Abstract
Bromide is a common ion found in freshwater and marine systems. Although normally at relatively low concentrations, higher levels may occur in point-released wastewaters as well as nonpoint runoff from agricultural or industrial locations where bromide compounds are used as biocides and disinfectants. In this study, the potential toxicity of NaBr in a saltwater environment was studied using the brine shrimp, Artemia salina. The confounding factors of organism age at test initiation and pre-test feeding were included in the test design. Survival of brine shrimp nauplii in several NaBr treatments up to 11,000 mg Br-/L (measured) was assessed after 24 h in both fed- and unfed-tests. In tests with unfed organisms, only the youngest (<24 h old) nauplii had acceptable control survival (≥90%), while control survival for all of the tests with fed organisms (<24 h old, <48 h old, <72 h old) was acceptable. There was also greater and more erratic mortality in the unfed tests. These data indicate feeding A. salina prior to initiating a short-term acute test improved performance. Not feeding the test organisms, especially in longer tests or when using >24 h old organisms, may result in excessive control mortality and an invalid test. These studies show that, when healthy organisms are used in the toxicity tests, 11,000 mg/L of Br- (~14,200 mg/L NaBr) is not acutely toxic to Artemia salina.
Highlights
Bromine (Br) compounds in the environment are typically present as bromide (Br−) and occur as various minerals, including halides, oxides, and hydroxides (Flury and Papritz 1993)
Normally at relatively low concentrations, higher levels may occur in point-released wastewaters as well as nonpoint runoff from agricultural or industrial locations where bromide compounds are used as biocides and disinfectants
Not feeding the test organisms, especially in longer tests or when using > 24 h old organisms, may result in excessive control mortality and an invalid test. These studies show that, when healthy organisms are used in the toxicity tests, 11,000 mg/L of Br− (~ 14,200 mg/L NaBr) is not acutely toxic to Artemia salina
Summary
Bromine (Br) compounds in the environment are typically present as bromide (Br−) and occur as various minerals, including halides, oxides, and hydroxides (Flury and Papritz 1993). Though a naturally-occurring ion, can occur at concentrations sufficiently high to have adverse ecological effects. It is generated, along with other ions, from several anthropogenic sources including oil and gas produced water, reject water from desalination operations, agricultural irrigation drain water, and metal and mine wastes (Pillard et al 1999). Bromide is included in several biocides for different applications. Br− can occur in combination with several different ions and appear in a variety of compounds, sodium bromide (NaBr) is the most common form, being naturally present in freshwater, seawater, and hypersaline lakes
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