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Mixture toxicity is a real world problem and as such requires risk assessment solutions that can be applied within different geographic regions, across different spatial scales and in situations where the quantity of data available for the assessment varies. Moreover, the need for site specific procedures for assessing ecotoxicological risk for non-target species in non-target ecosystems also has to be recognised. The work presented in the paper addresses the real world effects of pesticide mixtures on natural communities. Initially, the location of risk hotspots is theoretically estimated through exposure modelling and the use of available toxicity data to predict potential community effects. The concept of Concentration Addition (CA) is applied to describe responses resulting from exposure of multiple pesticides The developed and refined exposure models are georeferenced (GIS-based) and include environmental and physico-chemical parameters, and site specific information on pesticide usage and land use. As a test of the risk assessment framework, the procedures have been applied on a suitable study areas, notably the River Meolo basin (Northern Italy), a catchment characterised by intensive agriculture, as well as comparative area for some assessments. Within the studied areas, the risks for individual chemicals and complex mixtures have been assessed on aquatic and terrestrial aboveground and belowground communities. Results from ecological surveys have been used to validate these risk assessment model predictions. Value and limitation of the approaches are described and the possibilities for larger scale applications in risk assessment are also discussed.  相似文献   
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Hennes EC 《Toxicology letters》2012,211(3):296-303
An overview of values for the threshold of toxicological concern (TTC) is presented. This comprises the more established TTC values, including those that have been endorsed by regulatory bodies, and those that have more recently been proposed and may still need further development. The overview is structured by use/exposure scenario and provides, in particular, key information on the underlying databases. It is aimed to support the application of the TTC approach in the risk assessment of chemicals whereby it is important to be aware under which circumstances a certain TTC value can be applied. Some recommendations for potential future developments to further improve the TTC approach are also being made.  相似文献   
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Enhanced sensitivity of analytical chemistry methods has enabled the detection of low-levels of pharmaceuticals in the environment, resulting in questions about the safety of surface waters used for drinking supplies. Human health risk assessments were performed to evaluate the risks from residues of atomoxetine, duloxetine, and olanzapine, which might be found in surface waters. Preclinical safety studies and human clinical data were used to determine an acceptable daily intake (ADI) for each compound: atomoxetine, 1.4 microg/kg/day; duloxetine, 1.8 microg/kg/day; and olanzapine, 1.4 microg/kg/day. The calculated predicted no-effect concentrations (PNECs) for children were 25.7, 19.1, and 35.9 microg/L for atomoxetine, duloxetine, and olanzapine, respectively. Estimated exposure concentrations determined using United States Food and Drug Administration guidelines and predicted exposure concentrations from the PhATE model were compared with each PNEC to determine margins of safety, which ranged from 147 to 642. Based on currently available data used in this assessment, no appreciable human health risks exist from exposure to the highest 99th percentile of predicted residue levels of atomoxetine, duloxetine or olanzapine in surface waters under low-flow conditions.  相似文献   
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Antibiotics represent one of the most important drug groups used in the management of bacterial infections in humans and animals. Due to the increasing problem of antibiotic resistance, assurance of the antibacterial effectiveness of these substances has moved into the focus of public health. The reduction in antibiotic residues in wastewater and the environment may play a decisive role in the development of increasing rates of antibiotic resistance. The present study examines the wastewater of 31 patient rooms of various German clinics for possible residues of antibiotics, as well as the wastewater of five private households as a reference.To the best of our knowledge, this study shows for the first time that in hospitals with high antibiotic consumption rates, residues of these drugs can be regularly detected in toilets, sink siphons and shower drains at concentrations ranging from 0.02?μg·L?1 to a maximum of 79?mg·L?1. After complete flushing of the wastewater siphons, antibiotics are no longer detectable, but after temporal stagnation, the concentration of the active substances in the water phases of respective siphons increases again, suggesting that antibiotics persist through the washing process in biofilms. This study demonstrates that clinical wastewater systems offer further possibilities for the optimization of antibiotic resistance surveillance.  相似文献   
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