Effects of bicarbonate alkalinity and calcium on the acute toxicity of copper to juvenile channel catfish ( Ictalurus punctatus)

Three experiments were conducted to evaluate the relative importance of calcium hardness and bicarbonate alkalinity to the acute response of juvenile channel catfish ( Ictalurus punctatus) exposed to a toxic concentration of copper sulfate. A preliminary bioassay revealed 28 mg·l −1 copper sulfate c...

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Veröffentlicht in:	Aquaculture 1994-08, Vol.125 (1), p.73-79
Hauptverfasser:	Wurts, William A., Perschbacher, Peter W.
Format:	Artikel
Sprache:	eng
Schlagworte:	alcalinidad alcalinite alkalinity Aquaculture bicarbonate bicarbonates bicarbonatos calcio Calcium calcium carbonate calidad del agua carbonate de calcium carbonato de calcio cobre copper copper sulphate cuivre Fish formas juveniles Freshwater Hazardous substances ictalurus Ictalurus punctatus juvenile juveniles mortalidad mortalite mortality qualite de l' eau sulfate de cuivre sulfato de cobre toxicidad toxicite toxicity water quality
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description	Three experiments were conducted to evaluate the relative importance of calcium hardness and bicarbonate alkalinity to the acute response of juvenile channel catfish ( Ictalurus punctatus) exposed to a toxic concentration of copper sulfate. A preliminary bioassay revealed 28 mg·l −1 copper sulfate caused 50% mortality within 48 h (48-hLC 50) in juvenile channel catfish placed in water with calcium hardness and bicarbonate alkalinity, set at 75 mg·l −1 CaCO 3. Catfish were then exposed to 28 mg·l −1 copper sulfate concentrations in environments where hardness or alkalinity concentrations were varied. Bicarbonate alkalinities above 75 mg·l −1 CaCO 3, with calcium hardness held at 20 mg·l −1 CaCO 3, significantly reduced catfish mortalities from 97–100% to 63–70%. Copper-induced mortalities were 100% for all fish placed in calcium hardness treatments (20–250 mg·l −1 CaCO 3) in which bicarbonate alkalinity was held at 20 mg·l −1 CaCO 3. When bicarbonate alkalinity was held constant at 75 mg·l −1 CaCO 3 and calcium hardness was varied from 20 to 250 mg·l −1 CaCO 3, copper related catfish mortalities displayed high variability and means ranged from 6.7 to 60%. Mortalities decreased as calcium concentrations increased. Although differences in mortalities were not statistically significant, the latter hardness findings appear to suggest a biologically significant calcium effect on copper toxicity in the presence of sufficient alkalinity concentrations.
doi_str_mv	10.1016/0044-8486(94)90284-4
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A preliminary bioassay revealed 28 mg·l −1 copper sulfate caused 50% mortality within 48 h (48-hLC 50) in juvenile channel catfish placed in water with calcium hardness and bicarbonate alkalinity, set at 75 mg·l −1 CaCO 3. Catfish were then exposed to 28 mg·l −1 copper sulfate concentrations in environments where hardness or alkalinity concentrations were varied. Bicarbonate alkalinities above 75 mg·l −1 CaCO 3, with calcium hardness held at 20 mg·l −1 CaCO 3, significantly reduced catfish mortalities from 97–100% to 63–70%. Copper-induced mortalities were 100% for all fish placed in calcium hardness treatments (20–250 mg·l −1 CaCO 3) in which bicarbonate alkalinity was held at 20 mg·l −1 CaCO 3. When bicarbonate alkalinity was held constant at 75 mg·l −1 CaCO 3 and calcium hardness was varied from 20 to 250 mg·l −1 CaCO 3, copper related catfish mortalities displayed high variability and means ranged from 6.7 to 60%. Mortalities decreased as calcium concentrations increased. 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A preliminary bioassay revealed 28 mg·l −1 copper sulfate caused 50% mortality within 48 h (48-hLC 50) in juvenile channel catfish placed in water with calcium hardness and bicarbonate alkalinity, set at 75 mg·l −1 CaCO 3. Catfish were then exposed to 28 mg·l −1 copper sulfate concentrations in environments where hardness or alkalinity concentrations were varied. Bicarbonate alkalinities above 75 mg·l −1 CaCO 3, with calcium hardness held at 20 mg·l −1 CaCO 3, significantly reduced catfish mortalities from 97–100% to 63–70%. Copper-induced mortalities were 100% for all fish placed in calcium hardness treatments (20–250 mg·l −1 CaCO 3) in which bicarbonate alkalinity was held at 20 mg·l −1 CaCO 3. When bicarbonate alkalinity was held constant at 75 mg·l −1 CaCO 3 and calcium hardness was varied from 20 to 250 mg·l −1 CaCO 3, copper related catfish mortalities displayed high variability and means ranged from 6.7 to 60%. Mortalities decreased as calcium concentrations increased. Although differences in mortalities were not statistically significant, the latter hardness findings appear to suggest a biologically significant calcium effect on copper toxicity in the presence of sufficient alkalinity concentrations.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/0044-8486(94)90284-4</doi><tpages>7</tpages></addata></record>
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subjects	alcalinidad alcalinite alkalinity Aquaculture bicarbonate bicarbonates bicarbonatos calcio Calcium calcium carbonate calidad del agua carbonate de calcium carbonato de calcio cobre copper copper sulphate cuivre Fish formas juveniles Freshwater Hazardous substances ictalurus Ictalurus punctatus juvenile juveniles mortalidad mortalite mortality qualite de l' eau sulfate de cuivre sulfato de cobre toxicidad toxicite toxicity water quality
title	Effects of bicarbonate alkalinity and calcium on the acute toxicity of copper to juvenile channel catfish ( Ictalurus punctatus)
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