Development of freshwater water‐quality criteria for perchlorate

The anion perchlorate (ClO4−) is an oxidizing component commonly used in solid propellants for rockets and missiles; in explosives, flares, fireworks, chemical processes, and automobile air‐bag inflators; and for other assorted uses. With recent advances in analytical detection capability, perchlorate has been found in a variety of ground and surface waters throughout the United States. Because perchlorate has been associated with thyroid problems in humans and may have similar effects on wildlife, it is desirable to develop a water‐quality criterion to assist in identifying concentrations of perchlorate in water likely to pose an ecological health risk. In the present study, we compiled all available data regarding the effects of perchlorate to aquatic organisms, and we performed additional toxicity and bioconcentration tests as required by the U.S. Environmental Protection Agency (U.S. EPA) for the development of water‐quality criteria for aquatic life. A criterion maximum concentration of 20 mg/L and a criterion continuous concentration of 9.3 mg/L were calculated based on the test results. Although these are not formal Clean Water Act Section 304(a) criteria, which must be published by the U.S. EPA, these criteria may be useful in the determination of remedial action levels for contaminated sites, for National Pollutant Discharge Elimination System permit limits, and other water‐quality management practices.

[1]  Takashi Kitamura,et al.  Science and technology , 2020, United Nations Statistical Yearbook (Ser. S).

[2]  Richard C Pleus,et al.  Health effects assessment for environmental perchlorate contamination: the dose response for inhibition of thyroidal radioiodine uptake in humans. , 2002, Environmental health perspectives.

[3]  T. Anderson,et al.  Environmentally relevant concentrations of ammonium perchlorate inhibit development and metamorphosis in Xenopus laevis , 2002, Environmental toxicology and chemistry.

[4]  T. Anderson,et al.  Preliminary Assessment of Perchlorate in Ecological Receptors at the Longhorn Army Ammunition Plant (LHAAP), Karnack, Texas , 2001, Ecotoxicology.

[5]  L. Braverman,et al.  Low dose perchlorate (3 mg daily) and thyroid function. , 2001, Thyroid : official journal of the American Thyroid Association.

[6]  M. B. Brown,et al.  Ammonium perchlorate contamination of Colorado River drinking water is associated with abnormal thyroid function in newborns in Arizona. , 2000, Journal of occupational and environmental medicine.

[7]  L. Braverman,et al.  The effect of short-term low-dose perchlorate on various aspects of thyroid function. , 2000, Thyroid : official journal of the American Thyroid Association.

[8]  Rebecca A. Efroymson,et al.  Ecological Risk Assessment for Contaminated Sites , 2000 .

[9]  J. Holmes,et al.  Spontaneous and induced metamorphosis in the American brook lamprey, Lampetra appendix , 1999 .

[10]  R. Manzon,et al.  Study of the relationship between thyroid hormones and lipid metabolism during KClO4-induced metamorphosis of landlocked lamprey, Petromyzon marinus. , 1999, Comparative biochemistry and physiology. Part C, Pharmacology, toxicology & endocrinology.

[11]  Edward T. Urbansky,et al.  Perchlorate Chemistry: Implications for Analysis and Remediation , 1998 .

[12]  E. Kinkead,et al.  Developmental Toxicity Screen of Ammonium Perchlorate Using Hydra attenuata. , 1996 .

[13]  Ronald J. Kendall,et al.  Principles and processes for evaluating endocrine disruption in wildlife , 1996 .

[14]  L. Miranda,et al.  Immunocytochemical and morphometric study of TSH, PRL, GH, and ACTH cells in Bufo arenarum larvae with inhibited thyroid function. , 1995, General and comparative endocrinology.

[15]  L. Henzen,et al.  A comparison of plant toxicities of some industrial chemicals in soil culture and soilless culture. , 1989, Ecotoxicology and environmental safety.

[16]  Gerald T. Ankley,et al.  Methods for measuring the toxicity and bioaccumulation of sediment-associated contaminants with freshwater invertebrates , 1994 .

[17]  A. Yamada,et al.  OECD Guidelines for Testing of Chemicals , 1982 .