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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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Contaminant dietary exposure assessment for a coastal subpopulation in Queensland, AustraliaVeronica Matthews Unknown Date (has links)
Polychlorinated-p-dibenzo dioxins (PCDDs), polychlorinated dibenzofurans (PCDFs) (collectively termed ‘dioxins’) and polychlorinated biphenyls (PCBs) are three groups of persistent organic pollutants (POPs) ubiquitous in the environment due to their emission from numerous sources, high persistency and a propensity to be transported long distances. These compounds bioaccumulate in animal tissue, biomagnify through the food web and are toxic to humans and wildlife at relatively low concentrations. Humans may be exposed to POPs via ingestion, inhalation and dermal absorption, however, for the general population, approximately 90% of the total exposure occurs through intake of contaminated food particularly from lipid rich products, including seafood. An Australian national study highlighted that, similar to many other countries, seafood contributes a major proportion to dioxin and PCB exposure of Australians. As typical for national studies, the exposure assessment utilised contaminant concentrations in retail (sea)food and consumption information based on national dietary surveys. The risk assessment showed that the Australian population on the whole has a very low risk of exposure to dioxins through food. However, more than 80% of the Australian population lives within 50 km of the coast, where recreational, cultural and/or subsistence fishing of local seafood is prominent, potentially from areas with elevated PCDD/F and PCB concentrations. Through analysis of local seafood contamination and community seafood consumption patterns, this study assessed PCDD/F and PCB exposure for a coastal subpopulation in Moreton Bay, Queensland who consume locally caught seafood from an area with elevated PCDD/F and PCB concentrations but relatively low (background) toxic equivalency (TEQDP) in sediments, which is typical for Australian nearshore marine systems. Despite low sediment TEQDP levels, due to the dominance of octachlorodibenzo-p-dioxin (which is considered less potent compared to the most toxic 2,3,7,8-tetrachlorodibenzo-p-dioxin), elevated TEQDP concentrations were present in local seafood. In particular higher trophic fish species and some traditional seafood were found to contain TEQDP above current EU action and maximum limits. This highlights the efficiency of species specific contaminant uptake, bioaccumulation and biomagnification processes, which can result in accumulation of higher toxic dioxin and PCB congeners in biota. In contrast, concentrations of most organochlorine pesticides and flame retardants (polybrominated diphenylehters (PBDEs)) were relatively low in seafood from Moreton Bay. For fish, uptake of highly lipophilic contaminants, such as PCDD/Fs and PCBs occurs predominantly via food (biomagnification) and respiratory processes (bioconcentration) followed by selective accumulation of the more toxic, lower chlorinated 2,3,7,8 PCDD/F congeners. This study discovered that physical contact with sediment and dermal absorption of lipophilic contaminants also represents an important exposure pathway for sediment dwelling fish, resulting in higher lipid normalised PCDD/F, PCB and TEQ levels (up to 8, 5 and 3 fold) in skin compared to muscle tissue. PCDD/F and PCB congener profiles differed between muscle and skin suggesting biomagnification and skin absorption as the respective predominant uptake pathways for these tissues. Dermal uptake was estimated to contribute up to 46% to the total TEQDP load on a lipid basis in sediment dwelling fish species, thus representing an important exposure pathway, and extending the bioavailability of sediment-sorbed pollutants to the food web. Accurate determinations of lipid content and lipid TEQDP contamination within seafood samples are critical to human exposure assessments. To ensure quality assurance, different seafood extraction methods were tested to evaluate their impact on lipid yields and contaminant concentration. While levels of PCDD/Fs and PCBs on a lipid basis did not vary across the different methods employed in this study, sample preparation is a significant determinant of lipid yield from fattier fish species. If samples were freeze dried prior to extraction, 30% higher TEQDP values (on a wet weight basis) were obtained as compared to extraction using fresh sample material. Such variance in lipid results will have a significant impact on exposure assessments and should be taken into consideration during seafood contaminant analysis. The median TEQDP concentration from local seafood was approximately 25 fold higher compared to the retail seafood analysed for the national Australian risk assessment. The seafood consumption survey results from this study further indicate that coastal subpopulations consume considerably more seafood than the general population (2 to 6 times more in the present case study). This proved to be an important driver for contaminant exposure in this subpopulation. The average monthly dioxin intake for the coastal community ranged between 34 (best case) to 107 (worst case) pg TEQ kg bw-1 month1, (95th percentile: 114 - 362 pg TEQ kg bw-1 month1), an order of magnitude higher than that estimated for the general population. The contaminant exposure via the local seafood consumption pathway alone exceeded WHO tolerable daily intake levels in 11-44% of the population. These results have important implications with respect to adequate contaminant exposure assessments of Australian and other coastal subpopulations. The study outcomes highlight the importance of considering local conditions and information on contaminant fate processes for human exposure evaluations. Local seafood consumption in coastal communities can result in high exposure to PCDD/F and PCBs, even in background contamination areas. This information would be important to consider for developing future sediment quality guidelines and with respect to exposure and associated risks for coastal communities in general.
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Characterisation and Environmental Risk Assessment of Metals and Metalloids Related to Mining Activities at Wainivesi,FijiRaijieli Taga Unknown Date (has links)
No description available.
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