• Title of article

    Quantifying wetland–aquifer interactions in a humid subtropical climate region: An integrated approach

  • Author/Authors

    Itza Mendoza-Sanchez، نويسنده , , Mantha S. Phanikumar، نويسنده , , Jie Niu، نويسنده , , Jason R. Masoner، نويسنده , , Isabelle M. Cozzarelli، نويسنده , , Jennifer T. McGuire، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    17
  • From page
    237
  • To page
    253
  • Abstract
    Wetlands are widely recognized as sentinels of global climate change. Long-term monitoring data combined with process-based modeling has the potential to shed light on key processes and how they change over time. This paper reports the development and application of a simple water balance model based on long-term climate, soil, vegetation and hydrological dynamics to quantify groundwater–surface water (GW–SW) interactions at the Norman landfill research site in Oklahoma, USA. Our integrated approach involved model evaluation by means of the following independent measurements: (a) groundwater inflow calculation using stable isotopes of oxygen and hydrogen (16O, 18O, 1H, 2H); (b) seepage flux measurements in the wetland hyporheic sediment; and (c) pan evaporation measurements on land and in the wetland. The integrated approach was useful for identifying the dominant hydrological processes at the site, including recharge and subsurface flows. Simulated recharge compared well with estimates obtained using isotope methods from previous studies and allowed us to identify specific annual signatures of this important process during the period of study (1997–2007). Similarly, observations of groundwater inflow and outflow rates to and from the wetland using seepage meters and isotope methods were found to be in good agreement with simulation results. Results indicate that subsurface flow components in the system are seasonal and readily respond to rainfall events. The wetland water balance is dominated by local groundwater inputs and regional groundwater flow contributes little to the overall water balance.
  • Keywords
    Climate change , Aquifer , Wetland , Biogeochemical processes
  • Journal title
    Journal of Hydrology
  • Serial Year
    2013
  • Journal title
    Journal of Hydrology
  • Record number

    1095848