Streamwater acid-base chemistry and critical loads of atmospheric sulfur deposition in Shenandoah National Park, Virginia
Autor: | Bernard J. Cosby, Timothy J. Sullivan, James R. Webb, Robin L. Dennis, Arthur J. Bulger, Frank A. Deviney |
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Rok vydání: | 2007 |
Předmět: |
Hydrology
Watershed Atmosphere National park Virginia Acid Rain General Medicine STREAMS Management Monitoring Policy and Law Pollution Acid neutralizing capacity Rivers Water Pollution Chemical Siliciclastic Water pollution Acids Surface water Deposition (chemistry) Sulfur Environmental Monitoring General Environmental Science |
Zdroj: | Environmental Monitoring and Assessment. 137 |
ISSN: | 1573-2959 0167-6369 |
DOI: | 10.1007/s10661-007-9731-1 |
Popis: | A modeling study was conducted to evaluate the acid-base chemistry of streams within Shenandoah National Park, Virginia and to project future responses to sulfur (S) and nitrogen (N) atmospheric emissions controls. Many of the major stream systems in the park have acid neutralizing capacity (ANC) less than 20 microeq/L, levels at which chronic and/or episodic adverse impacts on native brook trout are possible. Model hindcasts suggested that none of these streams had ANC less than 50 microeq/L in 1900. Model projections, based on atmospheric emissions controls representative of laws already enacted as of 2003, suggested that the ANC of those streams simulated to have experienced the largest historical decreases in ANC will increase in the future. The levels of S deposition that were simulated to cause streamwater ANC to increase or decrease to three specified critical levels (0, 20, and 50 microeq/L) ranged from less than zero (ANC level not attainable) to several hundred kg/ha/year, depending on the selected site and its inherent acid-sensitivity, selected ANC endpoint criterion, and evaluation year for which the critical load was calculated. Several of the modeled streams situated on siliciclastic geology exhibited critical loads0 kg/ha/year to achieve ANC50 microeq/L in the year 2040, probably due at least in part to base cation losses from watershed soil. The median modeled siliciclastic stream had a calculated critical load to achieve ANC50 microeq/L in 2100 that was about 3 kg/ha/year, or 77% lower than deposition in 1990, representing the time of model calibration. |
Databáze: | OpenAIRE |
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