Simulation of groundwater flow and analysis of the effects of water-management options in the North Platte Natural Resources District, Nebraska

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“…This study focused on the Mississippi Delta ( Fig. 1a), an area of dense agricultural activity in northwest Mississippi, with known water-level declines in the alluvial aquifer (Boswell et al 1968;Pennington and Stiles 1994;Ackerman 1996;Renken 1998). The Mississippi Delta covers approximately 18,100 km 2 (7,000 mi 2 ) of north-west Mississippi and is an area with substantial industrial-scale agriculture that necessitates large volumes of fresh water for irrigation (Arthur 2001).…”

“…Groundwater withdrawals from the alluvial aquifer have been rising since the 1930s with a noticeable increase in the 1980s when a majority of agricultural producers switched from surface water to groundwater for irrigation following a drought ( Fig. 2; Arthur 2001; Barlow and Clark 2011;Peterson et al 2015). The alluvial aquifer is composed of Quaternary-age sands and gravel deposited after the Wisconsin glaciation, making it an ideal aquifer with well yields ranging from approximately 1,100-9,500 L/min (300-2,500 gal/min; Renken 1998; Arthur 2001; Yazoo Mississippi Delta Joint Water Management District, YMD) 2008).…”

Characterizing groundwater and surface-water interaction using hydrograph-separation techniques and groundwater-level data throughout the Mississippi Delta, USA

“…This study focused on the Mississippi Delta ( Fig. 1a), an area of dense agricultural activity in northwest Mississippi, with known water-level declines in the alluvial aquifer (Boswell et al 1968;Pennington and Stiles 1994;Ackerman 1996;Renken 1998). The Mississippi Delta covers approximately 18,100 km 2 (7,000 mi 2 ) of north-west Mississippi and is an area with substantial industrial-scale agriculture that necessitates large volumes of fresh water for irrigation (Arthur 2001).…”

“…Groundwater withdrawals from the alluvial aquifer have been rising since the 1930s with a noticeable increase in the 1980s when a majority of agricultural producers switched from surface water to groundwater for irrigation following a drought ( Fig. 2; Arthur 2001; Barlow and Clark 2011;Peterson et al 2015). The alluvial aquifer is composed of Quaternary-age sands and gravel deposited after the Wisconsin glaciation, making it an ideal aquifer with well yields ranging from approximately 1,100-9,500 L/min (300-2,500 gal/min; Renken 1998; Arthur 2001; Yazoo Mississippi Delta Joint Water Management District, YMD) 2008).…”

Characterizing groundwater and surface-water interaction using hydrograph-separation techniques and groundwater-level data throughout the Mississippi Delta, USA

“…The CPNRD area has been the subject of many hydrologic studies that include investigations of numerical models, recharge, geology and hydrogeology, land use, and crop water use since the late 1890s, as outlined in Peterson (2009). The earliest studies were a comprehensive description of the Great Plains geology and groundwater, including the CPNRD region of Nebraska (Darton, 1898(Darton, , 1905.…”

“…Additionally, the development of groundwater-flow models has been the focus of COHYST since its inception in 1998 (Cooperative Hydrology Study, 2017). The first three COHYST groundwater-flow models were developed for three geographic regions, called model units, within COHYST-the eastern model unit, which contains the CPNRD (Peterson, 2009); the central model unit (Carney, 2008); and the western model unit (Luckey and Cannia, 2006). COHYST-2010 is the latest model developed as a part of COHYST and is a combined soil-water balance, surface water, and groundwater-flow model of the eastern and central model units (Cooperative Hydrology Study, 2017).…”

“…1C). Three overlapping groundwater-flow models were originally developed for the eastern, central, western COHYST regions and are described in Peterson (2009), Carney (2008), and Luckey and Cannia (2006), respectively. Later groundwater-flow model updates combined the eastern and central model units into a single model as described in Cooperative Hydrology Study (2017).…”

An integrated hydrologic model to support the Central Platte Natural Resources District Groundwater Management Plan, central Nebraska