Time-Integrative Passive sampling combined with TOxicity Profiling (TIPTOP): an effect-based strategy for cost-effective chemical water quality assessment

HAMERS, Timo, Jessica LEGRADI, Nick ZWART, Foppe SMEDES, Jasperien DE WEERT, Evert-Jan VAN DEN BRANDHOF, Dik van DE MEENT a Dick DE ZWART. Time-Integrative Passive sampling combined with TOxicity Profiling (TIPTOP): an effect-based strategy for cost-effective chemical water quality assessment. ENVIRONMENTAL TOXICOLOGY AND PHARMACOLOGY. AMSTERDAM: ELSEVIER SCIENCE BV, 2018, roč. 64, December, s. 48-59. ISSN 1382-6689. Dostupné z: https://dx.doi.org/10.1016/j.etap.2018.09.005.

Základní údaje

• Originální název: Time-Integrative Passive sampling combined with TOxicity Profiling (TIPTOP): an effect-based strategy for cost-effective chemical water quality assessment
• Autoři: HAMERS, Timo (528 Nizozemské království), Jessica LEGRADI (528 Nizozemské království), Nick ZWART (528 Nizozemské království), Foppe SMEDES (528 Nizozemské království, garant, domácí), Jasperien DE WEERT (528 Nizozemské království), Evert-Jan VAN DEN BRANDHOF (528 Nizozemské království), Dik van DE MEENT (528 Nizozemské království) a Dick DE ZWART (528 Nizozemské království).
• Vydání: ENVIRONMENTAL TOXICOLOGY AND PHARMACOLOGY, AMSTERDAM, ELSEVIER SCIENCE BV, 2018, 1382-6689.

Další údaje

• Originální jazyk: angličtina
• Typ výsledku: Článek v odborném periodiku
• Obor: 10511 Environmental sciences
• Stát vydavatele: Nizozemské království
• Utajení: není předmětem státního či obchodního tajemství
• WWW: URL
• Impakt faktor: Impact factor: 3.061
• Kód RIV: RIV/00216224:14310/18:00106146
• Organizační jednotka: Přírodovědecká fakulta
• Doi: http://dx.doi.org/10.1016/j.etap.2018.09.005
• UT WoS: 000452943000006
• Klíčová slova anglicky: Speedisk; silicone rubber; in vitro bioassay; in vivo bioassay; species-sensitivity distribution (SSD); multiple substance potentially affected fraction of species (msPAF); priority compounds; River Meuse
• Příznaky: Mezinárodní význam, Recenzováno

Anotace

This study aimed at demonstrating that effect-based monitoring with passive sampling followed by toxicity profiling is more protective and cost-effective than the current chemical water quality assessment strategy consisting of compound-by-compound chemical analysis of selected substances in grab samples. Passive samplers were deployed in the Dutch river delta and in WWTP effluents. Their extracts were tested in a battery of bioassays and chemically analyzed to obtain toxicity and chemical profiles, respectively. Chemical concentrations in water were retrieved from publicly available databases. Seven different strategies were used to interpret the chemical and toxicity profiles in terms of ecological risk. They all indicated that the river sampling locations were relatively clean. Chemical-based monitoring resulted for many substances in measurements below detection limit and could only explain < 20% of the observed in vitro toxicity. Effect-based monitoring yielded more informative conclusions as it allowed for ranking the sampling sites and for estimating a margin-of-exposure towards chronic effect ranges. Effect-based monitoring was also cheaper and more cost-effective (Le. yielding more information per euro spent). Based on its identified strengths, weaknesses, opportunities, and threats (SWOT), a future strategy for effect-based monitoring has been proposed.