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Hydrology and Earth System Sciences An interactive open-access journal of the European Geosciences Union
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Volume 19, issue 1 | Copyright
Hydrol. Earth Syst. Sci., 19, 125-135, 2015
https://doi.org/10.5194/hess-19-125-2015
© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 08 Jan 2015

Research article | 08 Jan 2015

Where does streamwater come from in low-relief forested watersheds? A dual-isotope approach

J. Klaus1,2, J. J. McDonnell2,3, C. R. Jackson4, E. Du5, and N. A. Griffiths6 J. Klaus et al.
  • 1Luxembourg Institute of Science and Technology (LIST), Department Environmental Research and Innovation, Belvaux, Luxembourg
  • 2Global Institute for Water Security, University of Saskatchewan, Saskatoon, SK, Canada
  • 3University of Aberdeen, School of Geosciences, Aberdeen, UK
  • 4Warnell School of Forestry and Natural Resources, University of Georgia, Athens, GA, USA
  • 5Climate Science Department, Lawrence Berkeley National Laboratory, Berkeley, CA, USA
  • 6Climate Change Science Institute and Environmental Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, USA

Abstract. The time and geographic sources of streamwater in low-relief watersheds are poorly understood. This is partly due to the difficult combination of low runoff coefficients and often damped streamwater isotopic signals precluding traditional hydrograph separation and convolution integral approaches. Here we present a dual-isotope approach involving 18O and 2H of water in a low-angle forested watershed to determine streamwater source components and then build a conceptual model of streamflow generation. We focus on three headwater lowland sub-catchments draining the Savannah River Site in South Carolina, USA. Our results for a 3-year sampling period show that the slopes of the meteoric water lines/evaporation water lines (MWLs/EWLs) of the catchment water sources can be used to extract information on runoff sources in ways not considered before. Our dual-isotope approach was able to identify unique hillslope, riparian and deep groundwater, and streamflow compositions. The streams showed strong evaporative enrichment compared to the local meteoric water line (δ2H = 7.15 · δ18O +9.28‰) with slopes of 2.52, 2.84, and 2.86. Based on the unique and unambiguous slopes of the EWLs of the different water cycle components and the isotopic time series of the individual components, we were able to show how the riparian zone controls baseflow in this system and how the riparian zone "resets" the stable isotope composition of the observed streams in our low-angle, forested watersheds. Although this approach is limited in terms of quantifying mixing percentages between different end-members, our dual-isotope approach enabled the extraction of hydrologically useful information in a region with little change in individual isotope time series.

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