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A synthesis and comparative evaluation of factors influencing the effectiveness of drainage water management

Author

Listed:
  • Ross, Jared A.
  • Herbert, Matthew E.
  • Sowa, Scott P.
  • Frankenberger, Jane R.
  • King, Kevin W.
  • Christopher, Sheila F.
  • Tank, Jennifer L.
  • Arnold, Jeffrey G.
  • White, Mike J.
  • Yen, Haw

Abstract

Viable large-scale crop production in the United States requires artificial drainage in humid and poorly drained agricultural regions. Excess water removal is generally achieved by installing tile drains that export water to open ditches that eventually flow into streams. Drainage water management (DWM) is a conservation practice that allows farmers to artificially raise the outlet elevation of a field’s drain tile and can reduce nutrient loss during wet periods by storing more water in the field. We intended to assess the effectiveness of DWM to reduce drainage discharge and nutrient loads and additionally identify predictor variables that influence DWM effectiveness. We compared managed (i.e., DWM) and free draining records using paired t-tests, and identified factors associated with DWM effectiveness using a multiple linear regression approach. T-test results indicated that DWM was highly effective in reducing drainage water discharge and nutrient losses via drain tiles as tile discharge volumes were reduced on average 46%, while tile nitrate loads were reduced by 48%. In addition, total phosphorus and dissolved reactive phosphorus loads were reduced by 55% and 57%, respectively. Based on regression results, we found that several aspects of farm and tile drain management were associated with DWM effectiveness, while site specific landscape characteristics were less likely to predict effectiveness. While DWM is effective as a conservation practice to reduce discharges of water and nutrients from drain tiles, we also identified several knowledge gaps. Future research should investigate effects of DWM on water and nutrients lost in other pathways such as surface runoff, preferential flow, groundwater recharge and biological uptake, and also focus more attention on phosphorus as there is a paucity of research on this topic.

Suggested Citation

  • Ross, Jared A. & Herbert, Matthew E. & Sowa, Scott P. & Frankenberger, Jane R. & King, Kevin W. & Christopher, Sheila F. & Tank, Jennifer L. & Arnold, Jeffrey G. & White, Mike J. & Yen, Haw, 2016. "A synthesis and comparative evaluation of factors influencing the effectiveness of drainage water management," Agricultural Water Management, Elsevier, vol. 178(C), pages 366-376.
    • Handle: RePEc:eee:agiwat:v:178:y:2016:i:c:p:366-376
    DOI: 10.1016/j.agwat.2016.10.011
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    References listed on IDEAS

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    1. Ale, S. & Bowling, L.C. & Brouder, S.M. & Frankenberger, J.R. & Youssef, M.A., 2009. "Simulated effect of drainage water management operational strategy on hydrology and crop yield for Drummer soil in the Midwestern United States," Agricultural Water Management, Elsevier, vol. 96(4), pages 653-665, April.
    2. Hanson, J. D. & Ahuja, L. R. & Shaffer, M. D. & Rojas, K. W. & DeCoursey, D. G. & Farahani, H. & Johnson, K., 1998. "RZWQM: Simulating the effects of management on water quality and crop production," Agricultural Systems, Elsevier, vol. 57(2), pages 161-195, June.
    3. Ale, S. & Bowling, L.C. & Owens, P.R. & Brouder, S.M. & Frankenberger, J.R., 2012. "Development and application of a distributed modeling approach to assess the watershed-scale impact of drainage water management," Agricultural Water Management, Elsevier, vol. 107(C), pages 23-33.
    4. Luo, W. & Sands, G.R. & Youssef, M. & Strock, J.S. & Song, I. & Canelon, D., 2010. "Modeling the impact of alternative drainage practices in the northern Corn-belt with DRAINMOD-NII," Agricultural Water Management, Elsevier, vol. 97(3), pages 389-398, March.
    5. Breve, M. A. & Skaggs, R. W. & Parsons, J. E. & Gilliam, J. W., 1998. "Using the DRAINMOD-N model to study effects of drainage system design and management on crop productivity, profitability and NO3-N losses in drainage water," Agricultural Water Management, Elsevier, vol. 35(3), pages 227-243, January.
    6. Singh, R. & Helmers, M.J. & Crumpton, W.G. & Lemke, D.W., 2007. "Predicting effects of drainage water management in Iowa's subsurface drained landscapes," Agricultural Water Management, Elsevier, vol. 92(3), pages 162-170, September.
    7. Lalonde, V. & Madramootoo, C. A. & Trenholm, L. & Broughton, R. S., 1996. "Effects of controlled drainage on nitrate concentrations in subsurface drain discharge," Agricultural Water Management, Elsevier, vol. 29(2), pages 187-199, January.
    8. Williams, M.R. & King, K.W. & Fausey, N.R., 2015. "Drainage water management effects on tile discharge and water quality," Agricultural Water Management, Elsevier, vol. 148(C), pages 43-51.
    9. Wesstrom, Ingrid & Messing, Ingmar, 2007. "Effects of controlled drainage on N and P losses and N dynamics in a loamy sand with spring crops," Agricultural Water Management, Elsevier, vol. 87(3), pages 229-240, February.
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    3. Shedekar, Vinayak S. & King, Kevin W. & Fausey, Norman R. & Islam, Khandakar R. & Soboyejo, Alfred B.O. & Kalcic, Margaret M. & Brown, Larry C., 2021. "Exploring the effectiveness of drainage water management on water budgets and nitrate loss using three evaluation approaches," Agricultural Water Management, Elsevier, vol. 243(C).
    4. Mariusz Sojka & Michał Kozłowski & Rafał Stasik & Michał Napierała & Barbara Kęsicka & Rafał Wróżyński & Joanna Jaskuła & Daniel Liberacki & Jerzy Bykowski, 2019. "Sustainable Water Management in Agriculture—The Impact of Drainage Water Management on Groundwater Table Dynamics and Subsurface Outflow," Sustainability, MDPI, vol. 11(15), pages 1-18, August.
    5. Lavaire, Tito & Gentry, Lowell E. & David, Mark B. & Cooke, Richard A., 2017. "Fate of water and nitrate using drainage water management on tile systems in east-central Illinois," Agricultural Water Management, Elsevier, vol. 191(C), pages 218-228.
    6. Cherine Akkari & Christopher Robin Bryant, 2017. "Toward Improved Adoption of Best Management Practices (BMPs) in the Lake Erie Basin: Perspectives from Resilience and Agricultural Innovation Literature," Agriculture, MDPI, vol. 7(7), pages 1-15, July.
    7. Helmers, M.J. & Abendroth, L. & Reinhart, B. & Chighladze, G. & Pease, L. & Bowling, L. & Youssef, M. & Ghane, E. & Ahiablame, L. & Brown, L. & Fausey, N. & Frankenberger, J. & Jaynes, D. & King, K. &, 2022. "Impact of controlled drainage on subsurface drain flow and nitrate load: A synthesis of studies across the U.S. Midwest and Southeast," Agricultural Water Management, Elsevier, vol. 259(C).

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