Abstract
Sarykamysh is one of about 2,500 artificial lakes-collectors of drainage water in Central Asia. The Lake is located in a natural depression in the northwestern part of Turkmenistan, it receives irrigation surpluses and soil washing drainage water from Dashoguz and Khoresm oases. The area of the Lake has grown from 12 km2 in 1962 to 3,955 km2 in 2006. In terms of volume the change is from 0.6 km3 to 68.56 km3, respectively. Currently, the national plan is to create a new lake-accumulator in the Karashor depression – the Golden Age Lake. Nowadays, less water is being discharged into the Lake, and in the future its area/level will decrease significantly. With average annual evaporation rates of 1.2–1.4 m/year, the drying process is expected to be rapid. The study attempts to model the possible scenarios in the development of the Lake following a change of inflow. This research deals with the retrospective study of the parameters of the lake in the past 40 years using GIS and remote sensing methods in order to suggest a forecast of these parameters. The forecasted parameters will enable the mitigation of the negative regional impacts of the Lake’s changes. A three-dimensional model of the Sarykamysh depression was built using the 1940s topographic maps. Topex/Poseidon altimeter data, early Corona satellite images, and time-series of the Landsat satellite images were applied on Digital Elevation Model (DEM) together with ground measurements of the parameters of the Lake and meteorological data. The model was calibrated and validated, and the water balance of the Lake was calculated, enabling us to suggest with higher accuracy, an optimal future inflow.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
CAWATERinfo – Aral Sea Basin (2012) http://www.cawater-info.net/aral/geo_e.htm. An internet site of CAREWIB. Accessed 03 July 2012
Ziyadullaev SK (1990) Use of land and water resources in Central Asia and Southern Kazakhstan. Probl Desert Dev 2:1–3 (in Russian)
Chembarisov E (1988) Hydrochemistry of irrigated areas (on example of the Aral Sea). FAN, Tashkent, Uzbekistan, 104 p (in Russian)
Nikitin A (1987) The lakes of Central Asia. Gidrometeoizdat, Leningrad, 105 p (in Russian)
Tolstov SP, Kes' AS (eds) (1960) Low Amudarya River, Sarykamish, Uzboi. History of formation and population. Materials of Khoresm Expedition, vol. 3. Academy of Sciences of the USSR, Moscow, 347 p (in Russian)
Kiyatkin A, Sanin MV (1989) The Lake Sarykamish – the largest accumulator of collector and drainage water. Amelioration and Water Industry 1:20–24 (in Russian)
Mansimov M, Glazovsky V (1988) Sarykamysh depression: problems and perspectives. Probl Desert Dev 4:71–72 (in Russian)
Anisimov V, Staroverova B (1982) The modern state and perspective of fishery in the Sarykamysh Lake. Vestnik Karakalpakstan branch of Academy of Sciences of Uzbekistan 3(89):47–52 (in Russian)
Shaporenko SI (1987) The effect of hydrological regime on fish productivity of salinized water bodies (using the example of the Aral Sea, lakes of the Arnasai system and Sarykamysh) [Vliyaniy gidrologicheskogo rezhima na ryboropoduktivnost' osolonyayushikhsya vodoyemov (na primere Aralskogo morya, ozer Arsanajskoi sistemy i Sarykamysh)]. Avtoref na soisk uch. step.k.g.n. (Moscow)
Djumaniyazov K (1978) Lake Sarykamish. Proc SANIGMI 59(140):67–73 (in Russian)
Vitkovskay T, Mansimov M, Shekhter L (1985) Dynamics of Sarykamysh Lake by remote sensing data. Probl Desert Dev 6:38–43 (in Russian)
Gorelkin N, Mansimov M (1990) Hydrometeorological regime and water/salt balance of the lake Sarykamysh. Proc SANIGMI 133(214):70–84 (in Russian)
Mansimov M (1987) Lake Sarykamish and its influence on the adjacent environment. Probl Desert Dev 2:65–68 (in Russian)
Mansimov M (1994) Dynamics of landscape and ecological conditions in the zone of influence of the Sarykamysh Lake. Probl Desert Dev 3:32–38 (in Russian)
Saparov U, Golubchenko V (2001) Turkmen Lake in the Karakum Desert. Probl Desert Dev 1:46–51 (in Russian)
Kes' AS (ed) (1991) Lake Sarykamysh and water bodies collectors of drainage water. Nauka, Moscow, 150 pp (in Russian)
Aladin N (2000) Water and environment health – historic evolution of the Aral Sea system. Water security – opportunity of development and cooperation in the Aral Sea area. A SIWI/RSAS/UNIFEM Seminar, Stockholm, 2000
Grigoryev AA (1955) The Sate of Soviet Geography. Geogr J 121–124:429–439 (in Russian)
Countryturkmenistan (2005) Information portal accessed on http://countryturkmenistan.tripod.com/index.blog?start=1118403201
Aladin N, Letolle R, Micklin P, Plotnikov I (2005) Uzboy and the Aral regressions: an hydrological approach. International conference on rapid sea level change – a Caspian perspective, Rashat, Iran
Sanin M et al (1991) Sarykamysh Lake and water bodies-collectors of drainage waters. Nauka, Moscow, 149 p (in Russian)
Pavlovskaya LP (1995) Fishery in the lower Amu-Darya under the impact of irrigated agriculture. FAO Fisheries Circular No. 894, 42–57. FAO, Rome
Petr T (ed) (2003) Fisheries in irrigation systems of arid Asia. FAO Fisheries Technical Paper. No. 430. Rome, FAO, 2003, 150 p
Alimokhamedov MA, Lesnik IUN, Timoshenko AM (1982) The use of space photographs in the mapping of glaciers and water bodies. Geodeziia i Kartografiia, May 1982, 24–30 (in Russian)
Nuriddinov OS (1989) Use of remote sensing in the study of the changing shoreline of Sarykamysh Lake. Sci Remote Sens 26(1):74–77 (in Russian)
Kikichev KG, Kostyyukovsky VI, Sanin MV, Shevtsov LA, Shkarin BI (1990) Assessment of evaporation off the surface of the Sarykamysh Lake from Radioisotope data. Int J Radiat Appl Instrum Part E Nucl Geophys 4–1:91–98
Nezlin PN, Kostianoy AG, Lebedev SA (2004) Interannual variations of the discharge of the Amu Darya and Syr Darya estimated from global atmospheric precipitation. J Mar Syst 47:67–75
Cretaux JF, Birkett C (2006) Lake studies from satellite altimetry. CR GeoSci 338:1098–1112
Asmar BN, Ergzinger P (1999) Estimation of evaporation from the Dead Sea. Hydrol Process 13:2743–2750
Brutsaert W (1982) Evaporation into the atmosphere: theory, history and applications. D. Reidel Publishing Company, Dordrecht
Penman HL (1948) Natural evaporation from open water, bare soil and grass. Proc Royal Soc Lond Series A 193:120–145
Amer MH (1992) Fayoum Oasis of Egypt. A Ph.D Thesis work. Water Research Center, El Kanater, Egypt
Glazovsky NF (1995) The salt balance of the Aral Sea. GeoJournal 35(1):35–41
Benduhn F, Renard P (2004) A dynamic model of the Aral Sea water and salt balance. J Mar Syst 47:35–50
Orlovsky NS (1971) Evaporation from the small water bodies of Turkmenistan. Ashgabat, Ylym, 96 pp (in Russian)
WHO (2003) Background document for preparation of WHO guidelines for drinking-water quality. Geneva, World Health Organization (WHO/SDE/WSH/03.04/17)
US-EPA (2003) Drinking water contaminants list on the US Environment Protection Agency web site: http://www.epa.gov/safewater/contaminants/index.html#mcls. Accessed on 18 Oct 2007
Pescod MB (ed) (1992) Wastewater treatment and use in agriculture no. 47 Series title: FAO Irrigation and Drainage Papers. Food and Agriculture Organization of the United Nations, Rome, 1992
Gill TE (1996) Aeolian Sediments generated by anthropogenic disturbance of Playas: human impacts on the geomorphic system and geomorphic impacts on human system. Geomorphology 17:207–228
O’Hara SL, Wiggs GFS, Mamedov B, Davidson G, Hubbard RB (2000) Exposure to airborne contaminated with pesticide in the Aral Sea region. Lancet 355:627–628
Orlovsky L, Orlovsky N, Durdyev A (2005) Dust storms in Turkmenistan. J Arid Environ 60:83–97
IFAS (2000) State of environment of the Aral Sea Basin: regional report of the Central Asian States. Portal accessed on http://enrin.grida.no/aral/aralsea/index.htm. 13-4-2005
LEGOS, Hydrology from space, Cretaux JF (ed). Database portal accessed on http://www.legos.obsmip.fr/en/soa/hydrologie/hydroweb/12-8-2007
Allmetsat – online weather and climate database. http://www.allmetsat.com. Accessed 23 July 2007
Earth-Explorer, Earth Resources Observation & Science (EROS) USGS. http://www.earthexplorer.usgs.gov/. Accessed during Mar 2005 to Oct 2007
Roll G, Alexeeva N, Aladin N, Sokolov V, Sarsembekov T (2004) The Aral Sea – management, experience and lessons learned. A status report on the portal: International Waters Learning Exchange and Resource Network. http://www.iwlearn.net/publications/ll/aralsea_2005.pdf/view
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2012 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Orlovsky, L., Matsrafi, O., Orlovsky, N., Kouznetsov, M. (2012). Sarykamysh Lake: Collector of Drainage Water – The Past, the Present, and the Future. In: Zonn, I., Kostianoy, A. (eds) The Turkmen Lake Altyn Asyr and Water Resources in Turkmenistan. The Handbook of Environmental Chemistry, vol 28. Springer, Berlin, Heidelberg. https://doi.org/10.1007/698_2012_191
Download citation
DOI: https://doi.org/10.1007/698_2012_191
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-38606-0
Online ISBN: 978-3-642-38607-7
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)