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Prediction of the soil-depth salinity-trend in a vineyard after sustained irrigation with saline water

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  • de Clercq, W.P.
  • Van Meirvenne, M.
  • Fey, M.V.

Abstract

Remote sensing combined with an ability to look deeper than the soil surface is currently high in demand. This study was conducted through scaling down the amount of soil data from a saline irrigation water experiment to see if one can still capture the essential soil salinity depth trends within the data, to a level that can enhance the ability of remote methods. A saline irrigation experiment with 6 water qualities was conducted for 8 years on 1.2 ha of vineyard land near Robertson in the Western Cape Province of South Africa. Soil water was sampled at regular intervals at 5 depths between 0.15 and 1.2 m with suction cup lysimeters at a fixed time following each irrigation. Electrical conductivity of the soil water (ECsw) was determined after sampling. Data collected over the full 8-year period were investigated for depth trends in ECsw, seeking trend lines with lowest polynomial order that were still significantly predict the salinity profile. At all treatment levels a first order polynomial equation, fitted to the salinity profiles, significantly predicted the salinity trends. The ECsw value at only two depths could therefore be used to calculate total salt accumulation and soil water quality below the root zone. The implication is that considerable value can be obtained from minimal measurements both in estimating salt accumulation in the soil profile and predicting water quality in return flow from saline irrigation.

Suggested Citation

  • de Clercq, W.P. & Van Meirvenne, M. & Fey, M.V., 2009. "Prediction of the soil-depth salinity-trend in a vineyard after sustained irrigation with saline water," Agricultural Water Management, Elsevier, vol. 96(3), pages 395-404, March.
    • Handle: RePEc:eee:agiwat:v:96:y:2009:i:3:p:395-404
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    1. Kotb, Tarek H. S. & Watanabe, Tsugihiro & Ogino, Yoshihiko & Tanji, Kenneth K., 2000. "Soil salinization in the Nile Delta and related policy issues in Egypt," Agricultural Water Management, Elsevier, vol. 43(2), pages 239-261, March.
    2. Mondal, Manoranjan K. & Bhuiyan, Sadiqul I. & Franco, Danielito T., 2001. "Soil salinity reduction and prediction of salt dynamics in the coastal ricelands of Bangladesh," Agricultural Water Management, Elsevier, vol. 47(1), pages 9-23, February.
    3. Ben-Gal, Alon & Ityel, Eviatar & Dudley, Lynn & Cohen, Shabtai & Yermiyahu, Uri & Presnov, Eugene & Zigmond, Leah & Shani, Uri, 2008. "Effect of irrigation water salinity on transpiration and on leaching requirements: A case study for bell peppers," Agricultural Water Management, Elsevier, vol. 95(5), pages 587-597, May.
    4. Kelleners, T. J. & Chaudhry, M. R., 1998. "Drainage water salinity of tubewells and pipe drains:: A case study from Pakistan," Agricultural Water Management, Elsevier, vol. 37(1), pages 41-53, June.
    5. Rhoades, J. D. & Lesch, S. M. & LeMert, R. D. & Alves, W. J., 1997. "Assessing irrigation/drainage/salinity management using spatially referenced salinity measurements," Agricultural Water Management, Elsevier, vol. 35(1-2), pages 147-165, December.
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    1. Hamzehpour, N. & Eghbal, M.K. & Bogaert, P. & Toomanian, N., 2014. "Top Soil Salinity Prediction In South-Western Part Of Urmia Lake With Ground Water Data," International Journal of Agricultural Research, Innovation and Technology (IJARIT), IJARIT Research Foundation, vol. 4(1), June.

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