Model Documentation Report: Brooks, L.E., 2017, Groundwater model of the Great Basin carbonate and alluvial aquifer system version 3.0: Incorporating revisions in southwestern Utah and east central Nevada: U.S. Geological Survey Scientific Investigations Report 2017-5072, xx p., 2 appendixes, https://doi.org/10.3133/sir20175072. Model Data Release: Brooks, L.E., 2017, MODFLOW-LGR data sets for the Great Basin carbonate and alluvial aquifer system model version 3.0: Revisions in southwestern Utah and east central Nevada: U.S. Geological Survey data release, https://doi.org/10.5066/F76T0JW1. =================================================================================================== 03/28/2017 Model archive created 05/10/2017 Model data in archive reviewed by Tom Marston, USGS Utah Water Science Center 05/31/2017 Model data release (including metadata) reviewed by Martha Watt, USGS Northeast Region 06/15/2017 Model data release and SIR reviewed by Eve Kuniansky, Water Science Field Team Groundwater Specialist, Southeast Region =================================================================================================== SIR2017-5072 Description: The underlying subdirectories contain all of the input and output files for the simulations described in the model documentation report (https://doi.org/10.3133/sir20175072), and source and compiled executable codes for the software required to complete the simulations described in that report. Model files presented in this data release were modified from an existing, calibrated, steady-state model of the Great Basin carbonate and alluvial aquifer system. SIR 2014-5213 (https://pubs.usgs.gov/sir/2014/5213/) and SIR 2017–5011 (https://doi.org/10.3133/sir20175011) document the construction and calibration of the previous versions of this model. Modifications that were made to the input files and discussion of model results are documented in SIR2017-5072 (https://doi.org/10.3133/sir20175072), which is associated with this data release. The model consists of a parent and a child model and must be run using MODFLOW-LGR. The child model is far removed from the area considered for this project, but is being kept with the model so that one model version exists of the Great Basin carbonate and alluvial aquifer system that incorporates all refinements and improvements. The model files documented in this report should be used instead of previous versions. The model described for this project in https://doi.org/10.3133/sir20175072 is transient, but transient stresses occur only in or near Parowan Valley, Utah. Elsewhere, recharge is the same for every stress period. Outside of Parowan Valley, Utah, withdrawals are zero (pre-development) in the parent model and constant for each stress period in the child model. Storage properties should be considered calibrated only in Parowan Valley, Utah. Recalibration from previous versions is limited to the area described in https://doi.org/10.3133/sir20175072. The model files consist of a calibration period of 73.75 years starting on March 1, 1940 and a projection period of 5,000 years. The projection period is hypothetical, but because it starts with conditions at the end of the transient simulation, it is considered to start on Dec. 1, 2013. The child model is not modified in this version other than to make it transient for calibration and projection simulations. No recalibration or changes during the projection simulation were made in the child model; each stress period has the same stresses as the steady-state stress period (SIR 2017–5011, https://doi.org/10.3133/sir20175011). The model input and output in this archive is for running the parent and child model simultaneously. It is possible to separate the models after the initial run; the user is referred to https://water.usgs.gov/ogw/modflow-lgr/ for more details about this option. Support is provided for correcting errors in the data release and clarification of the modeling conducted by the U.S. Geological Survey. Users are encouraged to review the model documentation report (https://doi.org/10.3133/sir20175072) to understand the purpose, construction, and limitations of this model. =================================================================================================== Reconstructing the model archive from the online data release: This data release is available from: https://doi.org/10.5066/F76T0JW1 The models will run successfully only if the original model archive directory structure is correctly restored (see structure below). The data release is broken into several pieces to reduce the likelihood of download timeouts. Small files (README.txt and modelgeoref.txt) are available as uncompressed files. Most other files are zipped at the first subdirectory level. The output directory is too large for one zip file, so each subdirectory in the output directory is a separate zip file. Most zip files should be downloaded to the same directory as the README.txt and modelgeoref.txt were downloaded to. Getting the correct structure depends on the program used to unzip the files. Using the standard Windows "extract all" command, the name of the last folder in the default path needs to be deleted. Using 7-zip, either "extract here" or "extract files" with the option to "eliminate duplication of root folder" can be used. For example, the files in the "georef" subdirectory are zipped into a zip file named "georef.zip". These files should be unzipped and placed into a subdirectory named "georef", but not into georef\georef. All zip files starting with "bin" should be unzipped and placed within a subdirectory named "bin" created at the same level as the "georef" subdirectory. Similarly, all zip files starting with "ancillary", "model", "output", and "source" should be unzipped and placed within an "ancillary", "model", "output", and "source" subdirectory, respectively, created at the same level as the "georef" and "bin" subdirectories. For the output files, a subdirectory named output must first be created at the same level as "model", "source", etc. The zip files for the output, should be downloaded to that "output" subdirectory and then unzipped as explained above. The directory structure of the original model archive is: SIR2017-5072 \ancillary \bin \georef \model \externalfiles \GBCAASv3parentCalib \GBCAASv3parentCalibZonebud \GBCAASv3parentProjection \GBCAASv3parentProjectionZonebud \HA273UTchildCalib \HA273UTchildCalibZonebud \HA273UTchildProjection \LGR_Calib \LGR_Projection \UCODE \output \output.GBCAASv3parentCalib \output.GBCAASv3parentCalibZonebud \output.GBCAASv3parentProjection \output.GBCAASv3parentProjectionZonebud \output.HA273UTchildCalib \output.HA273UTchildCalibZonebud \output.HA273UTchildProjection \output.UCODE \source This directory structure needs to be followed in order for the model(s) to run correctly. =================================================================================================== System requirements: The models contained in this data release were run successfully on computers running the following Windows operating systems (OS) -Dell laptop running Windows 7 Enterprise (Copyright 2009) with Service Pack 1 installed; the Dell laptop had an Intel(R) Core(TM) i5-3320M CPU @ 2.60 GHz with 8GB RAM and a 64-bit operating system =================================================================================================== Running the model(s): The calibration model can be run by double clicking on the 'GBCAASv3.bat' file in the model/LGR_Calib subdirectory. This will bring up a command prompt window which will record the simulation progress. Once the simulation has finished running, press any key to exit and close the command prompt window. The projection model can be run by double clicking on the 'GBCAASv3project.bat' file in the model/LGR_Projection subdirectory. The output from the simulations is created and saved in the appropriate output subdirectory. For example, the model results for the parent model for the calibration simulation are saved to the output\output.GBCAASv3parentCalib subdirectory. The model results for the child model for the calibration simulation are saved to the output\output.HA273UTchildCalib subdirectory. Similar naming applies to the projection simulation. Running the model will overwrite the files in the output directory. NOTE 1: The models must be run using the same directory structure as the original model archive (see instructions above). NOTE 2: The files in the model\externalfiles subdirectory are required to run the models. NOTE 3: Model results in the output subdirectory will be overwritten each time the model is run. NOTE 4: Model results in this data release can be post-processed using user-preferred post-processing utilities. NOTE 5: In all versions of the GBCAAS model, some cells with evapotranspiration from groundwater (ETg) simulated as drains have the drain altitude below the bottom of layer 1. This is mostly caused the large grid size and steep topography. Most of the cells where this occurs are at the edges of valleys. The land surface at the center of each ETg area in each cell was used as the ETg surface, and the extinction depth (drain altitude) is set at 10 or 40 feet below that. The bottom of layer 1 was typically determined as a set distance below the simulated water level, and may be much higher than the land surface at the low point of the cell. Some pre-processors (such as USGS ModelMuse, USGS FloPy and possibly others) flag this as an error. MODFLOW-LGR, however, does not consider this an error and in the model simulations, the drain cells function correctly with water being discharged from layer 1. The UCODE directory is not needed to run the calibration or projection models, but is needed if simulated equivalents to observations of evapotranspiration of groundwater (ETg) are desired. MODFLOW-LGR does not provide model output of simulated equivalents of ETg. =================================================================================================== Subdirectory and file descriptions README.txt -- Documents the structure, directories and files, and instructions on how to run the model(s)for this data release. modelgeoref.txt -- ASCII file containing latitude and longitude coordinates of the four corners of the model domain. \ancillary(.zip)-- This subdirectory contains ancillary files that may aid in the construction of the model in pre-processors \HA273UTgrid --------- Shapefile of the HA273UTchild grid including geology, layering, zones, and multipliers \HA273UTgridZonebud -- Shapefile of the HA273UTchild grid including zones for hydrographic areas used in ZONEBUDGET \parentGrid ---------- Shapefile of the GBCAASv3parent grid including geology, layering, zones, and multipliers \parentGridZonebud --- Shapefile of the GBCAASv3parent grid including zones for hydrographic areas and evapotranspiration used in ZONEBUDGET \bin(.zip) -- This subdirectory contains the compiled executable codes used to run all models documented in the report (https://doi.org/10.3133/sir20175072). hydfmt.exe -------------- Compiled executable code for HYDFMT to format the binary output from HYDMOD. From MODFLOW-2005 (v. 1.11). linear_uncertainty.exe -- Compiled executable UCODE_2014 (v. 1.004) post-processing code to determine linear uncertainty of predictions. In this case, the predictions are the simulated flows between hydrographic areas. mflgr_dlb.exe ----------- Compiled executable code for double precision MODFLOW-LGR (modified from v. 2.0) ucode_2014.exe ---------- Compiled executable code for UCODE_2014 (v. 1.004) zonbud.exe -------------- Compiled executable code for ZONEBUDGET (v. 3.01) \georef(.zip) -- This subdirectory contains a shapefile defining the extent of the model domain and active and inactive areas of the model grid documented in the report (https://doi.org/10.3133/sir20175072). \model(.zip) -- This subdirectory contains all of the input files for all simulations documented in the report (https://doi.org/10.3133/sir20175072). \externalfiles -- This subdirectory contains the MODFLOW-LGR and ZONEBUDGET input files common to calibration and projection simulations gbcaasv3parent.bas6 --- MODFLOW-LGR Basic package input file for the parent model gbcaasv3parent.gmg ---- MODFLOW-LGR GMG Liner Equation Solver Package input file for the parent model gbcaasv3parent.hfb ---- MODFLOW-LGR Horizontal-Flow Barrier Package input file for the parent model gbcaasv3parent.huf ---- MODFLOW-LGR Hydrogeologic-Unit Flow Package input file for the parent model gbcaasv3parent.hyd ---- MODFLOW-LGR Hydmod input file for the parent model gbcaasv3parent.mlt ---- MODFLOW-LGR Multiplier file for the parent model gbcaasv3parent.zon ---- MODFLOW-LGR Zone file for the parent model gbcaasv3parentET.zne -- ZONEBUDGET zone file for the parent model for evaporation (ET) areas. Used to develop observations for UCODE-2014. gbcaasv3parentHA.zne -- ZONEBUDGET zone file for the parent model for hydrographic areas (HAs). Used to develop predictions for UCODE-2014. HA273UTchild.bas6 ----- MODFLOW-LGR Basic package input file for the HA273UTchild model HA273UTchild.gmg ------ MODFLOW-LGR GMG Liner Equation Solver Package input file for the HA273UTchild model HA273UTchild.hfb ------ MODFLOW-LGR Horizontal-Flow Barrier Package input file for the HA273UTchild model HA273UTchild.huf ------ MODFLOW-LGR Hydrogeologic-Unit Flow Package input file for the HA273UTchild model HA273UTchild.mlt ------ MODFLOW-LGR Multiplier file for the HA273UTchild model HA273UTchild.zon ------ MODFLOW-LGR Zone file for the HA273UTchild model \GBCAASv3parentCalib -- This subdirectory contains the MODFLOW-LGR input files for the parent model for the calibration simulation gbcaasv3parent.chd ---------- MODFLOW-LGR Time-Variant Specified Head Package input file gbcaasv3parent.dis ---------- MODFLOW-LGR Discretization file gbcaasv3parent.drn ---------- MODFLOW-LGR Drain Package input file gbcaasv3parent.evt ---------- MODFLOW-LGR Evapotranspiration Package input file gbcaasv3parent.nam ---------- MODFLOW-LGR Name file; this is the file that MODFLOW-LGR reads to determine input and output files. gbcaasv3parent.obc ---------- MODFLOW-LGR Specified-Head Flow Observation Package input file gbcaasv3parent.obd ---------- MODFLOW-LGR Drain Observation Package input file gbcaasv3parent.obh ---------- MODFLOW-LGR Head-Observation Package input file gbcaasv3parent.obr ---------- MODFLOW-LGR River Observation Package input file gbcaasv3parent.oc ----------- MODFLOW-LGR Output Control file gbcaasv3parent.rch ---------- MODFLOW-LGR Recharge Package input file gbcaasv3parent.riv ---------- MODFLOW-LGR River Package input file gbcaasv3parent.wel ---------- MODFLOW-LGR Well Package input file heads_start_GBCAASv3parent -- Binary starting heads file read by MODFLOW-LGR hydfmtCalib.bat ------------- Batch file to run HYDFMT hydfmtCalib.rsp ------------ Response file for HYDFMT usgs.model.reference -------- ASCII file containing data to register the model in space and time \GBCAASv3parentCalibZonebud -- This subdirectory contains the ZONEBUDGET input files for the parent model for the calibration simulation zonebudgetGBCAASv3parentET.bat -- batch file to run zonebudget using the budget data from the calibration parent model to determine discharge to evapotranspiration of groundwater (ETg)for each area. Used to develop model simulated equivalents to observations of ETg. zonebudgetGBCAASv3parentET.in --- input file to run zonebudget using the budget data from the calibration parent model to determine discharge to evapotranspiration of groundwater (ETg)for each area. Used to develop model simulated equivalents to observations of ETg. zonebudgetGBCAASv3parentHA.bat -- Batch file to run zonebudget using the budget data from the calibration parent model to determine interflow between hydrographic areas. Used to develop model simulated equivalents of UCODE predictions to interflow. zonebudgetGBCAASv3parentHA.in --- input file to run zonebudget using the budget data from the calibration parent model to determine interflow between hydrographic areas. Used to develop model simulated equivalents of UCODE predictions to interflow. \GBCAASv3parentProjection -- This subdirectory contains the MODFLOW-LGR input files for the parent model for the projection simulation gbcaasv3project.chd ---------- MODFLOW-LGR Time-Variant Specified Head Package input file gbcaasv3project.dis ---------- MODFLOW-LGR Discretization file gbcaasv3project.drn ---------- MODFLOW-LGR Drain Package input file gbcaasv3project.evt ---------- MODFLOW-LGR Evapotranspiration Package input file gbcaasv3project.nam ---------- MODFLOW-LGR Name file; this is the file that MODFLOW-LGR reads to determine input and output files. gbcaasv3project.obd ---------- MODFLOW-LGR Drain Observation Package input file gbcaasv3project.obr ---------- MODFLOW-LGR River Observation Package input file gbcaasv3project.oc ----------- MODFLOW-LGR Output Control file gbcaasv3project.rch ---------- MODFLOW-LGR Recharge Package input file gbcaasv3project.riv ---------- MODFLOW-LGR River Package input file gbcaasv3project.wel ---------- MODFLOW-LGR Well Package input file heads_start_GBCAASv3project -- Binary starting heads file read by MODFLOW-LGR hydfmtProjection.bat --------- Batch file to run HYDFMT hyddfmtProjection.rsp -------- Response file for HYDFMT usgs.model.reference -- ASCII file containing data to register the model in space and time \GBCAASv3parentProjectionZonebud -- This subdirectory contains the ZONEBUDGET input files for the parent model for the projection simulation zonebudgetGBCAASv3projectET.bat -- batch file to run zonebudget using the budget data from the projection parent model to determine discharge to evapotranspiration of groundwater (ETg)for each area. Used to develop model simulated equivalents to observations of ETg. zonebudgetGBCAASv3projectET.in --- input file to run zonebudget using the budget data from the projection parent model to determine discharge to evapotranspiration of groundwater (ETg)for each area. Used to develop model simulated equivalents to observations of ETg. zonebudgetGBCAASv3projectHA.bat -- batch file to run zonebudget using the budget data from the projection parent model to determine interflow between hydrographic areas. zonebudgetGBCAASv3projectHA.in --- input file to run zonebudget using the budget data from the projection parent model to determine interflow between hydrographic areas. \HA273UTchildCalib -- This subdirectory contains the MODFLOW-LGR input files for the HA273UTchild model for the calibration simulation HA273UTchild.dis --------- MODFLOW-LGR Discretization file HA273UTchild.drn --------- MODFLOW-LGR Drain Package input file HA273UTchild.nam --------- MODFLOW-LGR Name file; this is the file that MODFLOW-LGR reads to determine input and output files. HA273UTchild.obd --------- MODFLOW-LGR Drain Observation Package input file HA273UTchild.obh --------- MODFLOW-LGR Head-Observation Package input file HA273UTchild.obr --------- MODFLOW-LGR River Observation Package input file HA273UTchild.oc ---------- MODFLOW-LGR Output Control file HA273UTchild.rch --------- MODFLOW-LGR Recharge Package input file HA273UTchild.riv --------- MODFLOW-LGR River Package input file HA273UTchild.wel --------- MODFLOW-LGR Well Package input file heads_start_HA273UTchild-- Binary starting heads file read by MODFLOW-LGR usgs.model.reference -- ASCII file containing data to register the model in space and time \HA273UTchildCalibZonebud -- This subdirectory contains the ZONEBUDGET input files for the child model for the calibration simulation HA273UTchildHA.zne ------------ ZONEBUDGET zone file for the child model for hydrographic areas (HAs). Used to develop predictions for UCODE-2014. zonebudgetHA273UTchildHA.bat -- batch file to run zonebudget using the budget data from the calibration child model to determine interflow between hydrographic areas. Used to develop model simulated equivalents of UCODE predictions to interflow. zonebudgetHA273UTchildHA.in --- input file to run zonebudget using the budget data from the calibration child model to determine interflow between hydrographic areas. Used to develop model simulated equivalents of UCODE predictions to interflow. \HA273UTchildProjection -- This subdirectory contains the MODFLOW-LGR input files for the HA273UTchild model for the projection simulation HA273UTproject.dis --------- MODFLOW-LGR Discretization file HA273UTproject.drn --------- MODFLOW-LGR Drain Package input file HA273UTproject.nam --------- MODFLOW-LGR Name file; this is the file that MODFLOW-LGR reads to determine input and output files. HA273UTproject.obd --------- MODFLOW-LGR Drain Observation Package input file HA273UTproject.obh --------- MODFLOW-LGR Head-Observation Package input file HA273UTproject.obr --------- MODFLOW-LGR River Observation Package input file HA273UTproject.oc ---------- MODFLOW-LGR Output Control file HA273UTproject.rch --------- MODFLOW-LGR Recharge Package input file HA273UTproject.riv --------- MODFLOW-LGR River Package input file HA273UTproject.wel --------- MODFLOW-LGR Well Package input file heads_start_HA273UTproject-- Binary starting heads file read by MODFLOW-LGR usgs.model.reference ------- ASCII file containing data to register the model in space and time \LGR_Calib -- This subdirectory contains the MODFLOW-LGR files to run the calibration model GBCAASv3.bat ---------- Batch file for running MODFLOW-LGR. Double clicking this will run the calibration model. GBCAASv3.lgr ---------- MODFLOW-LGR control file. Points to the parent and child name files and controls how the models are linked. \LGR_Projection -- This subdirectory contains the MODFLOW-LGR files to run the projection model GBCAASv3project.bat --- Batch file for running MODFLOW-LGR. Double clicking this will run the projection model. GBCAASv3project.lgr --- MODFLOW-LGR control file. Points to the parent and child name files and controls how the models are linked. \UCODE -- This subdirectory contains the UCODE_2014 input files for calibration model. UCODE_2014 is not used for the projection model. derivedGBCAASv2.obs -- Observations derived for sections of the Malad and Bear Rivers that have simulated discharge using the River Package and the Drain Package. Observation derived for evapotranspiration from groundwater in Cache Valley (Hydrographic Area 272), which includes discharge in both the child and parent models using the Drain Package. Not changed since model documented in SIR 2017–5011 (https://doi.org/10.3133/sir20175011). No new derived observations are used for GBCAAS v. 3.0. GBCAASv3_HAzones.bat ------ Batch file called to run MODFLOW-LGR in prediction mode (using "predictHA_ucode.bat" in this subdirectory) to determine prediction sensitivities for interflow between hydrographic areas. This is not needed for calibration, but is needed to create table 9 in the model documentation report (https://doi.org/10.3133/sir20175072). This batch file calls a python script (in the "source" directory) and will not run unless Python (including Numpy) is installed. Because it is not needed for model calibration or projection simulations, most users will not want to run this batch file. GBCAASv3calib.bat --------- Batch file called to run MODFLOW-LGR within UCODE for the calibration model HAinterflow.inst ---------- UCODE instruction file for reading simulated equivalents of predictions (file "HAinterflow.pred") from file "NetHAflow.csv". Requires "..\..\source\readZonebudgetNetHAflow.py" as called in "GBCAASv3_HAzones.bat" in this subdirectory. HAinterflow.pred ---------- Predictions for net flow between 165 hydrographic areas. The "prediction" is the simulated value, not an observed value. Used by "predictHA_ucode.in" (in this subdirectory) to create files that can be used to get the confidence intervals listed in table 9 in the model documentation report (https://doi.org/10.3133/sir20175072). LinUncert.bat ------------- Batch file to run Linear Uncertainty program provided with UCODE LinPriorInf.txt ----------- Linear priority information for 16 parameters NetHAflow.csv ------------- Net interflow between hydrographic areas determined by using ZONEBUDGET and "../../source/ReadZonebudgetNetHAflow.py". This is both input and output, but is included only in the input directory. predictHA_ucode.bat ------- Batch file to run UCODE in prediction mode for the flow between hydrographic areas (HAs) predictHA_ucode.in -------- UCODE_2014 input file to run prediction sensitivities on the flow between hydrographic areas (HAs) ucode.derpar -------------- Derived parameters to use with UCODE. Four parameters are derived from other parameters. ucode.par ----------------- UCODE_2014 parameter file ucodeET.inst -------------- UCODE_2014 instruction file for discharge from evapotranspiration. Requires running ZONEBUDGET as called in the "GBCAASv3calib.bat" file in this subdirectory. ucodeGBCAASv3.bat---------- Batch file to run UCODE with observations for calibration model ucodeGBCAASv3.in ---------- Input file to run UCODE with observations for calibration model. As archived, regression is not performed and no sensitivities are calculated, but residuals, weighted residuals, and other statistics are determined and output. The file can be changed to calculate sensitivities and to perform regression. ucodeGBCAASv3parent.inst -- UCODE_2014 instruction file for calibration observations from MODFLOW-LGR in the parent model ucodeGBCAASv3parent.obs --- UCODE_2014 observation file for calibration observations in the parent model ucodeGBCAASv3parent.pvl --- The file UCODE writes to supply parameter data to MODFLOW-LGR for the parent model. This file is both input and output. It is created by UCODE_2014 and used by MODFLOW-LGR. It will get overwritten every time UCODE_2014 is run and for every sensitivity or prediction simulation. ucodeGBCAAsv3parent.tpl --- UCODE_2014 template file for parameters in the parent model ucodeHA273UTchild.inst ---- UCODE_2014 instruction file for calibration observations in the child model ucodeHA273UTchild.obs ----- UCODE observation file for calibrations observations in the child model ucodeHA273UTchild.pvl ----- The file UCODE writes to supply parameter data to MODFLOW-LGR for the child model. This file is both input and output. It is created by UCODE_2014 and used by MODFLOW-LGR. It will get overwritten every time UCODE_2014 is run and for every sensitivity or prediction simulation. ucodeHA273UTchild.tpl ----- UCODE_2014 template file for parameters in the child model usgs.model.reference ------ ASCII file containing data to register the model in space and time \output(.zip) -- This subdirectory contains all of the model output files for the calibration and projection simulations documented in the report (https://doi.org/10.3133/sir20175072). \output.GBCAASv3parentCalib -- This subdirectory contains all of the MODFLOW-LGR output files for the parent model for the calibration simulation budget_GBCAASv3parent ------ Unformatted cell-by-cell flow budget for the parent model. Stored in COMPACT format. drawdown_GBCAASv3parent ---- Unformatted drawdown for the parent model fluxBFH2GBCAASv3parent ----- MODFLOW-LGR output showing flux between the parent and child model at child cell. Positive number indicates flow into the parent model. GBCAASv3parent.hyo --------- Unformatted output from the HYDMOD package of MODFLOW-LGR GBCAASv3parent.lst --------- Main listing file for the parent model. This files lists input data, convergence data, heads, budgets, residuals. GBCAASv3parentMF._os ------- Simulated equivalents for MODFLOW-LGR observations. Includes simulated equivalent, observed value, and observation name. gmg_output_gbcaasv3parent -- Output from the GMG solver heads_GBCAASv3parent ------- Unformatted heads headsBFH2GBCCASv3parent ---- Heads in parent model cells adjacent to the child model hydroCalib.gwh ------------- Formatted output from HYDFMT \output.GBCAASv3parentCalibZonebud -- This subdirectory contains all of the output from ZONEBUDGET for the calibration parent model. GBCAASv3parentET.2.csv -- Comma-delimited output file from ZONEBUDGET listed by zone for each areas simulated by using the Evapotranspiration package in MODFLOW-LGR. GBCAASv3parentET.csv ---- Comma-delimited output file from ZONEBUDGET listed by budget component for each areas simulated by using the Evapotranspiration package in MODFLOW-LGR. Used by UCODE_2014 to evaluate simulated equivalents to observations of evapotranspiration of groundwater. GBCAASv3parentET.log ---- Main output listing from ZONEBUDGET for the simulated groundwater regions. GBCAASv3parentHA.2.csv -- Comma-delimited output file from ZONEBUDGET listed by zone for the hydrographic areas GBCAASv3parentHA.csv ---- Comma-delimited output file from ZONEBUDGET listed by budget component for the hydrographic areas GBCAASv3parentHA.zlog --- Log from ZONEBUDGET for the hydrographic areas. \output.GBCAASv3parentProjection -- This subdirectory contains all of the MODFLOW-LGR output files for the parent model for the projection simulation budget_GBCAASv3project ------ Unformatted cell-by-cell flow budget for the parent model. Stored in COMPACT format. drawdown_GBCAASv3project ---- Unformatted drawdown for the parent model fluxBFH2GBCAASv3project ----- MODFLOW-LGR output showing flux between the parent and child model at child cell. Positive number indicates flow into the parent model. GBCAASv3project.hyo --------- Unformatted output from the HYDMOD package of MODFLOW-LGR GBCAASv3project.lst --------- Main listing file for the parent model. This files lists input data, convergence data, heads, budgets, residuals. GBCAASv3projectMF._os ------- Simulated equivalents for MODFLOW-LGR observations. Includes simulated equivalent, observed value, and observation name. gmg_output_gbcaasv3project -- Output from the GMG solver heads_GBCAASv3project ------- Unformatted heads headsBFH2GBCCASv3project ---- Heads in parent model cells adjacent to the child model hydroProjection.gwh --------- Formatted output from HYDFMT \output.GBCAASv3parentProjectionZonebud -- This subdirectory contains all of the output from ZONEBUDGET for the projection parent model. GBCAASv3projectET.2.csv -- Comma-delimited output file from ZONEBUDGET listed by zone for each areas simulated by using the Evapotranspiration package in MODFLOW-LGR. GBCAASv3projectET.csv ---- Comma-delimited output file from ZONEBUDGET listed by budget component for each areas simulated by using the Evapotranspiration package in MODFLOW-LGR. Used by UCODE_2014 to evaluate simulated equivalents to observations of evapotranspiration of groundwater. GBCAASv3projectET.log ---- Main output listing from ZONEBUDGET for the simulated groundwater regions. GBCAASv3projectHA.2.csv -- Comma-delimited output file from ZONEBUDGET listed by zone for the hydrographic areas GBCAASv3projectHA.csv ---- Comma-delimited output file from ZONEBUDGET listed by budget component for the hydrographic areas GBCAASv3projectHA.log --- Log from ZONEBUDGET for the hydrographic areas. \output.HA273UTchildCalib -- This subdirectory contains all of the MODFLOW-LGR output files for the child model for the calibration simulation. budget_HA273UTchild ------ Unformatted cell-by-cell flow budget for the child model. Stored in COMPACT format. drawdown_HA273UTchild ---- Unformatted drawdown for the child model fluxBFH2HA273UTchild ----- MODFLOW-LGR output showing flux between the parent and child model at child cell. Positive number indicates flow into the child model. gmg_output_HA273UTchild -- Output from the GMG solver HA273UTchild.lst --------- Main listing file for the child model. This files lists input data, convergence data, heads, budgets, residuals. HA273UTchildMF._os ------- Simulated equivalents for MODFLOW-LGR observations. Includes simulated equivalent, observed value, and observation name. heads_HA273UTchild ------- Unformatted heads headsBFH2HA273UTchild ---- Heads in child model cells adjacent to the parent model \output.HA273UTchildCalibZonebud -- This subdirectory contains all of the output from ZONEBUDGET for the calibration child model. HA273UTchildHA.2.csv -- Comma-delimited output file from ZONEBUDGET listed by zone for the hydrographic areas HA273UTchildHA.csv ---- Comma-delimited output file from ZONEBUDGET listed by budget component for the hydrographic areas HA273UTchildHA.zblst -- Listing file from ZONEBUDGET for the hydrographic areas. \output.HA273UTchildProjection -- This subdirectory contains all of the MODFLOW-LGR output files for the child model for the projection simulation. budget_HA273UTproject ------ Unformatted cell-by-cell flow budget for the child model. Stored in COMPACT format. drawdown_HA273UTproject ---- Unformatted drawdown for the child model fluxBFH2HA273UTproject ----- MODFLOW-LGR output showing flux between the parent and child model at child cell. Positive number indicates flow into the child model. gmg_output_HA273UTproject -- Output from the GMG solver HA273UTproject.lst --------- Main listing file for the child model. This files lists input data, convergence data, heads, budgets, residuals. heads_HA273UTproject ------- Unformatted heads headsBFH2HA273UTproject ---- Heads in child model cells adjacent to the parent model \output.UCODE -- This subdirectory contains the UCODE_2014 output files for calibration model. UCODE_2014 is not used for the projection model. GBCAASv3.#linunc --------- Output from linear_uncertainty.exe for predictions of flow between hydrographic areas GBCAASv3.#uout ----------- Main output file from UCODE_2014 for calibration model GBCAASv3.#upred ---------- Main output file from UCODE_2014 for predictions of flow between hydrographic areas GBCAASv3._b1 ------------- Parameter sets for calculating Beale’s measure of linearity GBCAASv3._dm ------------- Information related to model structure, fit, and parsimony GBCAASv3._dm_presvd ------ Copy of _dm based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._dmp ------------ Information about predictions GBCAASv3._gm ------------- Defines observation groups GBCAASv3._gmp ------------ Defines prediction groups GBCAASv3._linp ----------- Predictions and their linear confidence intervals GBCAASv3._mc ------------- Parameter correlation coefficient matrix GBCAASv3._mc_presvd ------ Copy of _mc based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._mv ------------- Parameter variance-covariance matrix GBCAASv3._mv_presvd ------ Copy of _mv based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._nm ------------- Weighted residuals and probability plotting positions GBCAASv3._os ------------- Unweighted simulated equivalents and observed or prior values GBCAASv3._p -------------- Predictions GBCAASv3._pa ------------- Value of each parameter at each iteration GBCAASv3._paopt ---------- Optimal value of all defined parameters. GBCAASv3._paopt_presvd --- Copy of _paopt based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._pasub ---------- All parameter values formatted to substitute in as .par file GBCAASv3._pc - ------------Optimal parameter values, confidence interval, standard deviation and other statistics GBCAASv3._pcc ------------ Large parameter correlation coefficients (>=0.85) GBCAASv3._pr ------------- Prior information equations GBCAASv3._pv ------------- Prediction variances GBCAASv3._r -------------- Unweighted residuals for observations and prior information GBCAASv3._s1 ------------- One-percent scaled sensitivities GBCAASv3._sc ------------- Composite scaled sensitivity for each parameter GBCAASv3._sc_svd --------- Decomposition of the composite scaled sensitivities GBCAASv3._sc_svd_presvd -- Copy of _sc_svd based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._scgrp ---------- Composited scaled sensitivity for each parameter for each observation group GBCAASv3._sd ------------- Dimensionless scaled sensitivities for each observation and each parameter GBCAASv3._so ------------- Sensitivity summary by observation, including leverage GBCAASv3._sppp ----------- Prediction sensitivity scaled by parameter value/prediction value GBCAASv3._sppr ----------- Prediction sensitivity scaled by parameter value/reference value GBCAASv3._spsp ----------- Prediction sensitivity scaled by parameter standard deviation/prediction value GBCAASv3._spsr ----------- Prediction sensitivity scaled by parameter standard deviation/reference value GBCAASv3._spu ------------ Unscaled sensitivities for predictions GBCAASv3._ss ------------- Listing of sum of squared weighted residuals for each iteration GBCAASv3._su ------------- Unscaled sensitivities for observations GBCAASv3._su_presvd ------ Copy of _su based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._supri ---------- Unscaled sensitivities for prior information GBCAASv3._supri_presvd --- Copy of _supri based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._svd ------------ Singular values and vectors GBCAASv3._svd_presvd ----- Copy of _svd based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._svd-id --------- SVD-ID statistics for a range of SVD number GBCAASv3._svd-id_presvd -- Copy of _svd-id based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._w -------------- Weighted residuals for observations and prior information GBCAASv3._w_presvd ------- Copy of _w based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._ws ------------- Simulated equivalents and weighted residuals for observations and prior information. GBCAASv3._wt ------------- Weights for observations. GBCAASv3._wt_presvd ------ Copy of _wt based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._wtpri ---------- Weighting for prior information. GBCAASv3._wtpri_presvd --- Copy of _wtpri based on parameters used to start SVD. SVD was not used in this calibration. GBCAASv3._ww ------------- Weighted simulated equivalents and weighted observations for observations and prior information. \source(.zip) -- This subdirectory contains model source codes for programs used in this data release. \MF2005.1_11 ---------------- MODFLOW-2005 version 1.11. This is needed because MODFLOW-LGR does not include HYDFMT to format the files put out by the HYDMOD package. \mflgr.2_0 ------------------ MODFLOW-LGR version 2.0. The files in here are different from the files currently (as of 03/28/2017) available from the USGS web page. See the "README_mustUseThisVersion.txt" file for more information. \ucode_2014_1.004 ----------- UCODE_2014 version 1.004 \Zonbud.3_01 ---------------- ZONEBUDGET version 3.01 ReadZonebudgetNetHAflow.py -- Script written by Lynette Brooks, USGS Utah Water Science Center. Only needed if running UCODE_2014 for the prediction statistics for interflow between hydrographic areas. The script reads output from ZONEBUDGET and formats it in a way that can be read by UCODE_2014.