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<br />.' .. <br /> <br />. <br /> <br />~~ <br />~ <br /> <br />4. Write a routine to generate standard water rights reports that are the same as the existing State <br />Engineer's lists. <br /> <br />5. Write a routine to generate current status lists that are exactly the same as the existing State <br />Engineer's lists. <br /> <br />6. Develop code to import/export a list of water rights and key structures to/from a /lat file (e.g., for <br />use with the consumptive use model). This will involve defining a standard file format for the <br />import lists and writing code to verify that the identifiers used for key structures are valid. <br /> <br />7. Develop code to sort water rights by structure ID, decreed amount, use, administration number, <br />division, type, and stream, whether absolute or conditional, for a given water division or water <br />district. It is unclear at this time whether this would be more efficiently done using the <br />INFORMIX engine or the DMI utility. If a list of key structures is imported from a /lat file, the <br />INFORMIX sort capabilities will not be available to sort the list, but they would be able to sort <br />the output from a query based on the list. <br /> <br />8, Develop code to generate STATEMOD input files for (I) direct /low water rights by structure, <br />(2) in stream /low water rights by structure, and (3) reservoir water rights by structure. As part of <br />previous or concurrent work (e.g., for demandts), general routines will be developed to read <br />single time series from STATEMOD data files and insert/add single time series to the same files. <br />Consequently, this subtask would involve mapping the key structure identifiers to appropriate <br />time series in these files. <br /> <br />Subtask 4. Design and implement an improved netresev DMI utility, The netresev utility will be <br />executed via the UNIX command line. Information will be supplied to the program using command <br />line arguments and supporting data files, The utility will not have a GUI and will not be accessible <br />from Mosaic, It is anticipated that most of the operations performed by netresev will typically be <br />run by persons developing the baseline data sets. The netresev utility wiII have no graphical <br />scenario selector and will operate on file paths only. <br /> <br />I. Estimate reservoir evaporation by weighting neighboring evaporation and precipitation station <br />data to produce 12 monthly values or a continuous time series of evaporation, This activity was <br />completed in Year I but will be updated using NOAA data in Year 2 to allow time series <br />selection via the 15tooI program as described in paragraph 4.4 below, <br /> <br />2. Add code to allow the option of imposing an artificial evaporation time series in place of <br />historical data in order to supersede unreliable historical data. Also allow a long-term annual <br />value and 12 monthly distribution factors to be specified. The annual value could then be taken <br />from the evaporation coverage as displayed by the VDB (see Task 2.03), <br /> <br />3, Add code to output the evaporation time series in a format suitable for use by STATEMOD, <br />Routines already exist to output time series in STATEMOD format. However, code will need to <br />be added to modify the STATEMOD reservoir file if the 12 monthly values option is selected, <br /> <br />Subtask 5. Update the low-level DMI routines needed by the cucropco, cuclimat, cucommon, and <br />cunonet DMI utilities as needed for the Year 2 efforts, and help the consumptive use developers <br />implement standard DMI features in the existing programs (e.g., common time series /lat file format <br /> <br />DRAfTA12D Ol,17.9j <br /> <br />A.43 <br />