Journal
AGRICULTURAL WATER MANAGEMENT
Volume 97, Issue 1, Pages 41-49Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.agwat.2009.08.009
Keywords
Dry-wet cycles; Root zone model; Salinity; Sodicity; Water management; Salt accumulation; Leaching; Ecohydrology
Categories
Funding
- German Research Foundation [1398]
- Netherlands Organization for Scientific Research [DN 81-754]
- Wageningen University IPOP programme Kust en Zee
- Higher Education Commission (HEC), Government of Pakistan
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Soil sodicity development is a process that depends nonlinearly on both salt concentration and composition of soil water. In particular in hot climates, soil water composition is subject to temporal variation due to dry-wet cycles. To investigate the effect of such cycles on soil salinity and sodicity, a simple root zone model is developed that accounts for annual salt accumulation and leaching periods. Cation exchange is simplified to considering only Ca/Na exchange, using the Capon exchange equation. The resulting salt and Ca/Na-balances are solved for a series of dry/wet cycles with a standard numerical approach. Due to the nonlinearities in the Capon equation, the fluctuations of soil salinity that may be induced, e.g. by fluctuating soil water content, affect sodicity development. Even for the case that salinity is in a periodic steady state, where salt concentrations do not increase on the long term, sodicity may still grow as a function of time from year to year. For the longer term, sodicity, as quantified by Exchangeable Sodium Percentage (ESP), approaches a maximum value that depends on drought and inflowing water quality, but not on soil cation exchange capacity. Analytical approaches for the salinity and sodicity developing under such fluctuating regimes appear to be in good agreement with numerical approximations and are very useful for checking numerical results and anticipating changes in practical situations. (C) 2009 Elsevier B.V. All rights reserved.
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