Abstract
The transboundary Cijevna River Basin shared between Albania and Montenegro has a surface area of 650 km2. It is extremely important for water management, especially in the country of Montenegro which is downstream. Due to the high permeability of both the karst and intergranular aquifers that exist in the basin, the River Cijevna sinks along the length of its riverbed and in summer months it usually dries up completely at the confluence section. Hydrometry surveys undertaken during a drought period have identified the most permeable zones along the river, while the loss between sections varies between 0.137 and 0.765 m3/s/km’. An aquifer vulnerability assessment has been conducted through the implementation of both the EPIK and DRASTIC methods. Identifying both the most permeable and vulnerable zones in the basin assisted in the initial design of a joint Groundwater Monitoring Network for the two countries. It should consist of 21 observation points, automatic hydrology stations on the river and selected springs, and data loggers within installed piezometers. Once completed with remote data transmission and the implementation of a real-time data-sharing mechanism, it will be the first of its kind in “classical” Dinaric karst region, and one of very first to exist within karst aquifers anywhere.
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References
Aller L, Bennett T, Lehr J, Petty R (2002) DRASTIC: a standardized system for evaluating ground water pollution potential using hydrogeologic settings. U.S, Environmental Protection Agency, Washington, DC, EPA/600/2-85/018
Bešić Z (1969) Geology of Montenegro—Karst of Montenegro (in Serbian). Geological Survey of Montenegro, Podgorica
Bonacci O (1987) Karst hydrology; with special reference to the Dinaric Karst. Springer, Berlin
Bonacci O, Željković I, Galić A (2013) Karst rivers’ particularity: an example from Dinaric karst (Croatia/Bosnia and Herzegovina). Environ Earth Sci 70:963–974
Cvijić J (1893) Das Karstphänomen. Versuch einer morphologischen Monographie, vol 3. Geographischen Abhandlung, Wien, pp 218–329
DIKTAS (2015) Strategic action plan and database, http://diktas.iwlearn.org. Accessed 15 Aug 2018
Dörfliger N, Zwahlen F (1997) EPIK: a new method for outlining of protection areas in karstic environment. In: Gunay G, Johnson I (eds) Karst waters and environmental impacts. Balkema, Rotterdam
Eckstein Y, Eckstein GE (2005) Transboundary aquifers: conceptual models for development of international law. Ground Water 43(5):679–690
Eftimi R (2010) Hydrogeological characteristics of Albania. AQUAmundi 1:79–92
European Commission (2000) Water Framework Directive (2000/60/EC), Brussels
FAO (2018) AQUASTAT website. Food and Agriculture Organization of the United Nations (FAO). http://www.fao.org/nr/water/aquastat/water_use/index.stm. Accessed 29 May 2018
Ford D, Williams P (2007) Karst hydrogeology and geomorphology. Wiley, Chichester
Herak M (1972) Karst of Yugoslavia. In: Herak M, Stringfield VT (eds) Karst: important Karst regions of the Northern hemisphere. Elsevier, Amsterdam, pp 25–83
Mijatović B (1984) Hydrogeology of the Dinaric Karst. International Association of Hydrogeologists, vol 4. Heise, Hannover
Milanović P (2005) Water potential in south-eastern Dinarides. In: Stevanović Z, Milanović P (eds) Water resources and environmental problems in karst, Proceedings of IAH international conference KARST 2005-CVIJIC, 13–19 Sept 2005, Belgrade-Kotor, Spec. ed. Inst. Hydrog. FMG, Belgrade, pp 249–257
Neukum C, Hötzl H (2005) Standardization of vulnerability map. In: Stevanović Z, Milanović P (eds) Water resources and environmental problems in karst, Proceedings of IAH international conference KARST 2005-CVIJIC, 13–19 Sept 2005, Belgrade-Kotor, Spec. ed. Inst. Hydrog. FMG, Belgrade, pp 11–18
Puri S, Aureli A (2005) Transboundary aquifers: a global program to asses, evaluate, and develop policy. Ground Water 43(5):661–668
Puri S, Struckmeier W (2010) Aquifer resources in a transboundary context: a hidden resource? Enabling the practitioner to 'see it and bank it' for good use. In: Earle A, Jägerskog A, Öjendal J (eds) Transboundary water management: principles and practice. Earthscan, London, pp 73–90
Radulović V (1989) Hydrogeology of Skadar Lake watershed (in Serbian). Geological Survey of Montenegro, Podgorica
Radulović V (1996) A karst-fissured aquifer of Ribnička springs. Geological Survey of Montenegro, Podgorica
Radulović M (2000) Karst hydrogeology of Montenegro (in Serbian). Sep. Issue of Geological Bulletin, vol XVIII, Geological Survey of Montenegro, Podgorica
Radulović M, Novaković D, Radulović MM, Matović M (2010) The main project for the determining and maintaining of the Sanitary zones and belts protection of the water source “Dinoša” and limitations in these zones. Podgorica
Radulović MM, Sekulić G, Blagojević M, Krstajić J, Vako E (2016) An assessment of territory participation in transboundary karst aquifer recharge: a case study from the Skadar Lake catchment area. In: Stevanović Z, Kresic N, Kukuric N (eds) Karst without Boundaries. CRC Press/Balkema, EH Leiden, Taylor & Francis Group, London, pp 87–99
Stevanović Z (2010) Intake of the Bolje Sestre karst spring for the regional water supply of the Montenegro. In: Kresic N, Stevanović Z (eds) Groundwater hydrology of springs: engineering, theory, management and sustainability. Elsevier Inc. BH, Burlington, Oxford, pp 457–478
Stevanović Z (2016) Creating environmental impact indicators in dynamic karst system: dinaric karst case example. In: Stevanović Z, Kresic N, Kukuric N (eds) Karst without Boundaries. CRC Press/Balkema, EH Leiden; Taylor & Francis Group, London, pp 287–310
Stevanović Z, Kukurić N, Pekaš Ž, Jolović B, Pambuku A, Radojević D (2016) Dinaric Karst Aquifer: one of the world’s largest transboundary systems and an ideal location for applying innovative and integrated water management. In: Stevanović Z, Kresic N, Kukuric N (eds) Karst without boundaries. CRC Press/Balkema, EH Leiden; Taylor & Francis Group, London, pp 3–25
UN (1992) The Dublin Statement on Water and Sustainable Development. Dublin
UN SCR (2008) The Law of transboundary aquifers, resolution vol 63(124). New York
UNECE (2016) Reconciling resource uses in transboundary basins: assessment of the water-food-energy ecosystems nexus in the Sava River Basin. United Nations, New York
UNESCO World Water Assessment Programme (2019) The United Nations World Water Development Report 2019: leaving no one behind. UNESCO, Paris
UN Water (2008) Transboundary waters: sharing benefits, sharing responsibilities. United Nations Office to Support the International Decade for Action ‘Water for Life’ 2005–2015 (UN-IDfA). Zaragoza
Wester P, Warner J (2002) River basin management reconsidered. In: Turton A, Henwood R (eds) Hydropolitics in the developing world: a Southern African Perspective. African Water Issues Research Unit, Centre for International Political Studies, University of Pretoria, Pretoria, pp 61–71
WFD CIS Guidance Document No. 15 (2007) Common Implementation Strategy for the Water Framework Directive (2000/60/EC) Guidance on Groundwater Monitoring. Directorate General Environment of the European Commission, Brussels
World Water Council (2010) Fact Sheet: transboundary water security. In: 6th World Water Forum Kick-Off, Marseille. https://www.worldwatercouncil.org/fileadmin/wwc/About_us/HQ_Staff/WWC_-_6e_Forum_mondial_de_l_eau_-_VE.pdf. Accessed 21 Apr 2018
Wolf AT, Natharius JA, Danielson JJ, Ward BS, Pender J (1999) International river basins of the world. Water Resour Dev 15(4):387–427
Yoffe SB, Fiske G, Giordano M, Larson K, Stahl K, Wolf AT (2004) Geography of international water conflict and cooperation: data sets and applications. Water Resour Res 40:W05S04. https://doi.org/10.1029/2003WR002530
Acknowledgements
Authors would like to thank to Dr. Romeo Eftimi for assistance in the provision of data, and for organizing a field visit through the Albanian part of the Cijevna River Basin.
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This article is a part of a Topical Collection in Environmental Earth Sciences on Sustainable Management of Karst Natural Resources, guest edited by Drs. Sasa Malinovic and Zoran Stevanovic.
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Blagojević, M., Stevanović, Z., Radulović, M. et al. Transboundary groundwater resource management: needs for monitoring the Cijevna River Basin (Montenegro–Albania). Environ Earth Sci 79, 74 (2020). https://doi.org/10.1007/s12665-020-8809-8
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DOI: https://doi.org/10.1007/s12665-020-8809-8