Abstract
The significance of organic matter origin for carbon oxidation via sulfate and iron reduction in the sediments of three acid mine lakes is analyzed. Carbon reactivity was estimated by fitting first-order expressions to measured rates. Carbon oxidation rates via sulfate and ferric iron reduction ranged from 3.4 to 4.7 mmol m 2 d -1 and resembled those reported for freshwater lakes. The estimated reaction constants increased from about 10 -3 a -1 at the interface to the former mine grounds to 0.05 to 0.2 a -1 at the current sediment-water interface. Aquatic organic matter accounted for an estimated 45…75% of total carbon oxidation rates while it amounted only to about 5…14% of the total organic matter that had been deposited. The results of this study suggest that in highly acidic mine lakes the reactivity of the deposited organic matter can rapidly increase after flooding, enhancing carbon oxidation and internal neutralization rates in the sediments.
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