TY - JOUR
T1 - Watershed groundwater balance estimation using streamflow recession analysis and baseflow separation
AU - Wittenberg, H.
AU - Sivapalan, M.
N1 - Funding Information:
This work was performed during the sabbatical visit of the first author at the Centre for Water Research, University of Western Australia. The stay was funded by the Deutsche Forschungsgemeinschaft, Germany. The first author is pleased to acknowledge this financial support, as well as the assistance and support provided by the Centre for Water Research. CWR Reference ED 1381 MS.
PY - 1999/6
Y1 - 1999/6
N2 - By the analysis of the observed time series of streamflow from catchments, the main components of the underlying groundwater balance, namely, discharge, evapotranspiration loss, storage and recharge, can be identified and quantified. This holistic (as opposed to reductionist) estimation method is demonstrated for the Harris River catchment in southwest Western Australia. The relationship between the groundwater discharge and the reservoir storage of shallow unconfined aquifers was found to be nonlinear based on the analysis of numerous streamflow recession curves. However, depletion of groundwater by evapotranspiration losses, through the water uptake of tree roots, was found to bias the recession curves and the estimated reservoir parameters. As a result of the seasonality of both rainfall and potential evaporation, analysis of the recession curves, stratified according to time of the year, allowed the quantification of evapotranspiration loss as a function of calendar month and stored groundwater storage. Time series of recharge to the groundwater aquifer were computed from the observed total streamflows, and the estimated discharge and evapotranspiration losses, by inverse nonlinear reservoir routing. Using traditional unit hydrograph methods unit recharge responses to rainfall were computed by least squares fitting. The shapes of the estimated unit response functions showed no significant seasonal variation.
AB - By the analysis of the observed time series of streamflow from catchments, the main components of the underlying groundwater balance, namely, discharge, evapotranspiration loss, storage and recharge, can be identified and quantified. This holistic (as opposed to reductionist) estimation method is demonstrated for the Harris River catchment in southwest Western Australia. The relationship between the groundwater discharge and the reservoir storage of shallow unconfined aquifers was found to be nonlinear based on the analysis of numerous streamflow recession curves. However, depletion of groundwater by evapotranspiration losses, through the water uptake of tree roots, was found to bias the recession curves and the estimated reservoir parameters. As a result of the seasonality of both rainfall and potential evaporation, analysis of the recession curves, stratified according to time of the year, allowed the quantification of evapotranspiration loss as a function of calendar month and stored groundwater storage. Time series of recharge to the groundwater aquifer were computed from the observed total streamflows, and the estimated discharge and evapotranspiration losses, by inverse nonlinear reservoir routing. Using traditional unit hydrograph methods unit recharge responses to rainfall were computed by least squares fitting. The shapes of the estimated unit response functions showed no significant seasonal variation.
KW - Baseflow recession
KW - Baseflow separation
KW - Groundwater balance
KW - Nonlinear reservoir
KW - Recharge response
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U2 - 10.1016/S0022-1694(99)00040-2
DO - 10.1016/S0022-1694(99)00040-2
M3 - Article
AN - SCOPUS:0033019471
SN - 0022-1694
VL - 219
SP - 20
EP - 33
JO - Journal of Hydrology
JF - Journal of Hydrology
IS - 1-2
ER -