Full TGIF Record # 238291
Item 1 of 1
DOI:10.1016/j.agwat.2012.01.003
Web URL(s):http://www.sciencedirect.com/science/article/pii/S0378377412000194
    Last checked: 03/28/2014
    Access conditions: Item is within a limited-access website
Publication Type:
i
Refereed
Author(s):Ale, S.; Bowling, L. C.; Owens, P. R.; Brouder, S. M.; Frankenberger, J. R.
Author Affiliation:Ale: Texas AgriLife Research (Texas A&M University System), Vernon, TX; Bowling, Owens, and Brouder: Department of Agronomy; Frankenberger: Department of Agricultural and Biological Engineering, Purdue University, West Lafayette, IN
Title:Development and application of a distributed modeling approach to assess the watershed-scale impact of drainage water management
Source:Agricultural Water Management. Vol. 107, May 2012, p. 23-33.
Publishing Information:[Amsterdam]: Elsevier Scientific Pub.
# of Pages:11
Keywords:TIC Keywords: Drainage water; Nitrate reduction test; Subsurface drainage; Water management; Water quality
Abstract/Contents:"Drainage water management, also known as controlled drainage, is the practice of using a water table control structure at the end of the subsurface drain pipe to reduce subsurface drainage, and thereby nitrate losses. Methods to quantify the potential effects of drainage water management for entire watersheds are needed to evaluate the impacts of large-scale adoption. A distributed modeling approach was developed to apply the field-scale DRAINMOD model at the watershed scale, and used to assess the impact of drainage water management on nitrate load from an intensively subsurface drained agricultural watershed in west central Indiana. The watershed was divided into 6460 grid cells for which drain spacing, soil parent material, and cropping pattern were estimated, resulting in 600 unique field conditions. The annual edge-of-field nitrate load from each grid cell was estimated as the product of DRAINMOD-predicted drain flow and the average annual nitrate concentration in drain flow, estimated from observations from related drainage sites in northern Indiana. Predicted monthly streamflow was in good agreement with the observed streamflow (NashSutcliffe efficiency of 0.87 and 0.84 during the calibration and validation periods, respectively) and the predicted drain flow matched well with the measured drain flow (77.1 cm vs. 77.8 cm and 121.3 cm vs. 128.4 cm). Drainage water management decreased the average annual (19852009) predicted drain flow from 11.0 to 5.9 cm, and the total nitrate load through subsurface drainage from 236 to 126 ton (both about 47% reduction). The percent reduction in nitrate load varied between 40% and 53% for all combinations of drain spacing, soil parent material and cropping patterns, with drain spacing and soil parent material having a greater effect than cropping pattern. The methodology developed in this study showed potential for predicting the watershed-scale effects of subsurface drainage and drainage water management in drained agricultural watersheds."
Language:English
References:64
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ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Ale, S., L. C. Bowling, P. R. Owens, S. M. Brouder, and J. R. Frankenberger. 2012. Development and application of a distributed modeling approach to assess the watershed-scale impact of drainage water management. Agric. Water Manage. 107:p. 23-33.
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DOI: 10.1016/j.agwat.2012.01.003
Web URL(s):
http://www.sciencedirect.com/science/article/pii/S0378377412000194
    Last checked: 03/28/2014
    Access conditions: Item is within a limited-access website
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