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OCCURRENCE OF IODO-ACID AND IODO-THM DISINFECTION BY-PRODUCTS IN DRINKING WATER
Citation:
RICHARDSON, S. D., J. J. ELLINGTON, F. G. CRUMLEY, J. J. EVANS, E. D. BLOUNT, L. K. SILVA, F. L. CARDINALI, M. J. PLEWA, AND E. D. WAGNER. OCCURRENCE OF IODO-ACID AND IODO-THM DISINFECTION BY-PRODUCTS IN DRINKING WATER. Presented at 34th International Symposium on Environmental Analytical Chemistry, Hamburg, GERMANY, June 04 - 08, 2006.
Impact/Purpose:
(1) Use a toxicity-based approach to prioritize and identify DBPs that show the greatest toxic response. (2) Comprehensively identify DBPs formed by different disinfectant regimes for the 'Four Lab Study'. (3) Determine the mechanisms of formation for potentially hazardous bromonitromethane DBPs.
Description:
As part of a recent Nationwide Disinfection By-product (DBP) Occurrence Study, iodo-acids were identified for the first time as DBPs in drinking water disinfected with chloramines. The iodo-acids identified included iodoacetic acid, bromoiodoacetic acid, (E)-3-bromo-3-iodo- propenoic acid, (Z)-3-bromo-3-iodo-propenoic acid, and (E)-2-iodo-3-methylbutenedioic acid. There is concern about these new iodo-acid DBPs because mammalian cell cytotoxicity and genotoxicity studies have revealed that iodoacetic acid is highly cytotoxic and genotoxic, with a genotoxicity potency 2X higher than bromoacetic acid, the most genotoxic of the regulated haloacetic acids. Also, many drinking water treatment plants in the United States have switched from chlorine to chloramines for treatment. New evidence indicates that the formation of iodinated DBPs will be higher in chloraminated drinking water than in chlorinated drinking water. The goal of this work was to develop an analytical method to quantify these five iodo- acids in drinking water and measure their occurrence in drinking waters treated with chloramination. Two iodinated trihalomethanes(iodo-THMs), dichloroiodomethane and bromochloroiodomethane, were also measured in these waters. These iodo-THMs were the most commonly found iodo-THMs in the previous Nationwide DBP Occurrence Study. An analytical method similar to EPA Method 552.3 (developed for chlorinated and brominated acetic acids) was developed to extract and quantify iodo-acid concentrations in drinking water samples. Gas chromatography/mass spectrometry (GC/MS) with negative chemical ionization (NCI)-MS offered low detection limits (low and sub-ngL). Iodo-THMs were extracted using solid phase microextraction (SPME) and were analyzed using GC with high resolution electron ionization (EI)-MS and stable isotope dilution (deuterated standards of each analyte). Two samplings have been conducted to-date on drinking water plants using chloramination for disinfection. The first sampling took place in May 2005 (of five plants), and the second sampling took place in the fall of 2005 (21 plants). Iodoacetic acid and bromoiodoacetic acid were found in most of the plants sampled, at sub-ppb to low-ppb levels. (E)-2-iodo-3- methylbutenedioic acid was also found in many of the plants, and (E)-3-bromo-3-iodo-propenoic acid and (Z)-3-bromo-3-iodo-propenoic acid were found in a few of the plants sampled at sub-ppb levels. The two iodo-THMs sampled, dichloroiodomethane and bromochloroiodomethane, were found at all plants sampled, at low ppb or sub-ppb levels (with a high of 10.2 ppb for bromochloroiodomethane).