Hydrochemical water evolution in the Aral Sea Basin. Part I: Unconfined groundwater of the Amu Darya Delta – Interactions with surface waters

•We present hydrochemical data for different compartments of Amudarya Delta.•We model the impact of seasonality on ion cycling by capillary rise and re-flushing.•We show the influence of biogenic processes on the hydrochemical GW evolution.•We determine an evaporative crystallization sequences for a...

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Published in:	Journal of hydrology (Amsterdam) Vol. 495; pp. 267 - 284
Main Authors:	Schettler, Georg, Oberhänsli, Hedi, Stulina, Galina, Mavlonov, Aslon A., Naumann, Rudolf
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier B.V 01-07-2013 Elsevier
Subjects:	Aral Sea Biogenically mediated element uptake Brackish Brine blending Critical zone Deltas Earth sciences Earth, ocean, space Evolution Exact sciences and technology Freshwater Groundwater evolution Hydrochemistry Hydrogeology Hydrology Hydrology. Hydrogeology Lakes Precipitation Rivers Salinity Salt precipitation/dissolution Strontium Aral Sea Central Asia Asia Amu Darya Eurasia, Aral Sea Basin Eurasia, Aral Sea Critical zone Hydrochemistry Salt precipitation/dissolution Brine blending Groundwater evolution Biogenically mediated element uptake experimental studies ground water calcite digital simulation sulfates brines aquifers discharge lakes soils deltas models salinity salt atmospheric precipitation dissolution climate seepage carbonates chemically precipitated rocks gypsum evaporites chemical analysis surface water sedimentary rocks correlation hydrologic cycle leachate
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Abstract	•We present hydrochemical data for different compartments of Amudarya Delta.•We model the impact of seasonality on ion cycling by capillary rise and re-flushing.•We show the influence of biogenic processes on the hydrochemical GW evolution.•We determine an evaporative crystallization sequences for a Salt Pan sample.•Increase of NO3, U, Mo and Se reflect oxidation related to GW level lowering. The Aral Sea, which has been affected by lake level lowering of approximately 25m and a salinity increase from 10 to >100g/l since 1963, represents, along with the Amu Dary Delta a dynamic hydrological system under an arid climate regime. The system receives river water inflow at high seasonal and inter-annual variability from remote alpine source areas. In the Amu Darya Delta, there is a distinct salinity contrast between the low-salinity river water (∼1g/l) and the salinity of the unconfined GW (GWunconf: 10–95g/l). The GWunconf levels are predominantly controlled by the seepage of the river water inflow and GW discharge into the shrinking Aral Sea. In June 2009 and August 2009, we sampled water from various sources including surface waters, GWunconf, lake water and soil leachates for chemical analyses. Evaporative enrichment, precipitation/dissolution of gypsum and precipitation of calcite drive the GWunconf to an NaCl(SO4) water type presenting a positive correlation between Na and SO4. We model the hydrochemical evolution of the GWunconf in a box model which considers the capillary rise of near-surface GW, the precipitation of minerals in the unsaturated horizon and the seasonal re-flushing of adhesive residual brines and soluble salts. The model documents a rapid increase in salinity over a few annual cycles. Furthermore, the model simulations demonstrate the importance of the aeolian redistribution of soluble salts on the hydrochemical GW evolution. In a lab experiment, halite, hexahydrite and starkeyite are precipitated during the late stages of evaporative enrichment from a representative local brine. Processes specific to different water compartments plausibly explain the variations of selected element ratios. For example, the precipitation of low-Sr calcite in irrigation canals and natural river branches of the delta lowers Ca/Sr. The dissolution of gypsum in soils (Ca/Sr mole ratio∼150) and the possible precipitation of SrSO4 associated with Sr-depletion in adhesive residual brines increases Ca/Sr in seepage and re-increases Ca/Sr in the unconfined GW. Aral Sea water, which receives high-Ca/Sr surface and groundwater inflow, developed due to continued precipitation of high-Ca/Sr calcite the almost lowest Ca/Sr ratio (∼25) over time. We observed spatial variations in the GWunconf composition: (i) ammonium levels increase strongly due to interaction with lake sediments rich in organic matter and (ii) distinct increases in levels of nitrate, U, Mo and Se locally reflect oxygenation when GW levels decrease. The Amu Darya Delta acts as a sink for boron (uptake via terrestrial vegetation) and a source for bromide (release by degradation of organically-bound Br). Our results concerning the hydrochemical evolution of the GWunconf and additional data from the Aral Sea constrain the parameter ‘GW discharge’ in water budget models of the lake and improve the basis for palaeoclimatic interpretations of sediment records from the Aral Sea.
AbstractList	The Aral Sea, which has been affected by lake level lowering of approximately 25m and a salinity increase from 10 to >100g/l since 1963, represents, along with the Amu Dary Delta a dynamic hydrological system under an arid climate regime. The system receives river water inflow at high seasonal and inter-annual variability from remote alpine source areas. In the Amu Darya Delta, there is a distinct salinity contrast between the low-salinity river water (1g/l) and the salinity of the unconfined GW (GWunconf: 10-95g/l). The GWunconf levels are predominantly controlled by the seepage of the river water inflow and GW discharge into the shrinking Aral Sea. In June 2009 and August 2009, we sampled water from various sources including surface waters, GWunconf, lake water and soil leachates for chemical analyses. Evaporative enrichment, precipitation/dissolution of gypsum and precipitation of calcite drive the GWunconf to an NaCl(SO4) water type presenting a positive correlation between Na and SO4. We model the hydrochemical evolution of the GWunconf in a box model which considers the capillary rise of near-surface GW, the precipitation of minerals in the unsaturated horizon and the seasonal re-flushing of adhesive residual brines and soluble salts. The model documents a rapid increase in salinity over a few annual cycles. Furthermore, the model simulations demonstrate the importance of the aeolian redistribution of soluble salts on the hydrochemical GW evolution. In a lab experiment, halite, hexahydrite and starkeyite are precipitated during the late stages of evaporative enrichment from a representative local brine. Processes specific to different water compartments plausibly explain the variations of selected element ratios. For example, the precipitation of low-Sr calcite in irrigation canals and natural river branches of the delta lowers Ca/Sr. The dissolution of gypsum in soils (Ca/Sr mole ratio150) and the possible precipitation of SrSO4 associated with Sr-depletion in adhesive residual brines increases Ca/Sr in seepage and re-increases Ca/Sr in the unconfined GW. Aral Sea water, which receives high-Ca/Sr surface and groundwater inflow, developed due to continued precipitation of high-Ca/Sr calcite the almost lowest Ca/Sr ratio (25) over time. We observed spatial variations in the GWunconf composition: (i) ammonium levels increase strongly due to interaction with lake sediments rich in organic matter and (ii) distinct increases in levels of nitrate, U, Mo and Se locally reflect oxygenation when GW levels decrease. The Amu Darya Delta acts as a sink for boron (uptake via terrestrial vegetation) and a source for bromide (release by degradation of organically-bound Br). Our results concerning the hydrochemical evolution of the GWunconf and additional data from the Aral Sea constrain the parameter 'GW discharge' in water budget models of the lake and improve the basis for palaeoclimatic interpretations of sediment records from the Aral Sea. •We present hydrochemical data for different compartments of Amudarya Delta.•We model the impact of seasonality on ion cycling by capillary rise and re-flushing.•We show the influence of biogenic processes on the hydrochemical GW evolution.•We determine an evaporative crystallization sequences for a Salt Pan sample.•Increase of NO3, U, Mo and Se reflect oxidation related to GW level lowering. The Aral Sea, which has been affected by lake level lowering of approximately 25m and a salinity increase from 10 to >100g/l since 1963, represents, along with the Amu Dary Delta a dynamic hydrological system under an arid climate regime. The system receives river water inflow at high seasonal and inter-annual variability from remote alpine source areas. In the Amu Darya Delta, there is a distinct salinity contrast between the low-salinity river water (∼1g/l) and the salinity of the unconfined GW (GWunconf: 10–95g/l). The GWunconf levels are predominantly controlled by the seepage of the river water inflow and GW discharge into the shrinking Aral Sea. In June 2009 and August 2009, we sampled water from various sources including surface waters, GWunconf, lake water and soil leachates for chemical analyses. Evaporative enrichment, precipitation/dissolution of gypsum and precipitation of calcite drive the GWunconf to an NaCl(SO4) water type presenting a positive correlation between Na and SO4. We model the hydrochemical evolution of the GWunconf in a box model which considers the capillary rise of near-surface GW, the precipitation of minerals in the unsaturated horizon and the seasonal re-flushing of adhesive residual brines and soluble salts. The model documents a rapid increase in salinity over a few annual cycles. Furthermore, the model simulations demonstrate the importance of the aeolian redistribution of soluble salts on the hydrochemical GW evolution. In a lab experiment, halite, hexahydrite and starkeyite are precipitated during the late stages of evaporative enrichment from a representative local brine. Processes specific to different water compartments plausibly explain the variations of selected element ratios. For example, the precipitation of low-Sr calcite in irrigation canals and natural river branches of the delta lowers Ca/Sr. The dissolution of gypsum in soils (Ca/Sr mole ratio∼150) and the possible precipitation of SrSO4 associated with Sr-depletion in adhesive residual brines increases Ca/Sr in seepage and re-increases Ca/Sr in the unconfined GW. Aral Sea water, which receives high-Ca/Sr surface and groundwater inflow, developed due to continued precipitation of high-Ca/Sr calcite the almost lowest Ca/Sr ratio (∼25) over time. We observed spatial variations in the GWunconf composition: (i) ammonium levels increase strongly due to interaction with lake sediments rich in organic matter and (ii) distinct increases in levels of nitrate, U, Mo and Se locally reflect oxygenation when GW levels decrease. The Amu Darya Delta acts as a sink for boron (uptake via terrestrial vegetation) and a source for bromide (release by degradation of organically-bound Br). Our results concerning the hydrochemical evolution of the GWunconf and additional data from the Aral Sea constrain the parameter ‘GW discharge’ in water budget models of the lake and improve the basis for palaeoclimatic interpretations of sediment records from the Aral Sea.
Author	Schettler, Georg Mavlonov, Aslon A. Naumann, Rudolf Oberhänsli, Hedi Stulina, Galina
Author_xml	– sequence: 1 givenname: Georg surname: Schettler fullname: Schettler, Georg email: georg.schettler@gfz-potsdam.de organization: Deutsches GeoForschungsZentrum, Telegrafenberg, 14473 Potsdam, Germany – sequence: 2 givenname: Hedi surname: Oberhänsli fullname: Oberhänsli, Hedi email: hedi.oberhaensli@mfn-berlin.de organization: Deutsches GeoForschungsZentrum, Telegrafenberg, 14473 Potsdam, Germany – sequence: 3 givenname: Galina surname: Stulina fullname: Stulina, Galina email: galinastulina@mail.ru organization: Scientific-Information Center Interstate Coordination Water Commission, Karasu-4, 100187 Tashkent, Uzbekistan – sequence: 4 givenname: Aslon A. surname: Mavlonov fullname: Mavlonov, Aslon A. email: aslon_m@rambler.ru organization: Institute of Hydrogeology and Engineering Geology, State Committee of the Republic of Uzbekistan on Geology and Mineral Resources, Olimar str. 64, 100041 Tashkent, Uzbekistan – sequence: 5 givenname: Rudolf surname: Naumann fullname: Naumann, Rudolf organization: Deutsches GeoForschungsZentrum, Telegrafenberg, 14473 Potsdam, Germany
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Keywords	Critical zone Hydrochemistry Salt precipitation/dissolution Brine blending Groundwater evolution Biogenically mediated element uptake experimental studies ground water calcite digital simulation sulfates brines aquifers discharge lakes soils deltas models salinity salt atmospheric precipitation dissolution climate seepage carbonates chemically precipitated rocks gypsum evaporites chemical analysis surface water sedimentary rocks correlation hydrologic cycle leachate
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Snippet	•We present hydrochemical data for different compartments of Amudarya Delta.•We model the impact of seasonality on ion cycling by capillary rise and... The Aral Sea, which has been affected by lake level lowering of approximately 25m and a salinity increase from 10 to >100g/l since 1963, represents, along with...
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SubjectTerms	Aral Sea Biogenically mediated element uptake Brackish Brine blending Critical zone Deltas Earth sciences Earth, ocean, space Evolution Exact sciences and technology Freshwater Groundwater evolution Hydrochemistry Hydrogeology Hydrology Hydrology. Hydrogeology Lakes Precipitation Rivers Salinity Salt precipitation/dissolution Strontium
Title	Hydrochemical water evolution in the Aral Sea Basin. Part I: Unconfined groundwater of the Amu Darya Delta – Interactions with surface waters
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