Small, Mobile, Persistent: Trifluoroacetate in the Water Cycle - Overlooked Sources, Pathways, and Consequences for Drinking Water Supply

Overview

Journal Water Res

Specialties Environmental Health
Toxicology

Date 2017 Oct 10

PMID 28992593

Citations 26

Authors

Marco Scheurer

Karsten Nodler

Finnian Freeling

Joachim Janda

Oliver Happel

Marcel Riegel

Uwe Muller

Florian Rudiger Storck

Michael Fleig

Frank Thomas Lange

Andrea Brunsch

Heinz-Jurgen Brauch

Affiliations

Soon will be listed here.

Abstract

Elevated concentrations of trifluoroacetate (TFA) of more than 100 μg/L in a major German river led to the occurrence of more than 20 μg/L TFA in bank filtration based tap waters. Several spatially resolved monitoring programs were conducted and discharges from an industrial company were identified as the point source of TFA contamination. Treatment options for TFA removal were investigated at full-scale waterworks and in laboratory batch tests. Commonly applied techniques like ozonation or granulated activated carbon filtration are inappropriate for TFA removal, whereas TFA was partly removed by ion exchange and completely retained by reverse osmosis. Further investigations identified wastewater treatment plants (WWTPs) as additional TFA dischargers into the aquatic environment. TFA was neither removed by biological wastewater treatment, nor by a retention soil filter used for the treatment of combined sewer overflows. WWTP influents can even bear a TFA formation potential, when appropriate CF-containing precursors are present. Biological degradation and ozonation batch experiments with chemicals of different classes (flurtamone, fluopyram, tembotrione, flufenacet, fluoxetine, sitagliptine and 4:2 fluorotelomer sulfonate) proved that there are yet overlooked sources and pathways of TFA, which need to be addressed in the future.

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