vital role in the maintenance of many cellular functions, it was used as an experimental model to evaluate the effects of the congeners BDE-100 (Penta- BDE), -153, -154 (Hexa-BDE) and -209 (Deca-BDE), in concentration range ranging from 0.1 ?mol/L to 50 ?mol/L. The results show that the effects on isolated mitochondria may occur at lower concentrations for the BDE-153, -154 and -209 and high concentrations to the BDE-100. Thus, it was observed that the compounds have the ability to interact with mitochondrial membrane, inducing swelling, dysregulation of calcium homeostasis and dissipation of membrane potential at different concentrations, however they cannot change factors related to oxidative stress in mitochondria. Furthermore, the induction of mitochondrial swelling, and added significant depletion of ATP levels may contribute to the toxic effects observed. Thus, we conclude that the action of PBDESS on mitochondria is one of the mechanisms of toxicity of this class of compounds.
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GC/ion trap MS method development and applications for the analysis of polybrominated diphenyl ethers in environmental and biota samplesLuo, Qian 01 January 2008 (has links)
No description available.
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Development and application of liquid chromatography mass spectrometry methods for the analysis and toxicity study of polybrominated diphenyl ether metabolitesLai, Yongquan 01 January 2012 (has links)
No description available.
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