Occurrence and Removal of Estrogenic Short-Chain Ethoxy Nonylphenolic Compounds and Their Halogenated Derivatives during Drinking Water Production

Abstract

The elimination of nonylphenol (NP), nonylphenol mono- and diethoxylates (NP₁EO and NP₂EO), nonylphenol carboxylates (NP₁EC and NP₂EC) and their brominated and chlorinated derivatives during drinking water treatment process in Sant Joan Despí waterworks in Barcelona was investigated utilizing a recently developed, highly sensitive LC−MS−MS method. The concentration of these potentially estrogenic compounds in raw water entering waterworks (taken from the Llobregat River, NE Spain) ranged from 8.3 to 22 μg/L, with NP₂EC being the most abundant compound. Prechlorination reduced the concentration of short-chain ethoxy NPECs and NPEOs by about 25−35% and of NP by almost 90%. However, this reduction of concentrations was partially due to their transformation to halogenated derivatives. After prechlorination, halogenated nonylphenolic compounds represented approximately 13% of the total metabolite pool, of which 97% were in the form of brominated acidic metabolites. The efficiency of further treatment steps to eliminate nonylphenolic compounds (calculated for the sum of all short-chain ethoxy metabolites including halogenated derivatives) was as follows: settling and flocculation followed by rapid sand filtration (7%), ozonation (87%), GAC filtration (73%), and final disinfection with chlorine (43%), resulting in overall elimination ranging from 96 to 99% (mean 98% for four sampling dates). A few of the nonylphenolic compounds (NP, NP₁EC, and NP₂EC) were also identified in drinking water; however, the residues detected were generally below 100 ng/L, with one exception for NP₂EC in November 2001 when a concentration of 215 ng/L was detected.