Abstract
ABSTRACT The effects of atmospheric deposition on acid-sensitive watersheds have become increasingly apparent. Lake/watershed systems that cannot completely neutralize strong acid inputs are characterized by low pH values and elevated concentrations of trace metals. Populations of fish and other aquatic biota are endangered by this phenomenon. One approach used to mitigate the effects of surface water acidification is direct application of calcium carbonate (CaCO3). Through the Lake Acidification Mitigation Project (LAMP), we investigated the chemical response of acidic lakes to base treatment. Immediately following base application, there was a marked increase in pH, acid neutralizing capacity (ANC), calcium and dissolved inorganic carbon (DIC) associated with the dissolution of calcium carbonate in the treated lakes. The large increase in pH was attributed to the low dissolved inorganic carbon concentrations in the water column prior to liming and limited pH buffering capacity. During the four week peri...
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