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Short‐Term Guideline Values for Chlorine in Marine Waters
Author(s) -
Batley Graeme E.,
Simpson Stuart L.
Publication year - 2020
Publication title -
environmental toxicology and chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.1
H-Index - 171
eISSN - 1552-8618
pISSN - 0730-7268
DOI - 10.1002/etc.4661
Subject(s) - guideline , seawater , environmental chemistry , chlorine , acute toxicity , environmental science , toxicity , chemistry , toxicology , biology , ecology , organic chemistry , medicine , pathology
Abstract Chlorination is commonly used to control biofouling organisms, but chlorine rapidly hydrolyzes in seawater to hypochlorite, which undergoes further reaction with bromide, and then with organic matter. These reaction products, collectively termed chlorine‐produced oxidants (CPOs), can be toxic to marine biota. Because the lifetime of the most toxic forms is limited to several days, appropriate guideline values need to be based on short‐term (acute) toxicity tests, rather than chronic tests. Flow‐through toxicity tests that provide continuous CPO exposure are the most appropriate, whereas static‐renewal tests generate variable exposure and effects depending on the renewal rate. There are literature data for acute CPO toxicity from flow‐through tests, together with values from 2 sensitive 15‐min static tests on 30 species from 9 taxonomic groups. These values were used in a species sensitivity distribution (SSD) to derive guideline values that were protective of 99, 95, and 90% of species at 2.2, 7.2, and 13 µg CPO/L respectively. These are the first marine guideline values for chlorine to be derived using SSDs, with all other international guideline values based on the use of assessment factors applied to data for the most sensitive species. In applying these conservative guideline values in field situations, it would need to be demonstrated that concentrations of CPOs would be reduced to below the guideline value within an acceptable mixing zone through both dilution and dissociation. Environ Toxicol Chem 2020;39:754–764. © 2020 SETAC

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