Accuracy of grid precipitation data for Brazil: application in river discharge modelling of the Tocantins catchment |
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| Authors: | José A F Monteiro Michael Strauch Raghavan Srinivasan Karim Abbaspour Björn Gücker |
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| Institution: | 1. Applied Limnology Laboratory, Federal University of S?o Jo?o del‐Rei, S?o Jo?o del‐Rei, MG, Brazil;2. Spatial Sciences Laboratory, Texas A&M University, College Station, TX, USA;3. Helmholz Centre for Environmental Research (UFZ), Leipzig, Germany;4. Swiss Federal Institute of Aquatic Science and Technology (Eawag), Dübendorf, Switzerland |
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| Abstract: | Here, we compared grid precipitation data — Climate Forecast System Reanalysis (CFSR) and WATCH Forcing Data methodology applied to ERA‐Interim (WFDEI) data — with Brazilian Weather Bureau (INMET) and Brazilian Water Agency (ANA) rain gauge data (n = 2027) for the period 1980–2010 in order to evaluate which grid data set better represents precipitation, and is thus more suitable for hydrological modelling of Brazilian water resources. We found that WFDEI outperformed CFSR according to three statistical indicators. We then applied and interpolated a simple bias correction to further improve WFDEI data before we used these data to model river discharge of the Tocantins catchment with the Soil and Water Assessment Tool (SWAT). Calibration (validation in parentheses; weighted averages of all gauges) had satisfactory statistical metrics: p‐factor = 0.52 (0.47); r‐factor = 0.84 (0.99); R2 = 0.78 (0.71); bR2 = 0.68 (0.47); NS = 0.70 (0.66); Pbias = ?4.5 (4.0). Finally, the calibrated SWAT model was used to assess the spatial distribution of the catchment's water resources. Annual green water flow (evapotranspiration) increased from the south‐east (640–840 mm yr?1) to north‐west (1140–1440 mm) of the Tocantins catchment, while green water storage (soil water content) increased from south (330–1070 mm) to north (2180–3290 mm). Blue water (water yield) had a less clear pattern, with lower values in the south and the central borders of the catchment (20–560 mm) and higher values along the central axis and the north (920–1460 mm). Our analysis suggested that WFDEI was an accurate representation of Brazilian precipitation. For large catchments, we therefore recommend the use of WFDEI instead of sparse and often missing rain gauge data in modelling Brazilian water resources. Copyright © 2015 John Wiley & Sons, Ltd. |
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| Keywords: | CFSR WFDEI precipitation watershed modelling Brazil tropics |
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