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Water Supply Reserve Account -Grant Application Form <br />Form Revised May 2007 <br />C5U-GEUDS?'' <br />r? <br />®? ? a <br />• <br />f <br />Puebla e?tMetr? 8? <br />?? <br />Pi de Diah,? ? ??? <br />??? ?? i ,,?? ?? <br />;? ? ? ?'?F <br />??°` ? ? <br />es e? <br />r <br />?? ti <br />?? <br />?? <br />1? <br />?? ?f?t?r ?u?lit? hi??? F?ra?pe?rti <br />• ?s ?55? ?? <br />? Nade Name; ?:? u <br />?escripkian; <br />?alibrakian CancenkYakian Baunds <br />Seleck ,,, <br />Minimum TDS [mg{I]: •100 Maximum TUS [mg{I? b?3?,044 <br />r Use Q and C Relakian Seleck Equakian <br />Daka Plak <br />? Varies 8y Year ? Uniks; m? ? <br />Can?entrakian [mg?L] Time?erie? ?m?dJ?rr? <br /> Skark Dake Concenkraki on [mg?L] <br />? ? 4?1?199? 464,5321 <br /> 4f8?199? 450,760 <br /> 4?15?1??9 491.2138 <br /> 4f22f1999 551,7087 <br /> 4?29?1999 876,6844 <br /> 5tf,r1??? f,7R Rf174 ? <br />? OIC Mantel <br />WQM features an efficient geo-referenced network tracing algorithm that allows navigation from <br />upstream to downstream for computing changes in water quality constituents while having access to <br />user data, MODSIM flows, and GIS-spatial data. The GeoDSS couples the WQM with <br />GeoMODSIM and with the ANN module at run time to provide conjunctive surface and groundwater <br />salt mass routing throughout the modeled basin. Combined with the simulated flow results, the user <br />is capable, at any point in the system, to monitor solute concentration within the river and at <br />diversion points. Simulations using exclusively measured salt loads at the most upstream nodes of <br />the modeled basin allow the user to observe at control points the difference between the measured <br />and modeled concentrations (i.e., upstream unmeasured salt load contributions). <br />A Scenario Manager is implemented in LAR GeoDSS for compiling utilities for scenario <br />management and analysis which endows the user with tools to implement the regional-scale <br />management options at basin scale. It stores and loads the scenarios preferences for ease of <br />access and repeatability. The tools allow graphical comparison of quantity and quality modeling <br />results from multiple scenarios at the system elements inside the GIS environment. <br />Heightened by the extensive database and calibrated modeling tools that have been developed to <br />date, the GeoDSS is being applied to investigating impacts of alternative conjunctive management <br />strategies developed at the regional scale, including increased irrigation efficiency and reduction in <br />canal seepage. Soil water salinity and waterlogging would be reduced under these strategies, along <br />with increases in crop yield and reduced return flows to the river. Significant reductions in Salt and <br />Se loadings in these return flows would likely occur, with river water quality consequently enhanced. <br />Strategies are being investigated for offsetting the impacts associated with changes in the rate and <br />timing of canal diversions and return flows on downstream diversions, instream flow use, and <br />discharge across the state line into Kansas are being investigated using new accounts in existing <br />reservoirs to store water resulting from reduced canal diversions. The timing of releases can then <br />be optimized that would adequately preserve historic river flow patterns in compliance with Colorado <br />water rights and the Arkansas River Compact. The LAR GeoDSS will be applied to studying the <br />16