In order to assess the risk posed by chlorate in aquatic ecosystems, data on the effects of chlorate on aquatic organisms (microorganisms, algae, invertebrates, and fish) and mesocosm studies have been collated and critically reviewed, The geometric mean E(L)C-50 values for both freshwater and marine species were (as ClO3-): microorganisms, 38,583 mg . liter(-1); microalgae, 563 mg . liter(-1) invertebrates, 2442 mg . liter(-1); fish, 3815 mg . liter(-1). Marine macro red algae were insensitive to chlorate, whereas marine macro brown algae (e.g., Fucus sp.) appeared to be exceptionally sensitive to chlorate, adverse long-term effects having been reported at concentrations as low as 0.015 mg ClO3- . liter(-1). Evidence for the mechanism by which chlorate is thought to be particularly toxic to these species is also reviewed, It is concluded that, based on the species reported, chlorate is nontoxic (acute toxicity >100 mg . liter(-1)) to most of the freshwater and marine species examined. However, chlorate is highly toxic (acute toxicity <0.1 mg . liter(-1)) to certain macro brown algal species. For macro brown algae, the NOEC after 6 months was reported to be approximately 0.005 mg ClO3- . liter(-1). It is also concluded that an improved understanding of the actual mode of action of chlorate in sensitive species is desirable. Together with further information on the environmental fate of chlorate, this will improve the risk assessment for chlorate in the aquatic environment. (C) 1995 Academic Press, Inc.
