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    Author(s): Lucy A. Rose; Stephen D. Sebestyen; Emily M. Elliott; Keisuke Koba
    Date: 2015
    Source: Water Resources Research. 51(2): 1333-1352.
    Publication Series: Scientific Journal (JRNL)
    Station: Northern Research Station
    PDF: View PDF  (812.01 KB)

    Description

    Increased deposition of reactive atmospheric N has resulted in the nitrogen saturation of many forested catchments worldwide. Isotope-based studies from multiple forest sites report low proportions (mean = ~10%) of unprocessed atmospheric nitrate in streams during baseflow, regardless of N deposition or nitrate export rates. Given similar proportions of atmospheric nitrate in baseflow across a variety of sites and forest types, it is important to address the postdepositional drivers and processes that affect atmospheric nitrate transport and fate within catchments. In a meta-analysis of stable isotope-based studies, we examined the influence of methodological, biological, and hydrologic drivers on the export of atmospheric nitrate from forests. The δ18O-NO3- values in stream waters may increase, decrease, or not change with increasing discharge during stormflow conditions, and δ18O-NO3- values are generally higher in stormflow than baseflow. However, δ18O-NO3- values tended to increase with increasing baseflow discharge at all sites examined. To explain these differences, we present a conceptual model of hydrologic flowpath characteristics (e.g., saturation overland flow versus subsurface stormflow) that considers the influence of topography on landscape-stream hydrologic connectivity and delivery of unprocessed atmospheric nitrate to streams. Methodological biases resulting from differences in sampling frequency and stable isotope analytical techniques may further influence the perceived degree of unprocessed atmospheric nitrate export. Synthesis of results from numerous isotope-based studies shows that small proportions of unprocessed atmospheric nitrate are common in baseflow. However, hydrologic, topographic, and methodological factors are important drivers of actual or perceived elevated contributions of unprocessed atmospheric nitrate to streams.

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    Citation

    Rose, Lucy A.; Sebestyen, Stephen D.; Elliott, Emily M.; Koba, Keisuke. 2015. Drivers of atmospheric nitrate processing and export in forested catchments. Water Resources Research. 51(2): 1333-1352.

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