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Water use estimates for various rice production systems in Mississippi and Arkansas

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Abstract

Rice irrigation-water use was estimated in Mississippi (MS) and Arkansas (AR) in 2003 and 2004. Irrigation inputs were compared on naturally sloping (i.e. contour-levee system) and mechanically graded fields. In MS, rice production consumed, on average, 895 mm water, but irrigation inputs were greatly affected by production system. Contour-levee systems accounted for 35% of the production area and consumed 1,034 mm irrigation. Fields mechanically graded to a consistent slope of approximately 0.1% (i.e. straight-levee systems) consumed 856 mm irrigation and accounted for 60% of the production area. Fields devoid of slope (i.e. zero-grade system) accounted for 5% of the production area and consumed 382 mm irrigation. In AR, contour-levee rice production consumed 789 mm compared to 653 mm with a straight-levee system. Using low pressure, thin wall (9–10 mil) disposable irrigation tubing to deliver water to each paddy independently reduced irrigation inputs by 28% in MS and 11% in AR when compared to a single-point (levee-gate) distribution system.

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Authors and Affiliations

  1. MAFES, 117 Dorman Hall, Box 9555, Miss State, MS, 39762, USA

    M. C. Smith & J. H. Massey

  2. University of AR Cooperative Extension Service, Fayetteville, USA

    J. Branson, P. L. Tacker & C. Wilson

  3. University of Memphis, Memphis, USA

    J. W. Epting

  4. Yazoo-Mississippi Delta Joint Water Management District, Stoneville, USA

    D. Pennington

  5. Mississippi State University Extension Service, Miss State, USA

    J. Thomas

  6. USDA-ARS, Washington, USA

    E. D. Vories

Authors
  1. M. C. Smith
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  2. J. H. Massey
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  3. J. Branson
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  4. J. W. Epting
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  5. D. Pennington
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  6. P. L. Tacker
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  7. J. Thomas
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  8. E. D. Vories
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  9. C. Wilson
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Corresponding author

Correspondence to M. C. Smith.

Additional information

Communicated by A. Kassam

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Smith, M.C., Massey, J.H., Branson, J. et al. Water use estimates for various rice production systems in Mississippi and Arkansas. Irrig Sci 25, 141–147 (2007). https://doi.org/10.1007/s00271-006-0041-0

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  • DOI: https://doi.org/10.1007/s00271-006-0041-0

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