3D modeling and monitoring of karst system as a base for its evaluation and utilization: a case study from eastern Serbia

Beljanica Mountain in eastern Serbia is a part of the Carpathian Balkan arch (northern Alpine branch). It covers an area of about 300 km² and consists mostly of Jurassic and Cretaceous limestones. Numerous surface karst features, long caves and several large karstic springs located in Beljanica’s pi...

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Bibliographic Details
Published in:Environmental earth sciences 2014-01, Vol.71 (2), p.525-532
Main Authors: Milanovic, Sasa, Stevanovic, Zoran, Vasic, Ljiljana, Ristic-Vakanjac, Vesna
Format: Article
Language:English
Subjects:
Aquifers
Biogeosciences
case studies
Catchment areas
Caves
Cretaceous
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Freshwater
Geochemistry
geographic information systems
Geology
groundwater
Groundwater discharge
Hydrology/Water Resources
Jurassic
Karst
Karstic areas
karsts
managers
monitoring
Mountains
physicochemical properties
piedmont
Reserves
rocks
Simulation
Sinkholes
Special Issue
Springs
springs (water)
surveys
Terrestrial Pollution
water quality
Water springs
Water supply
watersheds
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Summary:Beljanica Mountain in eastern Serbia is a part of the Carpathian Balkan arch (northern Alpine branch). It covers an area of about 300 km² and consists mostly of Jurassic and Cretaceous limestones. Numerous surface karst features, long caves and several large karstic springs located in Beljanica’s piedmont along the contact of karstic and non-karstic rocks are all indicators of an intense karstification. Currently, the large karstic water reserves of Beljanica Mountain are not properly utilized because of their distance from main consumers, the objection by national water managers that the springs lack a stable and sufficient discharge particularly during recession periods. Due to its unpolluted and high quality water, the area is a great prospect for future water supply, and provides an opportunity for artificial regulation and for the design and implementation of specific tapping structures. This paper includes an analysis of the created 3D ArcGIS model of karst interior and its correlation with historical and newly collected data of spring discharges and groundwater physico-chemical characteristics. The results of karst aquifer monitoring (both quantitative and qualitative) are linked with the results of extensive field geological and speleological survey of the upper non-saturated part of the karst (such as sinkholes, pits and caves) and with the investigation of the permanently saturated deeper part of the aquifer (including the diving methods). The model of karst interior is based on the data from the 69 caves, 15 sinks and 1,682 dolines (sinkholes) surveyed. The total length of the karst channels network, calculated using the GIS model and presented in a 3D environment, is 647 km. The catchment areas of five major springs that drain the areas are estimated to range from only 7 km² (Malo Vrelo Spring) to 124 km² (Vrelo Mlave Spring). The groundwater exploitable reserves of Beljanica karst aquifer are estimated to be over 4 m³/s. The waters are low mineralized, unpolluted and have a great potential for water supply.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-013-2591-9