GMS (Groundwater Modeling System) is water modeling application for building and simulating groundwater models from Aquaveo. It features 2D and 3D geostatistics, stratigraphic modeling and a unique conceptual model approach. Currently supported models include MODFLOW, MODPATH, MT3DMS, RT3D, FEMWATER, SEEP2D, and UTEXAS.
 | |
| Developer(s) | Aquaveo |
|---|---|
| Stable release | 10.7
/ November 2022 |
| Operating system | Microsoft Windows |
| Type | Hydrogeology software |
| License | Proprietary |
| Website | Official website |
Version 6 introduced the use of XMDF (eXtensible Model Data Format), which is a compatible extension of HDF5. The purpose of this Is to allow internal storage and management of data in a single HDF file, rather than using many flat files.
History
editGMS was initially developed in the late 1980s and early 1990s on Unix workstations by the Engineering Computer Graphics Laboratory[1][2] at Brigham Young University. The development of GMS was funded primarily by The United States Army Corps of Engineers and was known until version 4.0, released in late 1999,[3] as the Department of Defense Groundwater Modeling System, or DoD GMS. It was ported to Microsoft Windows in the mid 1990s. Version 3.1 was the last version that supported HP-UX, IRIX, OSF/1, and Solaris platforms.[4][5] Development of GMS, along with development of WMS and SMS, was transferred to Aquaveo when it was formed in April 2007.[6]
A study published in the Journal of Agricultural and Applied Economics in August 2000 stated that "GMS provides an interface to the groundwater flow model, MODFLOW, and the contaminant transport model, MT3D. MODFLOW is a three-dimensional, cell-centered, finite-difference, saturated-flow model capable of both steady-state and transient analyses. These two models, when put together, provide a comprehensive tool for examining groundwater flow and nitrate transport and accumulation".[7] The study was designed to help develop a "permit scheme to effectively manage nitrate pollution of groundwater supplies for communities in rural areas without hindering agricultural production in watersheds".[7]
Version history
edit| Legend: | Old version, not maintained | Old version, still maintained | Current stable version |
|---|
| Date Released | Name | Version | Comments | References |
|---|---|---|---|---|
| December 1994 | Department of Defense Groundwater Modeling System | 1.0 | Supported meshes, grids, geostats, MODFLOW (MODFLOW 88), and FEMWATER | [8] |
| March 1995 | Department of Defense Groundwater Modeling System | 1.1 | Support added for MT3D | [8] |
| August 1995 | Department of Defense Groundwater Modeling System | 1.2 | [8] | |
| June 1996 | Department of Defense Groundwater Modeling System | 2.0 | Map module added, support added for conceptual modeling, MODPATH, and updates for FEMWATER | [8] |
| March 1998 | Department of Defense Groundwater Modeling System | 2.1 | Support added for SEEP2D and RT3D | [8] |
| September 1999 | Department of Defense Groundwater Modeling System | 3.0 | Support added for SEAM3D | [8] |
| September 2000 | Department of Defense Groundwater Modeling System | 3.1 | Standard Windows icons added to the GUI, support added for parameter estimation (PEST & UCODE), UTCHEM, MODFLOW-96, orthogonal view[broken anchor] | [8] |
| October 2002 | GMS | 4.0 | Project Explorer added to GUI, cross section editor added, support added for stochastic modeling, horizons, MODFLOW-000, and T-PROGS | [8] |
| January 2004 | GMS | 5.0 | Support added for MODAEM | [8] |
| GMS | 5.1 | Support added for GIS, conceptual model objects, and coverage attribute tables | [8] | |
| July 2005 | GMS | 6.0 | Support for OpenGL rendering, MODFLOW stored in files rather than in memory | [8] |
| December 2007 | GMS | 6.5 | First version released by Aquaveo. Support added for UTEXAS and HDF5 | [8] |
| August 2009 | GMS | 7.0 | Compatible with Windows Vista. Support export in Arc Hydro Groundwater (AHGW) format, updated MODFLOW support, added support for MODPATH 5, removed ART3D interface | [8] |
| February 2010 | GMS | 7.1 | Updated MODFLOW package and UTEXAS feature support, added Parallel PEST (including SVD and SVD-Assist with PEST), changed GMS logo | [8] |
| March 2011 | GMS | 8.0 | Added support for MODFLOW-2005 and SEAWAT, updated MODFLOW-2000, MT3DMS, and T-PROGS support, improved OpenGL speed and general GUI | [8] |
| September 2011 | GMS | 8.1 | 64-bit version of GMS released, improved speed of MODFLOW saving and importing, updated FEMWATER, annotations, and Global Mapper | [8] |
| February 2012 | GMS | 8.2 | Added support for ZONEBUDGET and MODFLOW NWT and DE4, major update to most models and libraries | [8] |
| July 2012 | GMS | 8.3 | Added feature allowing users to report bugs within GMS. | [8] |
| November 2012 | GMS | 9.0 | Current GMS logo released. | [8] |
| May 2013 | GMS | 9.1 | [8] | |
| November 2013 | GMS | 9.2 | [8] | |
| July 2014 | GMS | 10.0 | [8] | |
| February 2016 | GMS | 10.1 | [8] | |
| October 2016 | GMS | 10.2 | [8] | |
| August 2017 | GMS | 10.3 | [8] | |
| November 2018 | GMS | 10.4 | [8] | |
| November 2021 | GMS | 10.5 | [8] | |
| January 2022 | GMS | 10.6 | [8] | |
| November 2022 | GMS | 10.7 | [8] |
Reception
editThis section contains customer testimonies. (February 2024) |
A 2001 report prepared for the Iowa Comprehensive Petroleum Underground Storage Tank Fund Board stated that GMS was "a very user-friendly software package with strong technical support."[9] Raymond H. Johnson, a hydrogeologist with the US Geological Survey, called GMS 6.0 "a useful all around groundwater modeling package that offers the advantages of modular purchases, multiple model support, linkages to ArcGIS, conceptual model development, and integrated inversion routines."[10] A 2006 report from the Center for Nuclear Waste Regulatory Analyses in San Antonio, Texas called GMS "the most sophisticated groundwater modeling software available".[11]
References
edit- ^ Owen, Steven J.; Jones, Norman L.; Holland, Jeffery P. (September 1996). "A comprehensive modeling environment for the simulation of groundwater flow and transport" (PDF). Engineering with Computers. 12 (3–4): 235–242. doi:10.1007/BF01198737. S2CID 38170273. Archived from the original on March 6, 2018.
- ^ "Environmental Modeling Research Laboratory". Engineering Computer Graphics Laboratory at Brigham Young University. Archived from the original on April 21, 1999. Retrieved March 5, 2018.
- ^ "GMS 4.0". Scientific Software Group. Archived from the original on February 25, 2018. Retrieved March 5, 2018.
- ^ "System Requirements - GMS 3.1". EMSI. Archived from the original on December 8, 2000. Retrieved March 5, 2018.
- ^ "GMS 4.0". EMSI. Archived from the original on October 11, 2003. Retrieved March 5, 2018.
- ^ "The Environmental Modeling Research Laboratory". Brigham Young University. 3 May 2012. Archived from the original on 10 March 2016. Retrieved 9 September 2013.
- ^ a b Morgan, Cynthia L.; Coggins, Jay S.; Eidman, Vernon R. (August 2000). "Tradable Permits for Controlling Nitrates in Groundwater at the Farm Level: A Conceptual Model" (PDF). Journal of Agricultural and Applied Economics. 32 (2): 249–258. doi:10.1017/S1074070800020332. S2CID 51467977.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac "GMS:Version History". Aquaveo. August 8, 2017. Archived from the original on March 6, 2018. Retrieved March 5, 2018.
- ^ Zhang, You-Kuan; Seo, Byong-min; Lovanh, Nanh; Alvarez, Pedro J. J.; Heathcote, Richard (July 2001). "Evaluation of Computer Software Packages for RBCA Tier-3 Analysis" (PDF). AON Risk Services, Inc. and the Iowa Department of Natural Resources. p. 12. Archived (PDF) from the original on December 21, 2016. Retrieved March 6, 2018.
- ^ Johnson, Raymond H. (January 2007). "Groundwater Modeling System (GMS) 6.0". Integrated GroundWater Modeling Center at the Colorado School of Mines. Archived from the original on February 28, 2018. Retrieved March 6, 2018.
- ^ Buseman-Williams, Anna; Sun, Alexander Y. (July 2006). "Software Validation Test Plan and Report for Scientific and Engineering Software—Groundwater Modeling System (GMS) Version 6.0" (PDF). San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses. Retrieved March 6, 2018.