Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Water spring are vital to all human activities. The integration of hydrological, geological, hydrogeological and ecological characteristics of resource ecosystems provides a much needed tool for recognizing the characteristics and their distribution. The objective of this study was to identify springs in the study area, in order to evaluate their hydrogeological characteristics and parameters. Eight springs have been identified in the Golesh Massif area. They are mainly of lithological contact. Water flow ranging from 0.03 to 5 l/s, the temperature, pH and total hardness in the water of spring Curreli range within 11.1 to 15.7 °C, 5.51 to 8.03 °C and 18.8 to 21.67 °dH, respectively. Their recharge mainly depends on the amount of precipitations that falls in the area.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
109--123
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Civil Engineering and Infrastructure, University for Business and Technology, Lagja Kalabria, 10000 Prishtina, Republic of Kosovo
Bibliografia
- 1. Bacani, A., Vlahovic, T. 2012. Hydrogeology, Application in Construction. Split, Croatia.
- 2. Canadian Council of Ministers of the Environment. 2017. Canadian Water Quality Guidelines for the Protection of Aquatic Life. CCME Water Quality Index User’s Manual, Update.
- 3. Canadian Council of Ministers of the Environment. 2005a. Draft Report on: Review of methodologies for deriving site-specific water quality guidelines for the calculation of the water quality index. Submitted to Environment Canada, National Guidelines and Standards Office. Golder Associates Ltd. 04-112-090.3.
- 4. Canadian Council of Ministers of the Environment. 2003. Canadian water quality guidelines for the protection of aquatic life: Guidance on the Site Specific Application of Water Quality Guidelines in Canada: Procedures for Deriving Numerical Water Quality Objectives. In: Canadian environmental quality guidelines, 1999. Canadian Council of Ministers of the Environment. Winnipeg.
- 5. Canadian Council of Ministers of the Environment. 2001. Canadian water quality guidelines for the protection of aquatic life: CCME Water Quality Index 1.0 Technical Report, In Canadian Environmental quality guidelines, 1999, Winnipeg.
- 6. Dakoli, H. 2007. Hydrogeology I, Library of FGJM, Tirana (book in Albanian).
- 7. Hydrometeorological Institute of Kosovo. 2022. Meteorological Data, Monthly Averages 2001–2019 (Station Prishtina) V.3.1. web:http://ihmk-rks.net.
- 8. Horton, R.E. 1945. Erosional development of streams and their drainage basins. Hydrophysical approach to quantitative morphology. Geol. Soc., 1945.
- 9. Independent Commission for Mines and Minerals (ICMM). 2006. Geological Map of Kosovo (Scale 1:200 000), Prishtina. (in English)
- 10. Independent Commission for Mines and Minerals (ICMM). 2006. Hydrogeological Map of Kosovo (Scale 1:200 000), Prishtina. (in English)
- 11. Jovanovič, S.P. 1938. Hydrological properties of serpentine, Yearbook of the Skopje Faculty of Philosophy, Skoplje 1983. (in Serbian)
- 12. Labus, D. 1973. Hydrological characteristics of Goles mountain, Contribution to the knowledge of water in the serpentines of Kosovo, Proceedings 1, Prishtina. (in Serbian)
- 13. Meuli, Ch., Wehrle, K. 2001. Spring Catchment, SKAT, Swiss Centre for Development Cooperation in Technology and Management, Niedermann AG, St.Gallen, Switzerland.
- 14. Meshi, A., Fejza, I., Muceku, B., Meha, M. 2012. Explanatory Text of the Geological Map-Structural of the Drenas Region, Plans K-34-54-B-b (Scale 1:25000). (in Albanian)
- 15. Nag, S.K. 1998. Morphometric Analysis Using Remote Sensing Techniques in the Chaka Sub Basins, Purulia District, West Bengal. Journal of Indian Society of Remote Sensing, 26, 69–76. DOI: 10.1007/BF03007341
- 16. Pllana, R. 2015. Climate of Kosovo, Kosovo Academy of Sciences and Arts (KASA), Prishtina. (in Albanian)
- 17.Pallard, B., Castellarin, A., Montanari, A. 2008. A look at the links between drainage density and flood statistics. Hydrol. Earth, https://hess.copernicus.org/
- 18.Pallard, B., Castellarin, A., Montanari, A. 2009. A look at the links between drainage density and flood statistics. Hydrol. Earth Syst. Sci., 13, 1019–1029.
- 19. Çadraku, H., Gashi, F., Shala, A., Fetoshi, O. 2016. Variations in the Physico-Chemical Parameters of under groundwater of Blinaja catchment, Kosovo, IFAC-PapersOnLine, 49–29(2016), 200–205.
- 20.Çadraku, H. 2021. Groundwater Quality Assessment for Irrigation: Case Study in the Blinaja River Basin, Kosovo. Civil Engineering Journal, 7(9), 1515–1528.
- 21. Chakraborty, N., Ataharul, I.M., Chowdhury, R.I., Bari, W., Akhter, H.H. 2003. Determinants of the use of maternal health services in rural Bangladesh. Health Promotion International, 18(4), 327–337. DOI: 10.1093/heapro/dag414
- 22. Strahler, A.N. 1957. Quantitative analysis of watershed geomorphology, Trans. Am. Geophys. Union, 38, 913–920.
- 23. Terzin, V., Možina, A., Antonijevič, R. 1961. Geological tectonic characteristics of the wider Golesh area, Journal of the Institute for Geological and Geophysical Research, 19. (in Serbian)
- 24. Vilimonović, J. 1967. Hydrogeological features of the AP of Kosovo and Metohija, Belgrade. (in Serbian)
- 25. Wilson, W.E., Moore, J.E., eds. 1998. Glossary of hydrology, Alexandria, VA, American Geological Institute, 248.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5f323f52-1217-4ca5-b3a9-512bd69c1417