Groundwater Levels in Northern Texas High Plains: Baseline for Existing Agricultural Management Practices
Vol. 4 No. 1 (2013): Special Issue on Groundwater. Cover photo: An artesian well, belonging to catfsh farmer Ronnie Pucek, in the Edwards Aquifer in 1993. © Peter Essick.
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Keywords

groundwater modeling
irrigation
MODFLOW
Ogallala Aquifer
water management

How to Cite

“Groundwater Levels in Northern Texas High Plains: Baseline for Existing Agricultural Management Practices”. 2013. Texas Water Journal 4 (1): 22-34. https://doi.org/10.21423/twj.v4i1.5356.

Abstract

New groundwater policies are being debated for the Northern Texas High Plains because of Ogallala Aquifer depletion. These policies should be evaluated using a calibrated groundwater model for assessing their impact on subsequent groundwater levels. The objective of this study was to calibrate and validate a regional groundwater model for predicting the impact of existing agricultural management practices on groundwater levels beneath 4 counties located in the Northern Texas High Plains. Results indicated that the MODFLOW-2000 groundwater model was calibrated and validated satisfactorily based on reproducing and comparing groundwater levels with coefficients of determination of 0.97 and 0.98, root mean square errors of 28.0 meters (91.9 feet) and 15.5 meters (50.9 feet). The model showed normalized root mean square errors of 6.9% and 4.3%, for calibration and validation, respectively. Analysis of prediction results indicated that 2 zones would become depleted if the current level of aquifer exploitation continues with no modification for the next 50 years. The calibrated model should assist water managers in evaluating alternative agricultural management policy scenarios.

Citation: Hernández JE, Gowda PH, Marek TH, Howell TA, Ha W. 2013. Groundwater Levels in Northern Texas High Plains: Baseline for Existing Agricultural Management Practices. Texas Water Journal. 4(1):22-34. Available from: https://doi.org/10.21423/twj.v4i1.5356.

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References

Amosson S, Almas L, Golden B, Guerrero B, Johnson J, Taylor R, Wheeler-Cook E. 2008. Economic impacts of selected water conservation policies in the Ogallala Aquifer. 50 p. Report to Ogallala Aquifer Program.

Bell AE, Morrison S. 1979. Analytical study of the Ogallala Aquifer in Carson County, Texas: projections of saturated thickness, volume of water in storage, pumpage rates, pumping lifts, and well yields. Austin (Texas): Texas Department of Water Resources. 64 p. Report 242.

Blandford TN, Blazer DJ, Calhoun KC, (Daniel B. Stephens & Associates, Inc.) Dutton AR, Naing T, Reedy RC, Scanlon BR (Bureau of Economic Geology). 2003. Groundwater availability of the Southern Ogallala Aquifer in Texas and New Mexico: numerical simulations through 2050 [Internet]. Austin (Texas): Texas Water Development Board; [cited 2008 June 13]. Final Report. 158 p. Available from: http://www.twdb.state.tx.us/groundwater/models/gam/ogll_s/OGLL_S_Full_Report.pdf

Brune G. 1975. Major and historical springs of Texas. Austin (Texas): Texas Water Development Board. 87 p. Report 189.

Claborn BJ, Austin TA, and Wells DM. 1970. Numerical model of the Ogallala as a management tool. In: Mattox RB, Millwe WD, editors. Ogallala Aquifer Symposium: 55 Texas Tech University. Lubbock (Texas): International Center for Arid and Semi-Arid Land Studies. p. 89–110. Special Report Number 39.

Dorman TM. 1996. The Texas High Plains Aquifer system—modeling and projections for the southern region. [thesis]. [Lubbock (Texas)]: Texas Tech University.

Dutton AR. 2004. Adjustments of parameters to improve calibration of the Og-n model of the Ogallala Aquifer. Panhandle water planning area. Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. Report prepared for Freese and Nichols, Inc., and Panhandle Water Planning Group.

Dutton AR, Reedy RC, Mace RE. 2001. Saturated thickness in the Ogallala Aquifer in the Panhandle water planning area–Simulation of 2000 through 2050 withdrawal projections. Panhandle regional planning commission. Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. Contract No: UTA01-462. Final report sponsored by the Panhandle Water Planning Group of the Panhandle Regional Planning Commission.

Dutton AR, Reedy RC, Mace RE. 2000. Saturated thickness in the Ogallala Aquifer in the Panhandle water planning area—Simulation of 2000 through 2050 withdrawal projections. Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. Contract No: UTA99-0230. Topical report sponsored by the Panhandle Water Planning Group of the Panhandle Regional Planning Commission.

Gurdak JJ, McMahon PB, Dennehy KF, Qi SL. 2009. Water quality in the High Plains aquifer, Colorado, Kansas, Nebraska, New Mexico, Oklahoma, South Dakota, Texas, and Wyoming, 1999-2004. Reston (Virginia): U.S. Geological Survey. USGS Circular 1337. 63 p.

Gutentag ED, Heimes FJ, Krothe NC, Luckey RR, Weeks JB. 1984. Geohydrology of the High Plains aquifer in parts of Colorado, Kansas, Nebraska, New Mexico, Oklahoma, South Dakota, Texas and Wyoming. Alexandria (Virginia): U.S. Geological Survey Professional Paper 1400-B. 68 p.

Hallmark D. 2008. Hydrology and water resources 2008. Dumas (Texas): North Plains Groundwater Conservation District Report.

Harbaugh AW, Banta ER, Hill MC, McDonald MG. 2000. MODFLOW-2000, the U.S. Geological Survey modular ground-water model – User guide to modularization concepts and the ground-water flow process. Reston (Virginia): U.S. Geological Survey. Open-File Report 00-92. 121 p.

Knowles TR, Nordstrom P, Klemt WB. 1982. Evaluating the ground-water resources of the High Plains of Texas. Austin (Texas): Texas Department of Water Resources (1). LP-173. 174 p.

Knowles TR. 1984. Assessment of the ground-water resources of the Texas High Plains. Proceedings: Ogallala Aquifer Symposium II. Lubbock (Texas): Texas Tech University Water Resources Center. p. 217-237.

Knowles TR, Nordstrom P, Klemt WB. 1984. Evaluating the groundwater resources of the High Plains of Texas. Austin (Texas): Department of Water Resources. Report 288 (1-3).

Luckey RL, Becker MF. 1999. Hydrogeology, water use, and simulation of flow in the High Plains aquifer in northwestern Oklahoma, southeastern Colorado, southwestern Kansas, northeastern New Mexico and northwestern Texas. Oklahoma City (Oklahoma): U.S. Geological Survey. Water Resources Investigations Report 99-4104. 68 p. Prepared in cooperation with the Oklahoma Water Resources Board.

Luckey RL, Gutentag ED, Heimes FJ, Weeks JB. 1986. Digital simulation of groundwater flow in the High Plains aquifer in parts of Colorado, Kansas, Nebraska, New Mexico, Oklahoma, South Dakota, Texas, and Wyoming. Denver (Colorado): U.S. Geological Survey. Professional Paper 1400-D. 57 p.

Luckey RR, Stephens DM. 1987. Effect of grid size on digital simulation of groundwater flow in the southern High Plains of Texas and New Mexico. U.S. Geological Survey. Water-Resources Investigations Report 87-4085. 32 p.

Luckey RR. 1984. The High Plains regional aquifer-flow system simulation of the Central and Northern High Plains. Proceedings: Ogallala Aquifer Symposium II. Lubbock (Texas): Texas Tech University Water Resources Center. p. 48–66.

Marek T, Amosson S, Bretz F, Guerrero B, Kotara R. 2009. 2011 Panhandle regional water plan - Task 2 Report: Agricultural water demand projections. Amarillo (Texas): Texas A&M University System, Texas A&M AgriLife Research and Extension Center. A water planning report prepared for Freese and Nichols, Inc.

Marek T, Amosson S, New L, Bretz F, Almas L, Guerrero B. 2004. Senate Bill 2 - Region A Task 2 Report agricultural (Irrigation and Livestock) water demand projections. Revised 2004 November 2. Amarillo (Texas): Texas A&M University Agricultural Research and Extension Center. Technical report prepared for Freese and Nichols, Inc.

Maupin MA, Barber NL. 2005. Estimated withdrawals from principal aquifers in the United States, 2000. U.S. Geological Survey. Circular 1279. 46 p.

McAda DP. 1984. Projected water-level declines in the Ogallala Aquifer in Lea County, New Mexico. U.S. Geological Survey. Water-Resources Investigations Report 84-4062. 84 p.

McMahon PB, Dennehy KF, Bruce BW, Gurdak JJ, Qi SL. 2007. Water-quality assessment of the High Plains aquifer, 1999-2004. U.S. Geological Survey. Professional Paper 1749.

Mullican WF 3rd, Johns ND, Fryar AE. 1997. Playas and recharge of the Ogallala Aquifer on the southern High Plains of Texas—an examination using numerical techniques. Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. 72 p. Report of Investigations No. 242.

Mullican WF 3rd. 1995. A technical review of the Canadian River Municipal Water Authority application for permit to transport water from Roberts and Hutchinson Counties. White Deer (Texas): Panhandle Ground Water Conservation District.

Musick JT, Pringle FB, Harman WL, Stewart BA. 1990. Long-term irrigation trends – Texas High Plains. Applied Engineering in Agriculture. Vol. 6(6):717-724.

[NASS] National Agricultural Statistics Service. 2008. 2008 agricultural statistics by county [Internet]. Washington DC: U.S. Department of Agriculture; [cited 2009 June 16]. Available from: http://www.nass.usda.gov/Statistics_by_State/Texas/Publications/County_Estimates/index.asp

[NOAA] National Oceanic and Atmospheric Administration. 2009. Climate data products [Internet]. Silver Spring (Maryland): NOAA Climate Change Office; [cited 2009 June 16]. Available from: http://www.climate.noaa.gov/

[NPGCD] North Plains Groundwater Conservation District. 2008a. Proposed Desired Future Conditions for the Ogallala Aquifer. Dumas (Texas): North Plains Groundwater Conservation District; Internal Report dated December 15, 2008.

[NPGCD] North Plains Groundwater Conservation District. 2008b. Ogallala Aquifer, general geology, stratigraphy and hydrology. Dumas (Texas): North Plains Groundwater Conservation District; [cited 2013 February 15]. Available from: http://www.northplainsgcd.org/sciencea-technology/ogallala-aquifer

Osborn JE. 1973. Economic effects of an exhaustible irrigation water supply: Texas High Plains. Southern Journal of Agricultural Economics. 5(1):135-139.

Ouapo C, Stewart BA, DeOtte R. 2012. Data presented at the Ogallala Aquifer Data Availability Workshop, Canyon, Texas, 2012 February 3. Ogallala Aquifer Program. (personal communication).

Peckham DS, Ashworth JB. 1993. The High Plains aquifer system of Texas; 1980 to 1990 overview and projections. Austin (Texas): Texas Water Development Board. Report 341. p. 1–13.

Qi SL, Scott C. 2010. Assessing groundwater availability in the High Plains aquifer in parts of Colorado, Kansas, Nebraska, New Mexico, Oklahoma, South Dakota, Texas, and Wyoming. Albuquerque (New Mexico): U.S. Geological Survey. Fact Sheet FS-2010-3008.

Reilly TE, Dennehy KF, Alley WM, Cunningham WL. 2008. Ground-water availability in the United States. Reston (Virginia): U.S. Geological Survey. 70 p. Circular 1323.

Seni SJ. 1980. Sand-body geometry and depositional systems, Ogallala formation, Texas. Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. 36 p. Report of Investigations 105.

Simpkins WW, Fogg GE. 1982. Preliminary modeling of groundwater flow near salt dissolution zones, Texas Panhandle. In: Gustavson, T. C., and others, editors. Geology and geohydrology of the Palo Duro Basin, Texas, Austin (Texas): The University of Texas at Austin, Bureau of Economic Geology. p. 130–137. Geological Circular 82-7.

[SWS] Schlumberger Water Services. 2008. Visual Mod-Flow Pro. Ver. 4.3 user’s manual. Waterloo (Ontario, Canada): Schlumberger Water Services. 680 p.

[TWDB] Texas Water Development Board. 2007a. 2007 water use survey summary estimates by county [Internet]. Austin (Texas): Texas Water Development Board. [cited 2009 April 20]. Available from: https://www.twdb.state.tx.us/waterplanning/waterusesurvey/estimates/2007/

[TWDB] Texas Water Development Board. 2007b. Water for Texas 2007 [Internet].Document No. GP-8-1. Austin (Texas): Texas Water Development Board; [cited 2009 April 20]. Available from: http://www.twdb.state.tx.us/waterplanning/swp/2007/index.asp

[USGS] U.S. Geological Survey. 2008. GIS data for the High Plains regional groundwater study [Internet]. U.S. Geological Survey. [cited 2008 September 3]. Available from: http://co.water.usgs.gov/nawqa/hpgw/GIS.html.

Wheeler EA, Segarra E, Johnson P, Willis DB, Johnson J. 2006. Aquifer depletion and the cost of water conservation: The southern High Plains of Texas case. 26th International Conference of Agricultural Economists. 2006 August 12-18. Queensland, Australia.

Wood WW, Sanford WE. 1995. Chemical and isotopic methods for quantifying groundwater recharge in a regional, semiarid environment. Ground Water 33(3):458-468.

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Copyright (c) 2013 Jairo E Hernández, Prasanna H Gowda, Thomas H Marek, Terry A Howell, Wonsook Ha