The influence of irrigation water on the hydrology and lake water budgets of two small arid-climate lakes in Khorezm, Uzbekistan

► Little known regarding origins and hydrology of numerous small lakes in Uzbekistan. ► These arid-climate lakes may offer potential utility. ► Study concluded Amu Darya River is source of lake water. ► Input of irrigation water required to offset losses to evaporation and groundwater. Little is kno...

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Veröffentlicht in:Journal of hydrology (Amsterdam) 2011-11, Vol.410 (1), p.114-125
Hauptverfasser: Scott, Julian, Rosen, Michael R., Saito, Laurel, Decker, David L.
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Sprache:eng
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Zusammenfassung:► Little known regarding origins and hydrology of numerous small lakes in Uzbekistan. ► These arid-climate lakes may offer potential utility. ► Study concluded Amu Darya River is source of lake water. ► Input of irrigation water required to offset losses to evaporation and groundwater. Little is known regarding the origins and hydrology of hundreds of small lakes located in the western Uzbekistan province of Khorezm, Central Asia. Situated in the Aral Sea Basin, Khorezm is a productive agricultural region, growing mainly cotton, wheat, and rice. Irrigation is provided by an extensive canal network that conveys water from the Amu Darya River (AD) throughout the province. The region receives on average 10 cm/year of precipitation, yet potential evapotranspiration exceeds this amount by about 15 times. It was hypothesized that the perennial existence of the lakes of interest depends on periodic input of excess irrigation water. This hypothesis was investigated by studying two small lakes in the region, Tuyrek and Khodjababa. In June and July 2008, surface water and shallow groundwater samples were collected at these lake systems and surrounding communities and analyzed for δ 2H, δ 18O, and major ion hydrochemistry to determine water sources. Water table and lake surface elevations were monitored, and the local aquifer characteristics were determined through aquifer tests. These data and climate data from a Class A evaporation pan and meteorological stations were used to estimate water budgets for both lakes. Lake evaporation was found to be about 0.7 cm/day during the study period. Results confirm that the waters sampled at both lake systems and throughout central Khorezm were evaporated from AD water to varying degrees. Together, the water budgets and stable isotope and major ion hydrochemistry data suggest that without surface water input from some source (i.e. excess irrigation water), these and other Khorezm lakes with similar hydrology may decrease in volume dramatically, potentially to the point of complete desiccation.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2011.09.028