An Integrated Aquifer Management Approach for Aridification-Affected Agricultural Area, Shengeldy-Kazakhstan

Ongoing water-resource depletion is a common trend in southeastern Kazakhstan and in most of Central Asia, making the use of drainage water for freshwater preservation and groundwater recharge a key strategy for sustainable agriculture. Since the Ily River inflow began to decrease, groundwater level...

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Veröffentlicht in:	Water (Basel) 2021-09, Vol.13 (17), p.2357
Hauptverfasser:	Mirlas, Vladimir, Makyzhanova, Assyl, Kulagin, Vitaly, Kuldeev, Erghan, Anker, Yaakov
Format:	Artikel
Sprache:	eng
Schlagworte:	Agriculture Aquifers Clay Depletion Drainage systems Drainage water Geology Groundwater Groundwater flow Groundwater levels Groundwater recharge Hydrogeology Irrigation Irrigation systems Precipitation Resource depletion Salinity Subsurface drainage Sustainable agriculture System effectiveness Water flow Water inflow Water table
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creator	Mirlas, Vladimir Makyzhanova, Assyl Kulagin, Vitaly Kuldeev, Erghan Anker, Yaakov
description	Ongoing water-resource depletion is a common trend in southeastern Kazakhstan and in most of Central Asia, making the use of drainage water for freshwater preservation and groundwater recharge a key strategy for sustainable agriculture. Since the Ily River inflow began to decrease, groundwater levels in the Shengeldy study area site have fallen below the drainage pipes. As such, our main research hypothesis was that owing to drainage infiltration, the regional shallow aquifer can be used as an effective additional water source for moistening crop root systems during the irrigation period. The MODFLOW groundwater flow model was used to simulate and quantitatively assess the combined hydrogeological and irrigation conditions of artificial groundwater recharge both from the subsurface drainage and as an additional source for irrigation. The field study showed that the additional groundwater table elevation will reach approximately 1.5 m under the field drainage system and that the additional groundwater recharge influence zone will develop up to 300–350 m from the drains. The MODFLOW simulation together with full-scale experimental studies suggests that under certain conditions drainage water can be applied both as an additional source of irrigation and for aquifer sustainable maintenance.
doi_str_mv	10.3390/w13172357
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subjects	Agriculture Aquifers Clay Depletion Drainage systems Drainage water Geology Groundwater Groundwater flow Groundwater levels Groundwater recharge Hydrogeology Irrigation Irrigation systems Precipitation Resource depletion Salinity Subsurface drainage Sustainable agriculture System effectiveness Water flow Water inflow Water table
title	An Integrated Aquifer Management Approach for Aridification-Affected Agricultural Area, Shengeldy-Kazakhstan
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