Impact of Length of Dataset on Streamflow Calibration Parameters and Performance of APEX Model |
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| Authors: | Amanda M Nelson Daniel N Moriasi Mansour Talebizadeh Jean L Steiner Remegio B Confesor Prasanna H Gowda Patrick J Starks Haile Tadesse |
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| Institution: | 1. Agricultural Research Service, U.S. Department of Agriculture, El Reno, Oklahoma;2. National Center for Water Quality Research, Heidelberg University, Tiffin, Ohio |
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| Abstract: | Due to resource constraints, long‐term monitoring data for calibration and validation of hydrologic and water quality models are rare. As a result, most models are calibrated and, if possible, validated using limited measured data. However, little research has been done to determine the impact of length of available calibration data on model parameterization and performance. The main objective of this study was to evaluate the impact of length of calibration data (LCD) on parameterization and performance of the Agricultural Policy Environmental eXtender model for predicting daily, monthly, and annual streamflow. Long‐term (1984‐2015) measured daily streamflow data from Rock Creek watershed, an agricultural watershed in northern Ohio, were used for this study. Data were divided into five Short (5‐year), two Medium (15‐year), and one Long (25‐year) streamflow calibration data scenarios. All LCD scenarios were calibrated and validated at three time steps: daily, monthly, and annual. Results showed LCD affected the ability of the model to accurately capture temporal variability in simulated streamflow. However, overall average streamflow, water budgets, and crop yields were simulated reasonably well for all LCD scenarios. |
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| Keywords: | Agricultural Policy Environmental eXtender (APEX) calibration model validation parameter robustness |
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