Natural and anthropogenic nitrate contamination of groundwater in a rural community, California
Contamination of small basins impacts the quality of groundwater resources and the health of residents dependent on local, limited water supplies. Understanding contaminant sources is crucial not only to planning mitigation and cleanup but also to the rural community, who must participate in any scientific or regulatory effort. Groundwaters, rock, and soil samples representative of the Sierra Pelona Valley in an arid, `Mediterranean' climate region of southern California indicate significant anthropogenic nitrate contamination. Groundwater nitrate from diverse sources can be differentiated on the basis of chemical and isotopic compositions. Samples analyzed for dissolved or leachable ion concentrations as well as δ15N provide both chemical and isotopic signatures that distinguish between potential contaminant sources. Data indicate a predominance of anthropogenic, organic human and/or animal waste and decay of irrigation-enhanced vegetation. Natural nitrate sources are minor but include low concentration soil nitrate from decay of sparse, natural vegetation and nitrogen-bearing rock units. Anthropogenic sources almost certainly contribute more than half of the nitrate found in the basin as a whole and provide the dominant source in the approximately equals 40% of water wells that routinely or occasionally exceed the nitrate-N public drinking water standard concentration of 10 mg/L.
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Published In
DOI
Publication Date
Volume
Issue
Start / End Page
Related Subject Headings
- Environmental Sciences