Abstract
Large parts of Central Asia are characterized by a semiarid to arid climate. Therefore, areas close to shallow groundwater, rivers and lakes are characterized by unique water-dependent ecosystems and human societies which have developed over millennia in close interaction with the naturally limited water resources. In the early 21st century, global climate change, population growth, river damming, large-scale water abstractions and rising levels of pollution exert multiple pressures on the region’s water resources, aquatic and terrestrial ecosystems at historically high levels. Water scarcity threatens the livelihood of populations locally and in transboundary settings by a growing competition over a limited resource. This context is of particular importance since all major rivers of the region cross at least one international border. The complexity and character of water-related challenges in the region mean that management approaches need to be integrative, taking into account the natural resource basis, environmental limits and the socio-cultural and geopolitical dimension. This paper frames the thematic issue of Environmental Earth Sciences and provides a comprehensive overview about the current state of knowledge about water resources and their management in Central Asia. There is a focus on case studies looking at the Selenga–Baikal–Angara Basin, the Lake Aral Basin including the Syr Darya and Amu Darya river systems, the Tarim and the Illi River Basins. Aiming to be an up-to-date interdisciplinary scientific reference on the region’s water-related challenges, this thematic issue gives theoretical and practical insights into solutions and best practice examples of water management.
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References
Abdolvand B, Mez L, Winter K, Mirsaeedi-Gloßner S, Schütt B, Rost KT, Bar J (2014) The dimension of water in Central Asia: security concerns and the long road of capacity building. Environ Earth Sci. doi:10.1007/s12665-014-3579-9
Abdullaev I, Rakhmatullaev S (2013) Transformation of water management in Central Asia: from State-centric, hydraulic mission to socio-political control. Environ Earth Sci. doi:10.1007/s12665-013-2879-9
Aishan T, Halik U, Kurban A, Cyffka B, Kuba M, Betz F, Keyimu M (2014) Eco-morphological response of floodplain forests (Populus euphratica Oliv.) to water diversion in the lower Tarim River, northwest China. Environ Earth Sci. doi:10.1007/s12665-013-3033-4
Aus der Beek T, Voss F, Flörke M (2011) Modelling the impact of global change on the hydrological system of the Aral Sea basin. Phys Chem Earth 36(13):684–695. doi:10.1016/j.pce.2011.O3.004
Avlyush S, Schäffer M, Borchardt D (2013) Life cycles and habitat selection of two sympatric mayflies under extreme continental climate (River Kharaa, Mongolia). Int Rev Hydrobiol 98(3):141–154. doi:10.1002/iroh.201301628
Borchardt D, Bjørnsen PK, Bogardi JJ et al (2013) Message from the Dresden International Conference on integrated water resources management: management of water in a changing world: lessons learnt and innovative perspectives. In: Borchardt D, Ibisch R (eds) Integrated water resources management in a changing world: lessons learnt and innovation perspectives. IWA Publishing, London, pp 12–14
Chalov S, Kasimov N, Lychagin M, Belozerova E, Shinkareva G, Theuring P, Romanchenko A, Alexeevsky N, Garmaev E (2013) Water resources assessment of the Selenga–Baikal river system. GeoÖko 34(1–2):77–102
Chalov S, Jarsjö J, Kasimov NS, Romanchenko AO, Pietrón J, Thorslund J, Promakhova EV (2014) Spatio-temporal variation of sediment transport in the Selenga River Basin, Mongolia and Russia. Environ Earth Sci. doi:10.1007/s12665-014-3106-z
Chen Y, Li W, Xu C, Hao X (2007) Effects of climate change on water resources in Tarim River Basin Northwest China. J Environ Sci 19(4):488–493. doi:10.1016/S1001-0742(07)60082-5
Chen Y, Li W, Xu C, Ye Z, Chen Y (2013) Desert riparian vegetation and groundwater in the lower reaches of the Tarim River basin. Environ Earth Sci. doi:10.1007/s12665-013-3002-y
Conrad C, Rahmann M, Machwitz M, Stulina G, Paeth H, Dech S (2013) Satellite based calculation of spatially distributed crop water requirements for cotton and wheat cultivation in Fergana Valley, Uzbekistan. Glob Planet Chang 110(A):88–98. doi:10.1016/j.gloplacha.2013.08.002
Cowan PJ (2007) Geographic usage of the terms Middle Asia and Central Asia. J Arid Environ 69:359–363. doi:10.1016/j.jaridenv.2006.09.013
Cretaux JF, Letolle R, Bergé-Nguyen M (2013) History of Aral Sea level variability and current scientific debates. Glob Planet Chang 110(A):99–113. doi:10.1016/j.gloplacha.2013.05.006
Darracq A, Destouni G (2005) In-stream nitrogen attenuation: model-aggregation effects and implications for coastal nitrogen impacts. Environ Sci Technol 39(10):3716–3722. doi:10.1021/es049740o
Djanibekov N, Frohberg K, Djanibekov U (2013) Income-based projections of water footprint of food consumption in Uzbekistan. Glob Planet Chang 110(A):130–142. doi:10.1016/j.gloplacha.2013.08.015
Dukhovny VA and Galina S (2008): Water and Food Security in Central Asia. In: Madramootoo CA and Dukhovny VA (2008): Water and Food Security in Central Asia, pp. 1-24. NATO Science for Peace and Security Series - C: Environmental Security. Dordrecht, The Netherlands: Springer
Dukhovny VA, Sokolov V, Manthrithilake H (eds) (2008) Integrated water resources management: putting good theory into real practice. Central Asian experience. SIC ICWC and GWP-CACENA, Tashkent
Evans B, Webster M (2008) Adapting to Climate Change in Europe and Central Asia. Background Paper on Water Supply and Sanitation. World Bank Sustainable Development Department, Europe and Central Asia Region, Washington
Feike T, Mamitimin Y, Li L, Doluschitz R (2014) Development of agricultural land and water use and its driving forces along the Aksu and Tarim River P.R. China. Environ Earth Sci. doi:10.1007/s12665-014-3108-x
Feng Z-D, Wu HN, Zhang CJ, Ran M, Sun AZ (2013) Bioclimatic change of the past 2,500 years within the Balkhash Basin, eastern Kazakhstan, Central Asia. Quatern Int 311:63–70
Fort M (2014) Natural hazards versus climate change and their potential impacts in the dry, northern Himalayas: focus on the upper Kali Gandaki (Mustang District Nepal). Environ Earth Sci. doi:10.1007/s12665-014-3087-y
Garmaev EJ, Khristovorov, AB (2010): Water Resources of the Rivers of the Lake Baikal Basin: Basics of Their Use and Protection. Novosibirsk: Academic Press “Geo” [Гapмaeв EЖ, Xpиcтoфopoв AB (2010): Boдныe pecypcы peк бacceйнa oзepa Бaйкaл: ocнoвы иx иcпoльзoвaния и oxpaны. Hoвocибиpcк: Aкaдeмичecкoe издaтeльcтвo ГEO. Publication in Russian language]
Gessner U, Naeimi V, Klein I, Kuenzer C, Klein D, Dech S (2013) The relationship between precipitation anomalies and satellite-derived vegetation activity in Central Asia. Glob Planet Chang 110(A):74–87. doi:10.1016/j.gloplacha.2012.09.007
Global Water Partnership Technical Advisory Committee (=GWP-TAC) (2000) Integrated water resources management. Stockholm, Sweden
Groll M, Opp C, Kulmatov R, Ikramova M, Normatov I (2013) Water quality, potential conflicts and solutions–an upstream downstream analysis of the transnational Zarafshan River (Tajikistan Uzbekistan). Environ Earth Sci. doi:10.1007/s12665-013-2988-5
Hagg W, Hoelzle M, Wagner S, Mayr E, Klose Z (2013a) Glacier and runoff changes in the Rukhk catchment, upper Amu-Darya basin until 2050. Glob Planet Chang 110(A):62–73. doi:10.1016/j.gloplacha.2013.05.005
Hagg W, Mayer C, Lambrecht A, Kriegel D, Azizov E (2013b) Glacier changes in the Big Naryn basin, Central Tien Shan. Glob Planet Chang 110(A):40–50. doi:10.1016/j.gloplacha.2012.07.010
Han S, Hu H, Yang D, Liu Q (2011) Irrigation impact on annual water balance of the oases in Tarim Basin Northwest China. Hydrol Process 25(2):167–174. doi:10.1002/hyp.7830
Heldt S (2014) The EU-WFD as an Implementation Tool for IWRM in non-European Countries Case Study: Drafting a River Basin Management Plan for the Kharaa River in Northern Mongolia. Master thesis, universities of Nijmegen (Netherlands) and Duisburg-Essen (Germany)
Hofmann J, Venohr M, Behrendt H, Opitz D (2010) Integrated Water Resources Management in Central Asia: nutrient and heavy metal emissions and their relevance for the Kharaa River Basin Mongolia. Water Sci Technol 62(2):353–363. doi:10.2166/wst.2010.262
Hofmann J, Watson V, Scharaw B (2014) Groundwater quality under stress: contaminants in the Kharaa River basin (Mongolia). Environ Earth Sci. doi:10.1007/s12665-014-3148-2
Horlemann L, Dombrowsky I (2012) Institutionalising IWRM in develo** and transition countries: the case of Mongolia. Environ Earth Sci 65(5):1547–1559. doi:10.1007/s12665-011-1213-7
Hülsmann L, Geyer T, Schweitzer C, Priess J, Karthe D (2014) The effect of subarctic conditions on water resources: initial results and limitations of the swat model applied to the Kharaa river basin in Northern Mongolia. Environ Earth Sci. doi:10.1007/s12665-014-3173-1
Intergovernmental panel on climate change (= IPCC, 2007a): Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge and New York: Cambridge University Press
Intergovernmental panel on climate change : Climate Change (=IPCC, 2007b) Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge and New York: Cambridge University Press
Jaguś A, Rzętała MA, Rzętała M (2014) Water storage possibilities in Lake Baikal and in reservoirs impounded by the dams of the Angara River cascade. Environ Earth Sci. doi:10.1007/s12665-014-3166-0
Janusz-Pawletta B (2014) Current legal challenges to institutional governance of transboundary water resources in Central Asia and joint management arrangements. Environ Earth Sci. doi:10.1007/s12665-014-3471-7
Janusz-Pawletta B, Yodalieva M (eds) (2013) Applying the concept of integrated water resources management in central asia the current practices and further development. German-Kazakh University, Almaty
Jarsjö J, Asokan SM, Prieto C, Bring A, Destouni G (2012) Hydrological responses to climate change conditioned by historic alteration of land-use and water use. Hydrol Earth Syst Sci 16(5):1335–1347. doi:10.5194/hess-16-1335-2012
Karthe D, Borchardt D, Kaus A (2011): Towards an Integrated Water Resources Management for the Kharaa Catchment, Mongolia. In: Гypинoвич AД (Ed.) (2011) Proceedings of the IWA 1st Central Asian Regional Young and Senior Water Professionals Conference, Almaty/Kazakhstan, pp. 79–93
Karthe D, Heldt S, Houdret A, Borchardt D (2014) IWRM in a country under rapid transition: lessons learnt from the Kharaa River Basin, Mongolia. Environ Earth Sci. doi:10.1007/s12665-014-3435-y
Kerschbaumer L, Köbbing JF, Ott K, Zerbe S, Thevs N (2014) Development scenarios on Hetao irrigation area (China): a qualitative analysis from social, economic and ecological perspectives. Environ Earth Sci. doi:10.1007/s12665-014-3061-8
Kriegel D, Mayer C, Hagg W, Vorogushyn S, Duethmann D, Gafurov A, Farinotti D (2013) Changes in glacerisation, climate and runoff in the second half of the 20th century in the Naryn basin, Central Asia. Glob Planet Chang 110(A):51–61. doi:10.1016/j.gloplacha.2013.05.014
Kundzewicz ZW, Merz B, Vorogushyn S, Hartmann H, Duethmann D, Wortmann M, Huang S, Su B, Jiang T, Krysanova V (2014) Analysis of changes in climate and river discharge with focus on seasonal runoff predictability in the Aksu River Basin. Environ Earth Sci. doi:10.1007/s12665-014-3137-5
Lei Y, Li X, Ling H (2014) Model for calculating suitable scales of oases in a continental river basin located in an extremely arid region, China. Environ Earth Sci. doi:10.1007/s12665-014-3328-0
Li S, Tang Q, Lei J, Xu X, Jiang J, Wang Y (2014) An overview of non-conventional water resource utilization technologies for biological sand control in **njiang, northwest China. Environ Earth Sci. doi:10.1007/s12665-014-3443-y
Lioubimtseva E (2014) A multi-scale assessment of human vulnerability to climate change in the Aral Sea Basin. Environ Earth Sci. doi:10.1007/s12665-014-3104-1
Lioubimtseva E, Henebry GM (2009) Climate and environmental change in arid Central Asia: impacts, vulnerability and adaptations. J Arid Environ 73(11):963–977. doi:10.1016/j.jaridenv.2009.04.022
Malmström ME, Berglund S, Jarsjö J (2008) Combined effects of spatially variable flow and mineralogy on the attenuation of acid mine drainage in groundwater. Appl Geochem 23(6):1419–1436. doi:10.1016/j.apgeochem.2007.12.029
Malsy M, aus der Beek T, Eisner S, Flörke M (2012) Climate change impacts on Central Asian water resources. Adv Geosci 32:77–83. doi:10.5194/adgeo-32-77-2012
Malsy M, aus der Beek T, Flörke M (2014) Evaluation of large-scale precipitation data sets for water resources modelling in Central Asia. Environ Earth Sci. doi:10.1007/s12665-014-3107-y
Mamitimin Y, Feike T, Seifert I, Doluschitz R (2014) Irrigation in the Tarim Basin, China: farmers‘response to changes in water pricing practices. Environ Earth Sci. doi:10.1007/s12665-014-3245-2
Mannig B, Müller M, Starke E, Merkenschlager C, Mao W, Zhi X, Podzun R, Jacob D, Paeth H (2013): Dynamical downscaling of climate change in Central Asia. Glob Planet Chang 110(A):26-39. doi: 10.1016/j.gloplacha.2013.05.008
Menzel L, Hofmann J, Ibisch R (2011) Untersuchung von Wasser- und Stoffflüssen als Grundlage für ein Integriertes Wasserressourcen-Management im Kharaa-Einzugsgebiet. Mongolei. Hydrologie und Wasserbewirtschaftung 55(2):88–103
Mercado-Silva N, Gilroy DJ, Erdenebat M, Hogan Z, Chandra S, Vander Zanden MJ (2008) Fish Community Composition and Habitat Use in the Eg-Uur River System. Mongolia. Mong J Biol Sci 6(1–2):21–30
Minderlein S, Menzel L (2014) Evapotranspiration and energy balance dynamics of a semi-arid mountainous steppe and shrubland site in northern Mongolia. Environ Earth Sci. doi:10.1007/s12665-014-3335-1
Narangarvuu D, Oyunbileg J, Yang PS, Boldgiv B (2013) Distribution of Ephemeroptera, Plecoptera, and Trichoptera assemblages in relation to environmental variables in headwater streams of Mongolia. Environ Earth Sci. doi:10.1007/s12665-013-2968-9
Opp C (2007a) Vom Aralsee zur Aralkum: Ursachen, Wirkungen und Folgen des Aralsee-Syndroms. In: Glaser R and Kremb K (Eds) Asien Darmstadt, Germany, Wissenschaftliche Buchgesellschaft Darmstadt, pp. 90–100
Opp C (2007b) Welterbe Baikal In: Glaser R and Kremb K (Eds) Asien Darmstadt, Germany: Wissenschaftliche Buchgesellschaft Darmstadt, pp. 101–112
Pfeiffer M, Batbayar G, Hofmann J, Siegfried K, Karthe D, Hahn-Tomer S (2014) Investigating arsenic (As) occurrence and sources in ground, surface, waste and drinking water in northern Mongolia. Environ Earth Sci. doi:10.1007/s12665-013-3029-0
Priess JA, Schweitzer C, Batkhishig O, Koschitzki T, Wurbs D (2014) Impacts of agricultural land-use dynamics on erosion risks and options for land and water management in Northern Mongolia. Environ Earth Sci. doi:10.1007/s12665-014-3380-9
Roll G, Alexeeva N, Aladin N, Plotnikov I, Sokolov V, Sarsembekov T, Micklin P (2005): Aral Sea: experience and lessons learnt brief. Report of the Lake Basin Management Initiative. http://www.iwlearn.net/iw-projects/1665/experience-notes-and-lessons-learned/aralsea_2005.pdf/view, accessed 24.04.2014
Rost G, Londong J, Dietze S, Osor G (2014a) Integrated urban water management–development of an adapted management approach Darkhan, Kharaa catchment, Mongolia. Environ Earth Sci, Case study area. doi:10.1007/s12665-014-3701-z
Rost T, Ratfelder G, Topbaev O (2014b) Problems of rural drinking water supply management in Central Kyrgyzstan: a case study from Kara-Suu village. Environ Earth Sci, Naryn Oblast. doi:10.1007/s12665-014-3299-1
Rudenko I, Bekchanov M, Djanibekov U, Lamers JPA (2013) The added value of a water footprint approach: Micro- and macroeconomic analysis of cotton production, processing and export in water bound Uzbekistan. Glob Planet Chang 110(A):143–151. doi:10.1016/j.gloplacha.2013.09.007
Savoskul OS, Smakhtin V (2013) Glacier systems and seasonal snow cover in six major Asian river basins: hydrological role under changing climate. IWMI Research Report 150. International Water Management Institute, Colombo
Schielzeth H, Kamp J, Eichhorn G, Heinicke T, Koshkin MA, Lachmann L, Sheldon RD, Koshkin AV (2010) Wader, gull and tern population estimates for a key breeding and stopover site in Central Kazakhstan. Bird Conserv Int 20(2):186–199. doi:10.1017/S0959270910000031
Schlüter M, Khasankhanova G, Talsikh V, Taryannikova R, Agaltseva N, Joldasova I, Ibragimov R, Abdullaev U (2013) Enhancing resilience to water flow uncertainty by integrating environmental flows into water management in the Amudarya River, Central Asia. Glob Planet Chang 110(A):114–129. doi:10.1016/j.gloplacha.2013.05.007
Semenov MY, Zimnik EA (2014) A three-component hydrograph separation based on relationship between organic and inorganic component concentrations: a case study in Eastern Siberia, Russia. Environ Earth Sci. doi:10.1007/s12665-014-3533-x
Shiklomanov L, Rodda JC (2003) World water resources at the beginning of the 21st century. Cambridge University Press, Cambridge
Thevs N, Buras A, Zerbe S, Kühnel E, Abdusalih N, Ovezberdiyeva A (2012) Structure and wood biomass of near-natural floodplain forests along the Central Asian Rivers Tarim and Amu Darya. Forestry 85(2):193–202. doi:10.1093/forestry/cpr056
Thevs N, Rouzi A, Kubal C, Abdusalih N (2013) Water consumption of agriculture and natural ecosystems along the Tarim river. GeoÖko China 34(1–2):50–76
Thevs N, Ovezmuradov K, Zanjani LV, Zerbe S (2014) Water consumption of agriculture and natural ecosystems at the Amu Darya in Lebap Province. Environ Earth Sci, Turkmenistan. doi:10.1007/s12665-014-3084-1
Thorslund J, Jarsjö J, Belozerorva E, Chalov S (2012) Assessment of the gold mining impact on riverine heavy metal transport in a sparsely monitored region: the upper Lake Baikal Basin case. J Environ Monit 14(10):2780–2792. doi:10.1039/C2EM30643C
Unger-Sayesteh K, Vorogushyn S, Farinotti D, Gafurov A, Duethmann D, Mandychev A, Merz B (2013a): What do we know about past changes in the water cycle of Central Asian headwaters? A review. Glob Planet Chang 110(A):4-25. doi: 10.1016/j.gloplacha.2013.02.004
Unger-Sayesteh K, Vorogushyn S, Merz B, Frede HG (2013b): Introduction to “Water in Central Asia – Perspectives under global change”. Glob Planet Chang 110(A):1-3. doi: 10.1016/j.gloplacha.2013.09.016
Valentini KL, Orolbaev EE, Abylgazieva AK (2004) Water problems of Central Asia. Bishkek, Kyrgyzstan
Viviroli D, Weingartner R (2004) The hydrological significance of mountains: from regional to global scale. Hydrol Earth Syst Sci 8(6):1016–1029. doi:10.5194/hess-8-1017-2004
Vörösmarty CJ, McIntyre PB, Gessner MO, Dudgeon D, Prusevich A, Green P, Glidden S, Bunn SE, Sullivan CA, Reidy Liermann C, Davies PM (2010) Global threats to human water security and river biodiversity. Nature 467(7315):555–561. doi:10.1038/nature09440
White RP, Murray S, Rohweder M (2000) Pilot analysis of global ecosystems. World Resource Institute, Washington
World Water Assessment Program (=WWAP) (2012a) The United Nations World Water Development Report 4: managing water under uncertainty and risk. UNESCO, Paris
World Water Assessment Program (=WWAP) (2012b) The United Nations World Water Development Report 4: knowledge base. UNESCO, Paris
Xu Z (2014) Potential distribution of invasive alien species in the upper Ili river basin: determination and mechanism of bioclimatic variables under climate change. Environ Earth Sci. doi:10.1007/s12665-014-3083-2
Xu H, Ye M, Li JL (2008) The water transfer effects on agricultural development in the lower Tarim River **njiang of China. Agr Water Manage 95(1):59–68. doi:10.1016/j.agwat.2007.09.004
Zhao L, Wu Q, Marchenko SS, Sharkhuu N (2010) Thermal state of permafrost and active layer in central asia during the international polar year. Permafrost Periglac Process 21(2):198–207. doi:10.1002/ppp.688
Zinzani A (2014) Irrigation Management Transfer and WUA’s dynamics: evidence from the South Kazakhstan Province. Environ Earth Sci. doi:10.1007/s12665-014-3209-6
Acknowledgments
The idea of this thematic issue came up in the context of the bilateral German-Russian research project “Sustainable Water Management in the Selenga–Baikal Basin: Development of an Integrated Monitoring Concept for a Transboundary Catchment with Multiple Stressors” (grant no. 01DJ13013 of the International Bureau of the German Federal Ministry of Education and Research). Moreover, this special issue would not have been possible without the authors’ experiences and personal contacts resulting from the field work done under projects funded by Russian Geographical Society grant “Expedition Selenga-Baikal”, the German-Mongolian research project “Integrated Water Resources Management in Central Asia: Model Region Mongolia”, funded by the German Federal Ministry of Education and Research (BMBF) in the framework of the FONA (Research for Sustainable Development) initiative (grant no. 033L003), and theoretical investigations on hydrological hazards supported by Russian Scientific Foundation project no.14-17-00155 “River runoff parameterization for prediction of hydrological hazards and their environmental consequences”. The authors thank Mrs. Barbara Kolditz of the journal’s editorial office for the very constructive cooperation during the entire production process of the thematic issue. Moreover, we would like to acknowledge Ms. Sauvlegul Avlyush for her support during the preparational phase.
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Karthe, D., Chalov, S. & Borchardt, D. Water resources and their management in central Asia in the early twenty first century: status, challenges and future prospects. Environ Earth Sci 73, 487–499 (2015). https://doi.org/10.1007/s12665-014-3789-1
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DOI: https://doi.org/10.1007/s12665-014-3789-1