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LIBRIS Formathandbok  (Information om MARC21)
FältnamnIndikatorerMetadata
00006212naa a2200997 4500
001oai:gup.ub.gu.se/215381
003SwePub
008240528s2015 | |||||||||||000 ||eng|
024a https://gup.ub.gu.se/publication/2153812 URI
024a https://doi.org/10.1016/j.scitotenv.2014.12.0572 DOI
040 a (SwePub)gu
041 a eng
042 9 SwePub
072 7a ref2 swepub-contenttype
072 7a art2 swepub-publicationtype
100a Altenburger, R.4 aut
2451 0a Future water quality monitoring - Adapting tools to deal with mixtures of pollutants in water resource management
264 1b Elsevier BV,c 2015
520 a Environmental quality monitoring of water resources is challenged with providing the basis for safeguarding the environment against adverse biological effects of anthropogenic chemical contamination from diffuse and point sources. While current regulatory efforts focus on monitoring and assessing a few legacy chemicals, many more anthropogenic chemicals can be detected simultaneously in our aquatic resources. However, exposure to chemical mixtures does not necessarily translate into adverse biological effects nor clearly shows whether mitigation measures are needed. Thus, the question which mixtures are present and which have associated combined effects becomes central for defining adequate monitoring and assessment strategies. Here we describe the vision of the international, EU-funded project SOLUTIONS, where three routes are explored to link the occurrence of chemical mixtures at specific sites to the assessment of adverse biological combination effects. First of all, multi-residue target and non-target screening techniques covering a broader range of anticipated chemicals co-occurring in the environment are being developed. By improving sensitivity and detection limits for known bioactive compounds of concern, new analytical chemistry data for multiple components can be obtained and used to characterise priority mixtures. This information on chemical occurrence will be used to predict mixture toxicity and to derive combined effect estimates suitable for advancing environmental quality standards. Secondly, bioanalytical tools will be explored to provide aggregate bioactivity measures integrating all components that produce common (adverse) outcomes even for mixtures of varying compositions. The ambition is to provide comprehensive arrays of effect-based tools and trait-based field observations that link multiple chemical exposures to various environmental protection goals more directly and to provide improved in situ observations for impact assessment of mixtures. Thirdly, effect-directed analysis (EDA) will be applied to identify major drivers of mixture toxicity. Refinements of EDA include the use of statistical approaches with monitoring information for guidance of experimental EDA studies. These three approaches will be explored using case studies at the Danube and Rhine river basins as well as rivers of the Iberian Peninsula. The synthesis of findings will be organised to provide guidance for future solution-oriented environmental monitoring and explore more systematic ways to assess mixture exposures and combination effects in future water quality monitoring. (C) 2015 Elsevier B.V. All rights reserved.
650 7a NATURVETENSKAPx Geovetenskap och miljövetenskapx Miljövetenskap0 (SwePub)105022 hsv//swe
650 7a NATURAL SCIENCESx Earth and Related Environmental Sciencesx Environmental Sciences0 (SwePub)105022 hsv//eng
653 a WFD
653 a Water quality
653 a Priority chemicals
653 a Chemical status
653 a Effect-based tools
653 a Ecological status
653 a Mixture
653 a EFFECT-DIRECTED ANALYSIS
653 a ENVIRONMENTAL RISK-ASSESSMENT
653 a TANDEM
653 a MASS-SPECTROMETRY
653 a COMMUNITY TOLERANCE PICT
653 a WASTE-WATER
653 a ESTROGENIC
653 a COMPOUNDS
653 a SURFACE WATERS
653 a CONCEPTUAL-FRAMEWORK
653 a ORGANIC-CHEMICALS
653 a ZEBRAFISH EMBRYOS
653 a Environmental Sciences
700a Ait-Aissa, S.4 aut
700a Antczak, P.4 aut
700a Backhaus, Thomas,d 1967u Gothenburg University,Göteborgs universitet,Institutionen för biologi och miljövetenskap,Department of Biological and Environmental Sciences4 aut0 (Swepub:gu)xbacth
700a Barcelo, D.4 aut
700a Seiler, T. B.4 aut
700a Brion, F.4 aut
700a Busch, W.4 aut
700a Chipman, K.4 aut
700a de Alda, M. L.4 aut
700a Umbuzeiro, G. D. A.4 aut
700a Escher, B. I.4 aut
700a Falciani, F.4 aut
700a Faust, M.4 aut
700a Focks, A.4 aut
700a Hilscherova, K.4 aut
700a Hollender, J.4 aut
700a Hollert, H.4 aut
700a Jager, F.4 aut
700a Jahnke, A.4 aut
700a Kortenkamp, A.4 aut
700a Krauss, M.4 aut
700a Lemkine, G. F.4 aut
700a Munthe, J.4 aut
700a Neumann, S.4 aut
700a Schymanski, E. L.4 aut
700a Scrimshaw, M.4 aut
700a Segner, H.4 aut
700a Slobodnik, J.4 aut
700a Smedes, F.4 aut
700a Kughathas, S.4 aut
700a Teodorovic, I.4 aut
700a Tindall, A. J.4 aut
700a Tollefsen, K. E.4 aut
700a Walz, K. H.4 aut
700a Williams, T. D.4 aut
700a Van den Brink, P. J.4 aut
700a van Gils, J.4 aut
700a Vrana, B.4 aut
700a Zhang, X. W.4 aut
700a Brack, W.4 aut
710a Göteborgs universitetb Institutionen för biologi och miljövetenskap4 org
773t Science of the Total Environmentd : Elsevier BVg 512, s. 540-551q 512<540-551x 0048-9697
856u https://www.dora.lib4ri.ch/eawag/islandora/object/eawag%3A13957/datastream/PDF2/Ait-Aissa-2015-Future_water_quality_monitoring_--%28accepted_version%29.pdf
8564 8u https://gup.ub.gu.se/publication/215381
8564 8u https://doi.org/10.1016/j.scitotenv.2014.12.057

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