Value Engineering Approach to Evaluate the Agricultural Drainage Water Management Strategies

Excessive irrigating water that has not been adequately drained may cause more water to enter the crop root zone than is necessary. As a result, issues with increasing water table levels, waterlogging, and salinity get worse and cause crop productivity losses. Agricultural drainage water management...

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Veröffentlicht in:	Water (Basel) 2023-02, Vol.15 (4), p.831
Hauptverfasser:	Elnashar, Walaa, Abd-Elhamid, Hany F., Zeleňáková, Martina, Elyamany, Ahmed
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural economics Agricultural engineering Agricultural industry Agricultural production Analysis Climate change Climate change mitigation Climatic changes Control systems Crop production drainage Drainage systems Drainage water Egypt Environmental protection Fertilizer application Fertilizers Food security Food supply Groundwater Groundwater levels Groundwater quality Irrigation Irrigation practices Irrigation water life cycle costing Management Net present value rhizosphere river deltas Root zone Salinity Strategic planning (Business) Value engineering Water Water management Water quality Water table Water, Underground Waterlogging
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creator	Elnashar, Walaa Abd-Elhamid, Hany F. Zeleňáková, Martina Elyamany, Ahmed
description	Excessive irrigating water that has not been adequately drained may cause more water to enter the crop root zone than is necessary. As a result, issues with increasing water table levels, waterlogging, and salinity get worse and cause crop productivity losses. Agricultural drainage water management strategies (ADWMS) can be used to protect the quality of groundwater, guarantee that crops have better moisture conditions, and provide irrigation water by reusing agricultural water drainage and using sub-irrigation practices. In order to decrease the effects of poor drainage, mitigate climate change, conserve the environment, and achieve food security, this study proposes a framework for choosing the most effective ADWMS in Egypt’s Nile Delta as well as the new lands. The value engineering approach is used to ensure the strategy’s functionality and to present some innovation in the process of developing alternative solutions that are financially evaluated using the life cycle cost technique. According to the study results, the most effective strategy (ADWMS-3) prioritizes improving drainage effectiveness, controlling groundwater table rise, and providing another irrigation water source while maintaining environmental protection. This strategy encompasses the use of a control drainage system, timing of fertilizer application, regulating groundwater table variation, and using sub-irrigation practices. ADWMS-3 achieves the highest values for the technical score of 8.06 and the value index of 18.59. This study advances the understanding of the topic by providing policymakers with a tool to (i) evaluate ADWMS and (ii) incorporate the added value and functionality into their policies regarding agricultural drainage water.
doi_str_mv	10.3390/w15040831
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As a result, issues with increasing water table levels, waterlogging, and salinity get worse and cause crop productivity losses. Agricultural drainage water management strategies (ADWMS) can be used to protect the quality of groundwater, guarantee that crops have better moisture conditions, and provide irrigation water by reusing agricultural water drainage and using sub-irrigation practices. In order to decrease the effects of poor drainage, mitigate climate change, conserve the environment, and achieve food security, this study proposes a framework for choosing the most effective ADWMS in Egypt’s Nile Delta as well as the new lands. The value engineering approach is used to ensure the strategy’s functionality and to present some innovation in the process of developing alternative solutions that are financially evaluated using the life cycle cost technique. According to the study results, the most effective strategy (ADWMS-3) prioritizes improving drainage effectiveness, controlling groundwater table rise, and providing another irrigation water source while maintaining environmental protection. This strategy encompasses the use of a control drainage system, timing of fertilizer application, regulating groundwater table variation, and using sub-irrigation practices. ADWMS-3 achieves the highest values for the technical score of 8.06 and the value index of 18.59. 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As a result, issues with increasing water table levels, waterlogging, and salinity get worse and cause crop productivity losses. Agricultural drainage water management strategies (ADWMS) can be used to protect the quality of groundwater, guarantee that crops have better moisture conditions, and provide irrigation water by reusing agricultural water drainage and using sub-irrigation practices. In order to decrease the effects of poor drainage, mitigate climate change, conserve the environment, and achieve food security, this study proposes a framework for choosing the most effective ADWMS in Egypt’s Nile Delta as well as the new lands. The value engineering approach is used to ensure the strategy’s functionality and to present some innovation in the process of developing alternative solutions that are financially evaluated using the life cycle cost technique. According to the study results, the most effective strategy (ADWMS-3) prioritizes improving drainage effectiveness, controlling groundwater table rise, and providing another irrigation water source while maintaining environmental protection. This strategy encompasses the use of a control drainage system, timing of fertilizer application, regulating groundwater table variation, and using sub-irrigation practices. ADWMS-3 achieves the highest values for the technical score of 8.06 and the value index of 18.59. 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subjects	Agricultural economics Agricultural engineering Agricultural industry Agricultural production Analysis Climate change Climate change mitigation Climatic changes Control systems Crop production drainage Drainage systems Drainage water Egypt Environmental protection Fertilizer application Fertilizers Food security Food supply Groundwater Groundwater levels Groundwater quality Irrigation Irrigation practices Irrigation water life cycle costing Management Net present value rhizosphere river deltas Root zone Salinity Strategic planning (Business) Value engineering Water Water management Water quality Water table Water, Underground Waterlogging
title	Value Engineering Approach to Evaluate the Agricultural Drainage Water Management Strategies
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