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LIBRIS Formathandbok  (Information om MARC21)
FältnamnIndikatorerMetadata
00005705naa a2200769 4500
001oai:gup.ub.gu.se/278469
003SwePub
008240528s2019 | |||||||||||000 ||eng|
024a https://gup.ub.gu.se/publication/2784692 URI
024a https://doi.org/10.1186/s12302-019-0193-12 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: improving the balance between exposure and toxicity assessments of real-world pollutant mixtures
264 c 2019-02-19
264 1b Springer Science and Business Media LLC,c 2019
520 a Environmental water quality monitoring aims to provide the data required for safeguarding the environment against adverse biological effects from multiple chemical contamination arising from anthropogenic diffuse emissions and point sources. Here, we integrate the experience of the international EU-funded project SOLUTIONS to shift the focus of water monitoring from a few legacy chemicals to complex chemical mixtures, and to identify relevant drivers of toxic effects. Monitoring serves a range of purposes, from control of chemical and ecological status compliance to safeguarding specific water uses, such as drinking water abstraction. Various water sampling techniques, chemical target, suspect and non-target analyses as well as an array of in vitro, in vivo and in situ bioanalytical methods were advanced to improve monitoring of water contamination. Major improvements for broader applicability include tailored sampling techniques, screening and identification techniques for a broader and more diverse set of chemicals, higher detection sensitivity, standardized protocols for chemical, toxicological, and ecological assessments combined with systematic evidence evaluation techniques. No single method or combination of methods is able to meet all divergent monitoring purposes. Current monitoring approaches tend to emphasize either targeted exposure or effect detection. Here, we argue that, irrespective of the specific purpose, assessment of monitoring results would benefit substantially from obtaining and linking information on the occurrence of both chemicals and potentially adverse biological effects. In this paper, we specify the information required to: (1) identify relevant contaminants, (2) assess the impact of contamination in aquatic ecosystems, or (3) quantify cause-effect relationships between contaminants and adverse effects. Specific strategies to link chemical and bioanalytical information are outlined for each of these distinct goals. These strategies have been developed and explored using case studies in the Danube and Rhine river basins as well as for rivers of the Iberian Peninsula. Current water quality assessment suffers from biases resulting from differences in approaches and associated uncertainty analyses. While exposure approaches tend to ignore data gaps (i.e., missing contaminants), effect-based approaches penalize data gaps with increased uncertainty factors. This integrated work suggests systematic ways to deal with mixture exposures and combined effects in a more balanced way, and thus provides guidance for future tailored environmental monitoring.
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
650 7a NATURVETENSKAPx Geovetenskap och miljövetenskapx Oceanografi, hydrologi och vattenresurser0 (SwePub)105092 hsv//swe
650 7a NATURAL SCIENCESx Earth and Related Environmental Sciencesx Oceanography, Hydrology and Water Resources0 (SwePub)105092 hsv//eng
653 a Water monitoring
653 a Mixture toxicity
653 a Water framework directive
653 a Bioanalysis
653 a Ecological assessment
653 a solid-phase extraction
653 a directed analysis eda
653 a waste-water
653 a risk-assessment
653 a in-vitro
653 a organic micropollutants
653 a chemical-analysis
653 a aromatic-amines
653 a surface waters
653 a samples
700a Brack, W.4 aut
700a Burgess, R. M.4 aut
700a Busch, W.4 aut
700a Escher, B. I.4 aut
700a Focks, A.4 aut
700a Hewitt, L. M.4 aut
700a Jacobsen, B. N.4 aut
700a de Alda, M. L.4 aut
700a Ait-Aissa, S.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 Ginebreda, A.4 aut
700a Hilscherova, K.4 aut
700a Hollender, J.4 aut
700a Hollert, H.4 aut
700a Neale, P. A.4 aut
700a Schulze, T.4 aut
700a Schymanski, E. L.4 aut
700a Teodorovic, I.4 aut
700a Tindall, A. J.4 aut
700a Umbuzeiro, G. D.4 aut
700a Vrana, B.4 aut
700a Zonja, B.4 aut
700a Krauss, M.4 aut
710a Göteborgs universitetb Institutionen för biologi och miljövetenskap4 org
773t Environmental Sciences Europed : Springer Science and Business Media LLCg 31q 31x 2190-4715x 2190-4707
856u https://enveurope.springeropen.com/track/pdf/10.1186/s12302-019-0193-1
8564 8u https://gup.ub.gu.se/publication/278469
8564 8u https://doi.org/10.1186/s12302-019-0193-1

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