Abstract
Acute and chronic toxicities of arsenic (III) (As) to four species of freshwater organisms were determined. All tests were flow-through exposures except the daphnid (Daphnia magna) tests which were static concentration renewal exposures. Acute exposures of fathead minnows (Pimephales promelas), flagfish (Jordanella floridae), and an amphipod (Gammarus pseudolimnaeus) to As resulted in 96-hr LC50 or EC50 estimates of 14,100, 14,400, and 874 μg/L, respectively. Daphnids were exposed to As with and without food resulting in 96-hr EC50 estimates of 4,340 and 1,500 μg/L, respectively. Chronic exposures of 28 to 31 days duration were made for fathead minnows, flagfish, and daphnids. The chronic limit ranges (highest tested exposure concentration having no adverse effect and the lowest tested exposure concentration having an adverse effect) based upon the most sensitive measured parameters of body length and wet weight were 2,130 to 4,300 μg/L for fathead minnows and 2,130 to 4,120 μg/L for flagfish. Daphnids had chronic limits of 633 to 1,320 μg/L based upon survival and the measured parameters of reproduction and body length. Calculation of an acute test/chronic test ratio for fathead minnows, flagfish, and daphnids (fed and unfed) resulted in a range of values from 1.64 to 4.80.
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References
Abdelghani AA, Anderson AC, McDonell DB (1980) Toxicity of three arsenical compounds. Can Res 13:31–32
Adema DMM (1978)Daphnia magna as a test animal in acute and chronic toxicity tests. Hydrobiol 59:125–134
American Public Health Association (1980) Standard methods for the examination of water and wastewater, 15th edn. APHA Washington, DC, 1134 pp
American Society for Testing and Materials (ASTM) (1980) Standard practice for conducting acute toxicity tests with fishes, macroinvertebrates, and amphibians. Philadelphia, PA, E729-80
Anderson BB (1946) The toxicity thresholds of various sodium salts determined by the use ofDaphnia magna. Sewage Works Jour 18:82–87
Biesinger KE, Christensen GM (1972) Effects of various metals on survival, growth, reproduction and metabolism ofDaphnia magna. J Fish Res Board Can 29:1691–1700
Cardwell RD, Foreman DG, Payne TR, Wilbur DJ (1976) Acute toxicity of selected toxicants to six species of fish. Ecol Res Series EPA-600/3-76-008. National Technical Information Service, Springfield, VA
Ferguson JF, Gavis J (1972) A review of the arsenic cycle in natural waters. Water Res 6:1259–1274
Hamilton MA, Russo RC, Thurston RV (1977) Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays. Environ Sci Technol 11:714–719 Correction 12:417 (1978)
Kersting K (1978) Some features of feeding, respiration and energy conversion ofDaphnia magna. Hydrobiol 59:113–120
Kirk-Othmer Encyclopedia of Chemical Technology (1978) Vol 3, John Wiley and Sons, Inc., New York, 958 pp
May TW, McKinney GL (1981) Cadmium, lead, mercury, arsenic, and selenium concentrations in freshwater fish, 1976–77-national pesticide monitoring program. Pestic Monit J 15:14–38
Mount DI, Brungs WA (1967) A simplified dosing apparatus for fish toxicological studies. Water Res 1:21–29
National Academy of Sciences (1977) Arsenic. Committee on medical and biologic effects of environmental pollution, Division of Biological Sciences, Assembly of Life Sciences National Research Council, Philadelphia, PA
Sanders HO, Cope OB (1966) Toxicities of several pesticides to two species of cladocerans. Trans Am Fish Soc 95:165–169
Seegert GL, Brooks AS (1978) Dechlorination of water for fish culture: comparison of the activated carbon, sulfite reduction, and photochemical methods. J Fish Res Board Can 35:88–92
Spehar RL, Fiandt JT, Anderson RL, Defoe DL (1980) Comparative toxicity of arsenic compounds and their accumulation in invertebrates and fish. Arch Environ Contam Toxicol 9:53–63
Steel RGD, Torrie JH (1960) Principles and procedures of statistics. McGraw-Hill, New York, 481 pp
Surber EW, Meehean OL (1931) Lethal concentrations of arsenic for certain aquatic organisms. Trans Am Fish Soc 61:225–239
US Environmental Protection Agency (1979) Methods for chemical analysis of water and wastes. EPA 600/4-79-020 National Technical Information Service, Springfield, VA
Windholz M, Budavari S, Stroumtsos LY, Fertig MN (eds) (1976) The Merck Index: an Encyclopedia of Chemicals and Drugs, 9th edn. Merck & Co., Inc., Rahway, NJ
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Lima, A.R., Curtis, C., Hammermeister, D.E. et al. Acute and chronic toxicities of arsenic(III) to fathead minnows, flagfish, daphnids, and an amphipod. Arch. Environ. Contam. Toxicol. 13, 595–601 (1984). https://doi.org/10.1007/BF01056338
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DOI: https://doi.org/10.1007/BF01056338