Abstract
Central Asia is the global hotspot of a nexus of resources. Land, water and food are key issues in this nexus. We analysed the status of land and water resources and their potential and limitations for agriculture in the five Central Asian Transition States. Agricultural productivity and its impacts on land and water quality were also studied. The ecological status of open waters and soils as dependent on the kind of water and land use was shown. The main sources were information and data from the scientific literature, recent research reports, the statistical databases of the FAO and UNECE, and the results of our own field work. Agriculture is crucial for the economy of all Central Asian countries and responsible for about 90 % of their water use. We found that land and water resources may provide their function of food supply, but the agricultural productivity of grassland and cropland is relatively low. Irrigation agriculture is sometimes inefficient and may cause serious detrimental side effects involving soil and water salinisation. Dryland farming, as currently practiced, includes a high risk of wind and water erosion. Water bodies and aquatic, arable and grassland ecosystems are in a critical state with tendencies to accelerated degradation and landscape desertification. Despite all these limitations, agricultural landscapes in Central Asia have great potential for multi-functional use as a source of income for the rural population, tourism and eco-tourism included. The precondition for this is a peaceful environment in which they can be developed. All major rivers and their reservoirs cross borders and involve potential conflict between upstream and downstream riparians. The nexus of resources requires more detailed research, both in the extent of individual elements and processes, and their interactions and cycles. Processes in nature and societies are autocorrelated and intercorrelated, but external disturbances or inputs may also trigger future developments. We emphasise the role of knowledge and technology transfer in recognising and controlling processes. There has been a lot of progress in science and technology over the past ten years, but agri-environmental research and education in Central Asia are still in a crisis. Overcoming this crisis and applying advanced methods in science and technology are key issues for further development. Science and technology may provide an overall knowledge shift when it comes to recognising processes and initiating sustainable development. The following chapters introduce the results of further, more detailed and regional analyses of the status of soil and water. Novel measurement and assessment tools for researching into, monitoring and managing land and water resources will be presented. We will inform future elites, scientists and decision makers on how to deal with them and encourage them to take action.
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References
Abdullaev I, Molden D (2004) Spatial and temporal variability of water productivity in the Syr Darya basin, Central Asia. Water Resour Res 2004:1–11
Akramkhanov A, Martius C, Park SJ, Hendrickx JMH (2011) Environmental factors of spatial distribution of soil salinity on flat irrigated terrain. Geoderma 163(2011):55–62
Allouche J (2007) The governance of Central Asian waters: national interests versus regional cooperation. Central Asia at the crossroads. Online source: http://www.unidir.org/pdf/articles/pdf-art2687.pdf. Accessed on 23 Dec 2012
Almaganbetov N, Grigoruk V (2008) Degradation of soil in Kazakhstan: problems and challenges. Soil chemical pollution, risk assessment, remediation and security. NATO Science for Peace and Security Series 2008, pp 309–320
Andrews-Speed P, Bleischwitz R, Boersma T, Johnson C, Kemp G, Van Deveer SD (2012) The global resource nexus. The struggles for land, energy, food, water, and minerals. Transatlantic Academy Washington, DC May 2012, p 100. http://www.gmfus.org/wp-content/blogs.dir/1/files_mf/ta2012report_apr12_web.pdf. Accessed on 6 Dec 2012
Bai J, Chen X, Yang L, Fang H (2012) Monitoring variations of inland lakes in the arid region of Central Asia. Front Earth Sci 6(2):147–156
Bazarbayev AT, Bayekenova MK (2008) The challenge of water provision for pasture lands: a restrictive factor for livestock breeding development in Kazakhstan. Environmental problems of central asia and their economic, social and security impacts. NATO Science for Peace and Security Series C: Environmental Security 2008, pp 201–208
Bezborodov GA, Shadmanov DK, Mirhashimov RT, Yuldashev T, Qureshi AS, Noble AD, Qadir M (2010) Mulching and water quality effects on soil salinity and sodicity dynamics and cotton productivity in Central Asia. Agric Ecosyst Environ 138(2010):95–102
BMBF (2011) KULUNDA—Wie verhindert man die nächste “Global Dust Bowl”?—Ökologische und Ökonomische Strategien zur nachhaltigen Landnutzung in Russischen Steppen: Ein Beitrag zur Anpassung an den Klimawandel. http://www.kooperation-international.de/detail/info/verbundvorhaben-kulunda-wie-verhindert-man-die-naechste-global-dust-bowl-oekologische-und-oekon.html. Accessed on 1 Jan 2013
Bobodzhanova K (2012) Food safety issues in Tajikistan. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. NATO science for Peace and Security Series C: Environmental Security. Springer Science + Business Media B.V. 2012, p 31–42
Bolch T, Peters J, Yegorov A, Pradhan B, Buchroithner M, Blagoveshchensky V (2011) Identification of potentially dangerous glacial lakes in the northern Tien Shan. Nat Hazards 59(3):1691–1714 http://link.springer.com/article/10.1007%2Fs11069-011-9860-2. Accessed 1 Jan 2013
Bot AJ, Nachtergaele FO, Young A (2000) Land resource potential and constraints at regional and country levels. World Soil Res Rep (FAO), No. 90, Rome (Italy) FAO Land and Water Development Division
Bucknall J, Klytchnikova I, Lampietti J, Lundell M, Scatasta M, Thurman M (2003) Irrigation in Central Asia. Social, economic and environmental considerations. The World Bank, February 2003. http://siteresources.worldbank.org/ECAEXT/Resources/publications/Irrigation-in-Central-Asia/Irrigation_in_Central_Asia-Full_Document-English.pdf. Accessed 23 Nov 2012
Cai X, McKinney DC, Rosegrant MW (2003) Sustainability analysis for irrigation water management in the Aral Sea region. Agric Syst 76(2003):1043–1066
Cathcart RB, Badescu V (2011) Aral Sea partial refill with imported Caspian Sea water. In: Badescu V, Cathcart RB (eds) Macro-engineering seawater in unique environments, environmental science and engineering. Springer, Berlin, pp 317–349
Causarano HC, Doraiswamy PC, Muratova N, Pachikin K, McCarty GW, Akhmedov B, Williams JR (2010) Improved modeling of soil organic carbon in a semiarid region of Central East Kazakhstan using EPICAgron Sustain Dev (2011) 31:275–286, doi:10.1051/agro/2010028
CBD Secretariat (2012) Convention of biological diversity. http://www.cbd.int/countries/profile. Accessed 13 Jan 2013
CIA (2011) The world factbook. https://www.cia.gov/library/publications/the-world-factbook/fields/2201.html. Accessed 9 Dec 2012
Crosa G, Froebrich J, Nikolayenko V, Stefani F, Galli P, Calamari D (2006) Spatial and seasonal variations in the water quality of the Amu Darya River (Central Asia). Water Res 40(2006):2237–2245
Dahl C, Kuralbayeva K (2001) Energy and the environment in Kazakhstan. Energy Policy 29(2001):429–440
Djancharov D (2003) The use of irrigation systems for fish production in Kyrgyzstan. In: Petr T (ed) Fisheries in irrigation systems of arid Asia. FAO Fisheries Technical Paper. No 430. Rome, FAO, 2003, 150p, 71–75, ftp://fao.org/docrep/fao/007/y5082e/y5082e00.pdf. Accessed on 23 Nov 2012
Djanibekov U, Khamzina A, Djanibekov N, Lamers JPA (2012) How attractive are short-term CDM forestations in arid regions? The case of irrigated croplands in Uzbekistan. Forest Policy Econ 21(2012):108–117
Djumaeva D, Lamers JPA, Khamzina A, Vlek PLG (2012) The benefits of phosphorus fertilization of trees grown on salinized croplands in the lower reaches of Amu Darya, Uzbekistan. Agroforestry Systems, in print, doi: 10.1007/s10457-012-9576-7
D’Odorico P, Bhattachan A, Davis KF, Ravi S, Runyan CW (2012) Global desertification: drivers and feedbacks. Adv Water Res http://dx.doi.org/10.1016/j.advjwatres.1212.01.013. Accessed on 18 Dec 2012
Dukhovny VA, Stulina G (2011) Water and food security in Central Asia. In: Madramootoo C, Dukhovny V (eds) NATO science for peace and security series C: environmental security, water and food security in Central Asia. 10.1007/978-90-481-9974-7_1, Springer Science + Business Media B.V. 2011
EC IFAS (2011) Online source http://www.ec-ifas.org/about/. Accessed on 18 Dec 2012
Echtler H, Frede H.-G, Küppers AN, Mandychev AN, Merz B, Moldobekov B, Unger-Shayesteh K, Vorogushyn S (2009) Das Forschungsnetzwerk ‘Water in Central Asia’ (CAWa) – Von Klimawandel bis Wassermanagement.—In: Kramer, M. (eds) Integratives und nachhaltigkeitsorientiertes Wassermanagement : Kooperationspotenziale zwischen Deutschland und Zentralasien, Gabler, 59–68
Eisfelder C, Klein I, Niklaus M, Kuenzer C (2012) Remote sensing based net primary productivity modeling for semi-arid Kazakhstan. In: IGARSS 2012 international geoscience and remote sensing symposium in Munich. Paper. MO3.14.1, Oral presentation on 23 July 2012. http://69.5.195.238/Papers/viewpapers.asp?papernum=2418. Accessed on 18 Dec 18 2012
FAO (2002) The state of food insecurity in the world 2001. FAO Rome http://www.fao.org/docrep/003/y1500e/y1500e00.htm. Accessed on 25 Dec 2012
FAO (2006) New_LocClim 1.10. Local climate estimator. Download–Address:ftp://ext-ftp.fao.org/SD/SDR/Agromet/New_LocClim/ on ext-ftp.fao.org. Accessed on 10 Oct 2010
FAO (2012a) AQUASTAT database, food and agriculture organization of the United Nations (FAO) http://www.fao.org/nr/water/aquastat/main/index.stm. Accessed on 13 Nov 2012
FAO (2012b) FAOSTAT database, http://faostat3.fao.org/home/index.html, Area classification: http://faostat.fao.org/site/371/default.aspx. Accessed on 6 Dec 2012
Gavshin VM, Melgunov MS, Sukhorukov FV, Bobrov VA, Kalugin IA, Klerkx J (2005) Disequilibrium between uranium and its progeny in the Lake Issyk-Kul system (Kyrgyzstan) under a combined effect of natural and manmade processes. J Environ Radioact 83(2005):61–74
Gessner U, Naeimi V, Klein I, Kuenzer C, Klein D, Dech S (2012) The relationship between precipitation anomalies and satellite-derived vegetation activity in Central Asia. Global and Planetary Change, in press, GLOBAL-01897, p 14, doi: http://dx.doi.org/10.1016/j.gloplacha.2012.09.007. Accessed on 18 Dec 2012
Giese E, Sehring J, Trouchine A (2004) Zwischenstaatliche Wassernutzungskonflikte in Zentralasien Nr. 18, Giessen im Mai 2004 http://geb.uni-giessen.de/geb/volltexte/2004/1823/. Accessed on 28 Nov 2012
Granit J, Jägerskog A, Löfgren R, Bullock A, de Gooijer G, Pettigrew S, Lindström A (2010) Regional water intelligence report Central Asia. Stockholm, March 2010 http://www.watergovernance.org/documents/WGF/Reports/Paper-15_RWIR_Aral_Sea.pdf. Accessed on 6 Dec 2012
Grewlich KW (2010) Pipelines, Drogen, Kampf ums Wasser—greift die EU-Zentralasien-Strategie? Neues „Great Game“von Afghanistan bis zum Kaspischen Meer? ZEI discussion paper. Center for European Integration Studies. Rheinische Friedrich-Wilhelms-Universität Bonn 2010. http://www.zei.uni-bonn.de/dateien/discussion-paper/dp_c200_grewlich.pdf. Accessed on 28 Nov 2012
Groll M, Opp C, Aslanov I (2012) Spatial and temporal distribution of the dust deposition in Central Asia—results from a long term monitoring program. Aeolian Research. Available online 29 September 2012, In Press, http://dx.doi.org/10.1016/j.aeolia.2012.08.002. Accessed on 18 Dec 2012
Gupta R, Kienzler K, Martius C, Mirzabaev A, Oweis T, de Pauw E, Qadir M, Shideed K, Sommer R, Thomas R, Sayre K, Carli C, Saparov A, Bekenov M, Sanginov S, Nepesov M, Ikramov R, (2009) Research Prospectus: a vision for sustainable land management research in Central Asia. ICARDA Central Asia and Caucasus Program. Sustainable Agriculture in Central Asia and the Caucasus Series No.1. CGIAR-PFU, Tashkent, Uzbekistan. 84 pp
Heaven S, Ilyushchenko MA, Kamberov IM, Politikov MI, Tanton TW, Ullrich SMU, Yanin EP (2000) Mercury in the River Nura and its floodplain, Central Kazakhstan: II. Floodplain soils and riverbank silt deposits. Sci Total Environ 260(2000):45–55
Hbirkou C, Martius C, Khamzina A, Lamers JPA, Welp G, Amelung W (2011) Reducing topsoil salinity and raising carbon stocks through afforestation in Khorezm, Uzbekistan. J Arid Environ 75(2011):146–155
Helming K, Diehl K, Bach H, Dilly O, König B, Kuhlman T, Perez-Soba M, Sieber S, Tabbush P, Tscherning K, Wascher D, Wiggering H (2011) Ex ante impact assessment of policies affecting land use, Part A: analytical framework. Ecol Soc [Electronic resource].16(1):Art. 27, 1–17, http://www.ecologyandsociety.org/vol16/iss1/art27/. Accessed on 18 Dec 2012
Hrkal Z, Gadalia A, Rigaudiere P (2006) Will the river Irtysh survive the year 2030? Impact of long-term unsuitable land use and water management of the upper stretch of the river catchment (North Kazakhstan). In: Environ Geol 50:717–723, doi: 10.1007/s00254-006-0244-y
Ibraeva MA, Otarov A, Wiłkomirski B, Suska-Malawska M (2010) Humus level in soils of Southern Kazakhstan irrigated massifs and their statistical characteristics. Nat Environ. Monit. Środowiska Przyrodniczego, vol. 11, p. 55–61, Kieleckie Towarzystwo Naukowe, Kielce
Ibragimov N, Evett SR, Esanbekov Y, Kamilov BS, Mirzaev L, Lamers JPA (2007) Water use efficiency of irrigated cotton in Uzbekistan under drip and furrow irrigation. Agric Water Manag 90(1):12–120
Ibragimov N, Djumaniyazova Y, Ruzimov J, Eshchanov R, Scheer C, Kienzler K, Lamers JPA, Bekchanov M (2012) Optimal irrigation and N-fertilizer management for sustainable winter wheat production in Khorezm, Uzbekistan. In: Cotton, water, salts and soums, Springer pp 171–180
Ibrakhimov M, Martius C, Lamers JPA, Tischbein B (2011) The dynamics of groundwater table and salinity over 17 years in Khorezm. Agric Water Manag 101(2011):52–61
Indoitu R, Orlovsky L, Orlovsky N (2012) Dust storms in Central Asia: spatial and temporal variations. J Arid Environ 85:62–70
Ismukhanov K, Mukhamedzhanov V (2003) The use of irrigation systems for sustainable production of agricultural and fish products in the Republic of Kazakhstan. In: Petr T (ed) Fisheries in irrigation systems of arid Asia. FAO Fisheries Technical Paper. No. 430. Rome, FAO, 2003. 150p, 101–114, ftp://fao.org/docrep/fao/007/y5082e/y5082e00.pdf. Accessed on 23 Nov 2012
Johansson O, Aimbetov I, Jarsjö J (2009) Variation of groundwater salinity in the partially irrigated Amudarya River delta, Uzbekistan. J Mar Syst 76(2009):287–295
Jumagulov A, Nikolayenko A, Mirkhashimov I (2009) Water quality standards and norms in the Republic of Kazakhstan. The Regional Environmental Center for Central Asia. Almaty, 2009. 44 p. ISBN 9965-659-89-3
Kamilov B (2003) The use of irrigation systems for sustainable fish production: Uzbekistan. In: Petr T (ed) Fisheries in irrigation systems of arid Asia. FAO Fisheries Technical Paper. No. 430. Rome, FAO, 2003, 150p, 115–126, ftp://fao.org/docrep/fao/007/y5082e/y5082e00.pdf. Accessed on 23 Nov 2012
Kamp J, Urazaliev R, Donald PF, Hölzel N (2011) Post-Soviet agricultural change predicts future declines after recent recovery in Eurasian steppe bird populations. Biol Conserv 144(2011):2607–2614
Karimov A, Qadir M, Noble A, Vyshpolsky F, Anzelm K (2009) Development of magnesium-dominant soils under irrigated agriculture in southern Kazakhstan. Pedosphere 19(3):331–343
Karimov A, Molden D, Khamzina T, Platonov A, Ivanov Y (2012) A water accounting procedure to determine the water savings potential of the Fergana Valley. Agric Water Manag 108(2012):61–72
Karimov A, Smakhtin V, Mavlonov A, Gracheva I (2010) Water ‘banking’ in Fergana valley aquifers: a solution to water allocation in the Syrdarya river basin? Agric Water Manag 97(2010):1461–1468
Karnieli A, Gilad U, Ponzet M, Svoray T, Mirzadinov R, Fedorina O (2008) Assessing land-cover change and degradation in the Central Asian deserts using satellite image processing and geostatistical methods. J Arid Environ 72(2008):2093–2105
Kazakh Ministry (2007) Kazakh ministry of environmental protection. environmental monitoring and information management system for sustainable land use. Design guidelines for the SKO subsystem, Kazakhstan Ministry of Environmental Protection, Kazakhstan Asian Development Bank: TA-4375; Mott Mc Donald. 11th Nov 2007. http://www2.adb.org/Documents/CACILM/Guidelines-ADB-LandUse.pdf. Accessed on 23 Nov 2012
Kerven C, Shanbaev K, Alimaev I, Smailov A, Smailov K (2008) Livestock mobility and degradation in Kazakhstan’s semi-arid rangelands. The Socio-economic causes and consequences of desertification in Central Asia. NATO Sci Peace Secur Ser 2008:113–140
Kerven C, Steimann B, Dear C, Ashley L (2012) Researching the future of pastoralism in Central Asia’s mountains: examining development orthodoxies. Mountain Res Develop 32(3):368–377
Keys to Soil Taxonomy (2010) Eleventh edition. ftp://fc.sc.egov.usda.gov/NSSC/Soil_Taxonomy/keys/2010_Keys_to_Soil_Taxonomy.pdf. Accessed on 28 Nov 2012
Kienzler KM (2009) Improving the nitrogen use efficiency and crop quality in the Khorezm region, Uzbekistan. Agrarwissenschaften, Bonn, ZEF/Rheinische Friedrich-Wilhelms-Universität Bonn. p 246. http://hss.ulb.uni-bonn.de/2010/1983/1983.pdf. Accessed on 28 Nov 2012
Kienzler KM, Djanibekov N, Lamers JPA (2011) An agronomic, economic and behavioral analysis of N application to cotton and wheat in post-Soviet Uzbekistan. Agric Syst 104(2011):411–418
Kienzler KM, Lamers JPA, McDonald A, Mirzabaev A, Ibragimov A, Egamberdiev O, Ruzibaev E, Akramkhanov A (2012) Conservation agriculture in Central Asia—What do we know and where do we go from here? Field Crops Res 132(2012):95–105
Klein I, Gessner U, Kuenzer C (2012) Regional land cover mapping and change detection in Central Asia using MODIS time-series. Appl Geogr, 35(1–2):219–234
Kulmyrzaev A (2012) Urgent measures to improve food quality and safety control in the Kyrgyz Republic. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. NATO science for Peace and Security Series C: Environmental Security. Springer Science + Business Media B.V., pp 3–12
Lagutov V (2008) The Ural River sturgeons: population dynamics, catch, reasons for decline and restoration strategies. rescue of sturgeon species in the Ural River Basin. NATO Sci Peace Secur Ser C: Environ Secur 2008:193–276
Lioubimtseva E, Henebry GM (2009) Climate and environmental change in arid Central Asia: Impacts, vulnerability, and adaptations. J Arid Environ 73(2009):963–977
Liu MFM, Pistorius T (2012) Coping with the energy crisis: impact assessment and potentials of non-traditional renewable energy in rural Kyrgyzstan. Energy Policy 44(2012):130–139
Mamedov EY, Esenov PE, Durikov MK, Zverev NE, Tsukanova SK (2009) Experience of halophyte cultivation on saline soils. National Institute of Deserts, Flora and Fauna of the Ministry of Nature Protection of Turkmenistan, Ashgabat, 2009, p 44 http://www.rrcap.ait.asia/library/ca-report/Experience%20of%20Halophyte%20Cultivation%20on%20Saline%20Soils_En.pdf. Accessed on 1 Jan 2013
Mansurova A (2012) Issues of food safety in the Kyrgyz Republic. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. NATO science for Peace and Security Series C: Environmental Security. Springer Science + Business Media B.V. 2012, pp 13–20
MDG indicators (2012) Millenium development goals indicators. The official United Nations site for the MDG indicators. Online source, http://mdgs.un.org/unsd/mdg/host.aspx?Content=indicators/officiallist.htm. Accessed on 23 Dec 2012
Meinel T (2012) Die geoökologischen Folgewirkungen der Steppenumbrüche in den 50-er Jahren in Westsibirien//Diss. Halle 2002. Online: http://sundoc.bibliothek.uni-halle.de/diss-online/02/03H082/t1.pdf. Accessed on 28 Nov 2012
Meißner R, Prasad MNV, Du Laing G, Rinklebe J (2010) Lysimeter application for measuring the water and solute fluxes with high precision. Curr Sci 99(5):601–607
Ministry of Environmental Protection (1998) Kyrgyz republic biodiversity strategy and action plan. MEP, Bishkek. Online source: http://www.cbd.int/doc/world/kg/kg-nbsap-01-en.pdf. Accessed on 14 Jan 2013
Mueller L, Schindler U, Mirschel W, Shepherd TG, Ball BC, Helming K, Rogasik J, Eulenstein F, Wiggering H (2010) Assessing the productivity function of soils. A Rev Agron Sustain Dev 30(3):601–614
National strategy and action plan (1999) National strategy and action plan on conservation and sustainable use of biological diversity in the Republic of Kazakhstan. Ministry of Natural Resources and Protection of Environment of the Republic of Kazakhstan, Kokshetau, 1999, online source: http://www.cbd.int/doc/world/kz/kz-nbsap-01-en.pdf. Accessed on 14 Jan 2013
Nurzhanova A, Kalugin S, Zhambakin K (2012) Obsolete pesticides and application of colonizing plant species for remediation of contaminated soil in Kazakhstan. Environ Sci Pollut Res, in print, doi: 10.1007/s11356-012-1111-x. Springer
OECD (2003) Organisation for economic co-operation and development. Urban Water Reform in Eastern Europe, Caucasus and Central Asia. Pogress since the Almaty Ministerial Conference. Online source: http://www.oecd.org/environment/environmentinemergingandtransitioneconomies/14626557.pdf. Accessed on 16 Dec 2012
Olsson O, Gaßmann M, Manig N, Ikramova M, Wegerich K (2013) Basin efficiency approach and its effect on streamflow quality, Zerafshan River Uzbekistan. J Hydrol 476:128–135
Payziyeva S, Paiziev A (2012) Food security in Uzbekistan. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. NATO science for Peace and Security Series C: environmental Security. Springer Science + Business Media B.V. 2012, pp 43–56
Pauw E de (2007) Principal biomes of Central Asia. pp 3–24 In Climate change and terrestrial carbon sequestration in Central Asia. Lal R, Suleimenov M, Stewart BA, Hansen DO, Doraiswamy P (eds) Taylor and Francis Group, New York, NY, USA
Pereira LS, Paredes P, Eholpankulov ED, Inchenkova OP, Teodoro PR, Horst MG (2009) Irrigation scheduling strategies for cotton to cope with water scarcity in the Fergana Valley Central Asia. Agric Water Manag 96(2009):723–735
Propastin P (2013) Assessment of climate and human induced disaster risk over shared water resources in the Balkhash Lake drainage basin. Climate Change and Disaster Risk Management. Climate Change Manag 2013:41–54
Propastin PA, Kappas M (2010) Modelling carbon Sequestration in drylands of Kazakhstan using remote sensing data and field measurements. Land Degradation and Desertification: Assessment, Mitigation and Remediation, pp 297–306
Qadir M, Noble AD, Qureshi AS, Gupta R, Yuldashev T, Karimov A (2009) Salt-induced land and water degradation in the Aral sea basin: a challenge to sustainable agriculture in Central Asia. Nat Res Forum 33(2):134–149
Qi J, Kulmatov R (2008) An overview of environmental issues in Central Asia. environmental problems of central asia and their economic, social and security impacts. NATO Sci Peace Sec Ser C: Environ Secur 2008:3–14
Qi J, Bobushev TS, Kulmatov R, Groisman P, Gutman G (2012) Addressing global change challenges for Central Asian socio-ecosystems. Front Earth Sci 6(2):115–121
Rachkovskaya EI, Bragina TM (2012) Steppes of Kazakhstan: diversity and present state. Eurasian steppes. Ecological Problems and Livelihoods in a Changing World. Plant Veg 6:103–148
Rahimon RM (2012) Evolution of land use in Pastoral Culture in Central Asia with special reference to Kyrgyzstan and Kazakhstan. In: Victor Squires (Ed) Rangeland Stewardship in Central Asia. balancing improved livelihoods, biodiversity conservation and land protection. ISBN: 978-94-007-5366-2
Rajabov T (2009) Ecological assessment of spatio-temporal changes of vegetation in response to piosphere effects in semi-arid rangelands of Uzbekistan. Online Source: http://www.unulrt.is/static/fellows/document/rajabov-t.pdf. Accessed on 9 March 2013
Rakhmatullaev S, Huneau F, Le Coustumer P, Motelica-Heino M, Bakiev M (2009) Facts and perspectives of water reservoirs in Central Asia: a special focus on Uzbekistan. Author manuscript, published in Water 2, 2 (2010) pp 307–320. DOI: 10.3390/w10x000x, Online: http://hal-insu.archives-ouvertes.fr/docs/00/45/78/24/PDF/Rakhmatullaev-Water-2009.pdf. Accessed on 21 Dec 2012
Reddy JM, Jumaboev K, Matyakubov B, Eshmuratov D (2013) Evaluation of furrow irrigation practices in Fergana valley of Uzbekistan. Agric Water Manag 117(2013):133–144
Robinson S, Milner-Gulland EJ, Alimaev I (2003) Rangeland degradation in Kazakhstan during the Soviet era: re-examining the evidence. J Arid Environ 53:419–439, doi:10.1006/jare.2002.1047
Rodina K, Mnatsakanian R (2012) Spills of the Aral Sea: formation, functions and future development of the Aydar-Arnasay Lakes. Lagutov V (ed) Environmental security in watersheds: the sea of Azov, Chapter 11, 183, NATO Science for Peace and Security Series C: Environmental Security, doi: 10.1007/978-94-007-2460-0_11, Springer Science + Business Media B.V. 2012, pp 183–215
Ryabtsev AD (2011) Threats to water security in the Republic of Kazakhstan: the transboundary context and possible ways to eliminate them. In: Madramootoo C, Dukhovny VA (eds) Water and food security in Central Asia, NATO Science for Peace and Security Series C: Environmental Security, pp 69–75. DOI 10.1007/978-90-481-9974-7_6, Springer Science + Business Media B.V. 2011
Safarov NM, Asrorov IA, Isufov U, Mahmadaliev BU, Novikova TM, Khairulloev R (2006) Republic of Tajikistan. National Environmental Action Plan, Dushanbe 2006, online Source: http://www.unpei.org/PDF/National_Environmental_Action_Plan_eng.pdf. Accessed on 14 Jan 2013
Salbu B, Burkitbaev M, Strømman G, Shishkov I, Kayukov P, Uralbekov B, Rosseland BO (2012) Environmental impact assessment of radionuclides and trace elements at the Kurday U mining site, Kazakhstan. J Environ Radioact, in print, http://www.sciencedirect.com/science/article/pii/S0265931X12001154. Accessed on 1 Jan 2013
Sanchez-Zapata JA, Carrete M, Gravilov A, Sklyarenko S, Ceballos O, Dona′zar JA, Hiraldo F (2003) Land use changes and raptor conservation in steppe habitats of Eastern Kazakhstan. Biol Conserv 111:71–77
Saparov A, Mirzakeev EK, Sharypova TM, Saparov GA, Abuduwaili J (2013) Irrigation erosion of irrigated soils in the foothills of southern Kazakhstan. J Arid Land 5(2):166–171 doi: 10.1007/s40333-013-0157-z
Schöne T, Zech C, Unger-Shayesteh K, RudenkoV, Thoss H, Wetzel H.-U, Zubovich A (2012) A new permanent multi-parameter monitoring network in Central Asian high mountains—from measurements to databases. Geosci Instrum Method Data Syst Discuss. 2:301–336 www.geosci-instrum-method-data-syst-discuss.net/2/301/2012/ doi:10.5194/gid-2-301-2012. Accessed on 5 Dec 2012
Sehring J, Giese E (2011) Global environmental change and conflict potential in Central Asia. In: Brauch HG, Oswald Spring Ú, Mes¬jasz C, Grin J, Kameri-Mbote P, Chourou B, Dunay P, Birkmann J (eds) Coping with global environmental change, disasters and security—threats, challenges, vulnerabilities and risks. Hexagon series on human and environmental security and Peace, vol. 5 Springer, Berlin, pp 525–534
SIC ICWC (2011) Scientific-Information Center, Interstate Commission for Water Coordination in Central Asia (SIC ICWC), United Nations Economic Commission for Europe (UNECE), Central Asian Regional Environmental Center (CAREC), Water quality in the amudarya and syrdarya river basins. Analytical Report. Tashkent 2011. 77 pp. Online source: http://www.cawater-info.net/water_quality_in_ca/files/analytic_report_en.pdf. Accessed on 16 Dec 2012
Siebert S, Burke J, Faures JM, Frenken K, Hoogeveen J, Döll P, Portmann FT (2010) Groundwater use for irrigation—a global inventory. Hydrol Earth Syst Sci 14(2010):1863–1880
Siegfried T, Bernauer T, Guiennet R, Sellars S, Robertson AW, Mankin J, Bauer-Gottwein P, Yakovlev A (2011) Will climate change exacerbate water stress in Central Asia? Climatic change. Springer Science + Business Media B.V. 2011, doi: 10.1007/s10584-011-0253-z, http://www.ib.ethz.ch/docs/Climatic_Change.pdf. Accessed on 1 Jan 2013
Singh NJ, Grachev IA, Bekenov AB, Milner-Gulland EJ (2010) Tracking greenery across a latitudinal gradient in central Asia—the migration of the saiga antelope. Divers Distrib 16:663–675 (Blackwell)
Skipperud L, Jørgensen AG, Heier LS, Salbu B, Rosseland BO (2012) Po-210 and Pb-210 in water and fish from Taboshar uranium mining Pit Lake, Tajikistan. J Environ Radioact, in press, corrected proof http://www.sciencedirect.com/science/article/pii/S0265931X12000793. Accessed on 1 Jan 2013
Smalley IJ, Mavlyanova NG, Rakhmatullaev KL, Shermatov MS, Machalett B, O’Hara Dhand K, Jefferson IF (2006) The formation of loess deposits in the Tashkent region and parts of Central Asia; and problems with irrigation, hydrocollapse and soil erosion. Quatern Int 2006:152–153
Smolentseva EN, Rukhovic O, Lukin S, Suleimenov M, Saparov A, Balgabayev N, Pachikin K, Kussainova MD, Bekbaev U, Schindler U, Mueller L (2011) Ozenka katcestva i potenzial urozhainosti pocv v globalnom masshtabe. Pocvovedenie i Agrochimija, Almaty 4:81–91
Spivak L, Arkhipkin O, Pankratov V, Vitkovskaya I, Sagatdinova G (2004) Space monitoring of floods in Kazakhstan. Math Comput Simul 67:365–370
Sommer R, Kienzler K, Conrad C, Ibragimov N, Lamers JPA, Martius C, Vlek PLG (2008) Evaluation of CropSyst for simulating the potential yield of cotton in Uzbekistan. Agron Sustain Develop 28(2):345–354. doi:10.1051/agro:2008008
Sommer R, Djanibekov N, Salaev O (2010) Optimization of land and resource use at farm-aggregated level in the Aral Sea Basin of Uzbekistan with the integrated model FLEOM—model description and first application, ZEF Discussion Papers On Development Policy No. 139, Center for Development Research, Bonn, July 2010, pp. 102, Online source: http://www.zef.de/fileadmin/webfiles/downloads/zef_dp/ZEF_DP_139.pdf. Accessed on 16 Dec 2012
Sommer R, de Pauw E (2011) Organic carbon in soils of Central Asia—status quo and potentials for sequestration. Plant soil 338:273–288, doi: 10.1007/s11104-010-0479-y
Stockle CO, Martin SA, Campbell GS (1994) CropSyst, a cropping systems simulation model: water/nitrogen budgets and crop yield. Agric Syst 46:335–359
Suleimenov M, Saparov A, Akshalov K, Kaskarbayev Z (2012) Land degradation issues in Kazakhstan and measures to address them: research and adoption. Pedologist 2012:373–381
Swinnen JFM, Vranken L (2010) Reforms and agricultural productivity in Central and Eastern Europe and the former soviet republics: 1989–2005. J Prod Anal 33:241–258. Doi: 10.1007/s11123-009-0162-6
Thevs N, Wucherer W, Buras A (2013) Spatial distribution and carbon stock of the Sexual vegetation of the winter-cold deserts of Middle Asia. J Arid Environ 90:29–35
Thurman M (2011) Natural disaster risks in Central Asia: a synthesis. Online source: http://europeandcis.undp.org/uploads/public1/files/vulnerability/Senior%20Economist%20Web%20site/CA_Disaster_Risks_-_MT_-_D5_11_04.pdf. Accessed on 16 Dec 2012
Toderich K, Tsukatani T, Ismail S, Massino I, Wilhelm M, Yusupov S, Kuliev T, Ruziev S (2008a) Extent of salt affected land in Central Asia: Biosaline agriculture and utilization of the salt-affected resources, KIER Working Papers, 35 pp. Abstract at: http://ideas.repec.org/p/kyo/wpaper/648.html. Accessed on 23 Dec 2012
Toderich KN, Ismail S, Juylova ES, Rabbimov AA, Bekchanov BB, Shyuskaya EV, Gismatullina LG, Osamu K, Radjabov TB (2008b) New approaches for biosaline agriculture development, management and conservation of sandy desert ecosystems. In: Biosaline agriculture and high salinity tolerance. Springer 2008, pp 247–264. http://link.springer.com/chapter/10.1007%2F978-3-7643-8554-5_23?LI=true. Accessed on 23 Dec 2012
Toderich KN., Shuyskaya EV, Khujanazarov TM, Ismail S, Kawabata Y (2010) The structural and functional characteristics of Asiatic desert halophytes for phytostabilization of polluted sites. In: Ashraf M, Ozturk M, Ahmad MSA (eds) Plant adaptation and phytoremediation pp 245–274, doi: 10.1007/978-90-481-9370-7, Springer Science + Business Media B.V. 2010
Törnqvist R, Jarsjö J, Karimov B (2011) Health risks from large-scale water pollution: trends in Central Asia. Environ Int 37(2011):435–442
Tultabaieva T (2012) Raw materials and products in Kazakhstan. In: strategies for achieving food security in Central Asia (2012) NATO science for peace and security series C: environmental security. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. Chapter 7: maintenance of quality of meat and dairy. ISBN: 978-94-007-2501-0
Turayeva S (2012) The problems of management and effective utilization of water and ground resources in Uzbekistan. In: Alpas H, Smith M, Kulmyrzaev A (eds) Strategies for achieving food security in Central Asia. NATO science for Peace and Security Series C: environmental Security. Springer Science + Business Media B.V. 2012. pp 57–66
Umarov P (2003) Uzbekistan irrigation systems and their management potential for fisheries in regional context. In: Petr T (ed) Fisheries in irrigation systems of arid Asia. FAO Fisheries Technical Paper. No. 430. Rome, FAO. 2003. 150p., 125–150, ftp://fao.org/docrep/fao/007/y5082e/y5082e00.pdf Accessed on 23 Nov 2012
UNDP (2004) Water resources of Kazakhstan in the New Millennium Almaty, 2004, A series of UNDP publication in Kazakhstan, # UNDPKAZ 07 http://waterwiki.net/images/a/ad/KazakhstanWater.pdf. Accessed on 12 Jan 2013
UNDP (2011) United Nations Development Program (UNDP). Human Development Report 2011. Country Profiles and International Human Development Indicators. http://hdr.undp.org/en/countries/. Accessed on 16 Dec 2012
UNECE (2007) United Nations, Economic Commission for Europe, convention on the protection and use of transboundary watercourses and international lakes. 1st Assessment of Transboundary rivers, lakes and groundwaters. United Nations, New York and Geneva, 2007. http://www.unece.org/fileadmin/DAM/env/water/blanks/assessment/assessment_full.pdf. Accessed on 10 Dec 2012
UNECE (2012) United Nations Economic Commission For Europe. Environmental performance reviews. Turkmenistan. First review synopsis. UNITED NATIONS. New York and Geneva, 2012. 35 pp. http://www.unece.org/index.php?id=31562. Accessed on 3 Jan 2013
USAID (2007) United States agency international development. Pasture reform. suggestions for improvements to pasture management in the Kyrgyz Republic. Online source. http://pdf.usaid.gov/pdf_docs/PNADN532.pdf. Accessed on 29 Dec 2012
Vanselow KA, Kraudzun T, Samimi C (2012) Grazing practices and pasture tenure in the Eastern Pamirs. The nexus of pasture use, pasture potential, and property rights. Mountain Res Develop 32(3):324–336
Vyshpolsky F, Qadir M, Karimov A, Mukhamedjanov K, Bekbaev U, Paroda R, Aw-Hassan A, Karajeh F (2008) Enhancing the productivity of high-magnesium soil and water resources in Central Asia through the application of phosphosgypsum. Land Degrad Develop 19:45–56
Wegerich K, Olsson O, Froebrich J (2007) Reliving the past in a changed environment: hydropower ambitions, opportunities and constraints in Tajikistan. Energy Policy 35(2007):3815–3825
Wikipedia (2012) Aral Sea. Online source: http://en.wikipedia.org/wiki/Aral_Sea. Accessed on 10 Dec 2012
World Bank (2004) Water energy nexus in Central Asia. Improving regional cooperation in the Syr Darya Basin. The World Bank, Washington DC, January 2004. http://siteresources.worldbank.org/INTUZBEKISTAN/Resources/Water_Energy_Nexus_final.pdf. Accessed 28 Nov 2012
WRB (2006) World reference base for soil resources 2006, a framework for international classification, correlation and communication, FAO Rome, 2006, World Soil Resources Reports 103, p 145
WTO (2012) Trade profiles. Online source: http://stat.wto.org/CountryProfile/WSDBCountryPFHome.aspx?Language=E. Accessed on 13 Jan 2013
Yessekin B, Burlibayev M, Medvedeva N, Stafin S (2008) Water ecosystems of central asia: important factors affecting the environmental-social prosperity of the region. transboundary water resources: a foundation for regional stability in Central Asia. NATO Sci Peace Secur Ser C: Environ Secur 2008:43–64
Zavialov P (2011) Ongoing changes in physical and chemical regimes of the Aral Sea. Quatern Int 279–280:553–554 16 November 2012, XVIII INQUA Congress, 21st–27th July, 2011, Bern, Switzerland
Zolotokrylin N, Titkova TB (2011) A new approach to the monitoring of desertification centers. Arid Ecosyst 1(3):125–130. ISSN 2079_0961 (Pleiades Publishing, Ltd.,)
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Mueller, L. et al. (2014). Land and Water Resources of Central Asia, Their Utilisation and Ecological Status. In: Mueller, L., Saparov, A., Lischeid, G. (eds) Novel Measurement and Assessment Tools for Monitoring and Management of Land and Water Resources in Agricultural Landscapes of Central Asia. Environmental Science and Engineering(). Springer, Cham. https://doi.org/10.1007/978-3-319-01017-5_1
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