Improving Groundwater Predictions Utilizing Seasonal Precipitation Forecasts from General Circulation Models Forced with Sea Surface Temperature Forecasts
| Autor: | Jerad D. Bales, Naser Almanaseer, Arumugam Sankarasubramanian |
|---|---|
| Rok vydání: | 2014 |
| Předmět: |
Hydrology
ECHAM geography geography.geographical_feature_category Hydrological modelling Drainage basin Climatology Streamflow Environmental Chemistry Environmental science Climate model Precipitation Surface water Groundwater General Environmental Science Water Science and Technology Civil and Structural Engineering |
| Zdroj: | Journal of Hydrologic Engineering. 19:87-98 |
| ISSN: | 1943-5584 1084-0699 |
| DOI: | 10.1061/(asce)he.1943-5584.0000776 |
| Popis: | Recent studies have found a significant association between climatic variability and basin hydroclimatology, particularly ground- water levels, over the southeast United States. The research reported in this paper evaluates the potential in developing 6-month-ahead groundwater-level forecasts based on the precipitation forecasts from ECHAM 4.5 General Circulation Model Forced with Sea Surface Temperature forecasts. Ten groundwater wells and nine streamgauges from the USGS Groundwater Climate Response Network and Hydro-Climatic Data Network were selected to represent groundwater and surface water flows, respectively, having minimal anthropogenic influences within the Flint River Basin in Georgia, United States. The writers employ two low-dimensional models (principle component regression (PCR) and canonical correlation analysis (CCA)) for predicting groundwater and streamflow at both seasonal and monthly time- scales. Three modeling schemes are considered at the beginning of January to predict winter (January, February, and March) and spring (April, May, and June) streamflow and groundwater for the selected sites within the Flint River Basin. The first scheme (model 1) is a null model and is developed using PCR for every streamflow and groundwater site using previous 3-month observations (October, November, and December) available at that particular site as predictors. Modeling schemes 2 and 3 are developed using PCR and CCA, respectively, to evaluate the role of precipitation forecasts in improving monthly and seasonal groundwater predictions. Modeling scheme 3, which employs a CCA approach, is developed for each site by considering observed groundwater levels from nearby sites as predictands. The performance of these three schemes is evaluated using two metrics (correlation coefficient and relative RMS error) by developing groundwater-level forecasts based on leave-five-out cross-validation. Results from the research reported in this paper show that using precipitation forecasts in climate models improves the ability to predict the interannual variability of winter and spring streamflow and groundwater levels over the basin. However, significant conditional bias exists in all the three modeling schemes, which indicates the need to consider improved modeling schemes as well as the availability of longer time-series of observed hydroclimatic information over the basin. DOI: 10.1061/(ASCE)HE .1943-5584.0000776. © 2014 American Society of Civil Engineers. |
| Databáze: | OpenAIRE |
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