Hydrologic Response of a Wetland to Changing Moisture Conditions: Modeling Effects of Soil Heterogeneity |
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| Authors: | Peter J Zeeb Harold F Hemond |
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| Institution: | (1) HSI Geotrans, Inc., 6 Lancaster Country Road, Harvard, MA, 01451, U.S.A;(2) Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, Building 48-309, Cambridge, MA, 02139, U.S.A |
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| Abstract: | Prediction of the effects of external influences such as climate change on wetland systems requires the prediction of hydrologic effects. Because wetland soils are typically heterogeneous, it is particularly important to understand the extent and connectedness of hydraulically conductive soil units, since water flow may be concentrated in such units while bypassing others of lower conductivity. However, subsurface hydrologic models typically do not represent heterogeneity adequately, being limited by sparse parameterization of soil properties. Conventional techniques for mapping units of soil within wetlands are highly laborious, requiring soil coring and laboratory testing. As an alternative, we developed a portable piezocone driver and highly sensitive piezocone designed to map wetland soil units with centimeter-scale resolution in the vertical and meter-scale resolution in the horizontal dimension. This system successfully delineated several different layers of peat, sand, and limnetic sediments, and their degree of interconnectedness in an eight-meter-thick peat deposit. Monitoring of wetland response to precipitation, changes in stream stage, and overbank flooding was then used in conjunction with the piezocone data and a two-dimensional flow model to constrain the hydraulic properties of the soil units. Thus parameterized, a standard subsurface flow model was able to realistically simulate a variety of hydrologic processes relevant to climate change, including wetland-stream water exchange, the movement of wetland porewaters to the root zone of plants, and wetland desaturation under dry conditions. |
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| Keywords: | wetlands hydrology modeling piezocone |
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