MODFLOW-2005 model used to estimate paleo-recharge volumes and project future water-level changes in Ash Meadows groundwater basin, southwest Nevada, based on Devils Hole paleo-water-table record
Dates
Release Date
2022-01-01
Start Date
1913-01-01
End Date
2020-01-01
Publication Date
2023-09-15
Citation
Jackson, T.R., 2022, MODFLOW-2005 model used to estimate paleo-recharge volumes and project future water-level changes in Ash Meadows groundwater basin, southwest Nevada, based on Devils Hole paleo-water-table record: U.S. Geological Survey data release, https://doi.org/10.5066/P98YZC5P.
Summary
This data release documents a modified version of the Death Valley version 3 steady-state (DV3-SS) model described in U.S. Geological Survey Professional Paper 1863 (https://doi.org/10.3133/pp1863). The DV3-SS model was modified by conversion into a superposition model with initial heads of 0 ft (0 m). Simulated water-level changes are relative to modern, predevelopment (pre-1950) conditions, where modern levels have a reference datum of 0 ft (0 m). The modified DV3-SS model is a three-dimensional, groundwater model (MODFLOW-2005) that was used to estimate paleo-recharge in the Ash Meadows groundwater basin, southwest Nevada, using the Devils Hole (cave 2) water-table record that spans the last 350,000 years. Two steady-state (paleo-recharge) [...]
Summary
This data release documents a modified version of the Death Valley version 3 steady-state (DV3-SS) model described in U.S. Geological Survey Professional Paper 1863 (https://doi.org/10.3133/pp1863). The DV3-SS model was modified by conversion into a superposition model with initial heads of 0 ft (0 m). Simulated water-level changes are relative to modern, predevelopment (pre-1950) conditions, where modern levels have a reference datum of 0 ft (0 m). The modified DV3-SS model is a three-dimensional, groundwater model (MODFLOW-2005) that was used to estimate paleo-recharge in the Ash Meadows groundwater basin, southwest Nevada, using the Devils Hole (cave 2) water-table record that spans the last 350,000 years. Two steady-state (paleo-recharge) scenarios were developed. Scenario 1 simulates paleo-recharge during peak glaciation when the Devils Hole water-table elevation was +31.2 ft (+9.5 m) above the modern level. Scenario 2 simulates the peak interglacial when the Devils Hole water-table elevation was below the modern level but above -5.25 ft (-1.6 m). Two transient (future recharge) scenarios were developed by running the modified DV3-SS model as a transient model. Transient scenarios 1 and 2 simulate 10 and 20 percent decreases in modern recharge, respectively. Transient scenarios are used to estimate future water-level declines in Devils Hole and the time period for equilibration to changes in future recharge. Input and output files for the paleo-recharge and future scenarios are in the model and output directories, respectively. The modified DV3-SS model and transient model used the calibrated hydraulic properties and recharge distribution from the original DV3-SS model (https://doi.org/10.3133/pp1863). The ancillary directory includes (1) 151 MODFLOW-2005 recharge files used to simulate 151 paleo-recharge scenarios (Appendix A); (2) batch files, executables, and post-processing utilities to sequentially run the 151 paleo-recharge scenarios and process results (Appendix B); and (3) a transient version of the modified DV3-SS model to determine the timescale for equilibration to steady-state conditions assuming modern recharge is reduced by 10 or 20 percent (Appendix C).
The modified DV3-SS groundwater model was developed to estimate paleo-recharge volumes in the Ash Meadows groundwater basin, southwest Nevada, using the Devils Hole (cave 2) water-table record that spans the last 350,000 years. The transient model was developed by converting the modified DV3-SS model into a transient model with minor modifications to the discretization file. The transient model was used to estimate the timescale for equilibration to steady-state conditions assuming modern recharge is reduced by 10 or 20 percent in future scenarios.
Preview Image
Image of the model domain and active area of the model.