Geology and characteristics of petrographic rocks in the region of Trepça, Kosovo

Astrit Shala¹, Islam Fejza¹

¹University “Isa Boletini”, Mitrovica, Kosovo

Min. miner. depos. 2024, 18(2):38-48

https://doi.org/10.33271/mining18.02.038

Full text (PDF)

      ABSTRACT

      Purpose. The purpose of this paper is to accomplish a thorough identification of rock types occurring within the Mitrovica region by describing in detail all encountered varieties. The authors aim to determine the discontinuity or continuity of all inter-formational boundaries, crucial for accurate delineation on the ground and complete reflection on a 1:25000 scale map. Additionally, the objective is to identify the nature of contact between rock types and provide a detailed their description.

      Methods. Field exploration in the Mitrovica region was conducted for several months. Rock identification involved detailed sampling and petrographic analysis, including thin section preparation of magmatic rocks. The method included sample preparation, polarized light source interactions with minerals and observation of optical properties. Key properties observed are birefringence, interference colors, extinction angles, identification and analysis.

      Findings. Based on the study of stratigraphic units and geological descriptions of mineral outcrop areas, various types of rocks through petrographic microscope preparation, as well as chemical and geochemical analyses, have been differentiated. The Mitrovica area encompasses the following lithostratigraphic units: harzburgite, gabbro, diabase, metasandstone, sandstone, quartzite and grainstone with calcium (Aeolisaccus sp.; Bioclastic grainstone with dacycladal algae and small milliolides; Salpin-goporella sp.).

      Originality. The originality of the research lies in employing an optical microscope for the precise identification of rocks. Through the re-search carried out in the study area, we obtained a comprehensive petrographic description of mineral composition, texture, and mineralization, facilitating the assessment of the area exploitation potential.

      Practical implications. The petrographic exploration yielded the conclusion that the Pb-Zn mineralization is present in the study area, which is a sig-nificant finding for the advancement of the mining sector and the local community, provided that environmental preservation measures are upheld and responsible methods of area exploitation are implemented.

      Keywords: Mitrovica zone, mineralogical composition, petrography microscope preparation, tectonics

      REFERENCES

1. Augustsson, C. (2021). Influencing factors on petrography interpretations in provenance research – A case-study review. Geosciences, 11(5), 205. https://doi.org/10.3390/geosciences11050205
2. Karayigit, A.I., Bircan, C., Oskay, R.G., Türkmen, İ., & Querol, X. (2020). The geology, mineralogy, petrography, and geochemistry of the Miocene Dursunbey coal within fluvio-lacustrine deposits, Balıkesir (Western Turkey). International Journal of Coal Geology, 228, 103548. https://doi.org/10.1016/j.coal.2020.103548
3. Kutllovci, F. (2018). Petrographic characteristics of the north-western part of Kosovo. Mining Science, 25, 49-56. https://doi.org/10.5277/msc182505
4. Festim, K., Bardhyl, M., Islam, F., Ahmet, T., & Sabri, A. (2012). Petrographic characteristics of strazha locality in the east part of Gjilani Region-Kosova. International Multidisciplinary Scientific GeoConference, 1, 249-256.
5. Kutllovci, F., & Fejza, I. (2021). Petrographic characteristics in the central part of Kosovo. Mining of Mineral Deposits, 15(4), 139-144. https://doi.org/10.33271/mining15.04.139
6. Shala, F., Xhixha, E., Xhixha, G., Frangu, S., Muça, B., Xhixha, M.K., & Hasani, F. (2016). Characterization of physical–mechanical and radiological properties of diabase rock for civil engineering practices in Kosovo. Journal of Radioanalytical and Nuclear Chemistry, 310, 919-925. https://doi.org/10.1007/s10967-016-4880-8
7. Lizoń, K., Tomczak, A., Mederski, S., Pršek, J., & Asllani, B. (2022). Geochemical study of accessory chromian spinels from listvenites from the Trepça Mineral Belt, Vardar Zone, Kosovo. Proceedings of the Critical Role of Minerals in the Carbon-Neutral Future 16th Biennial SGA Meeting, 196-199.
8. Ministry of Economic Development. (2012). Mining strategy of the Republic of Kosovo, Prishtina, Kosovo. Retrieved from: https://kosovo-mining.org/icmm/function/?lang=en
9. Elezaj, Z., & Kodra, A. (2007). Geology of Kosovo. Pristina, Kosovo: University of Pristina.
10. Meshi, A., Muceku, B., Fejza, I., & Meshi, E. (2015). Tekst shpjegues i hartёs gjeologo-strukturore tё planshetit Bjeshkёt e Namuna, nё shkallё 1:25000. Prishtinё, Kosovё: Raport i brёndshёm i KPMM, 86 s.
11. Meshi, A., Muceku, B., & Fejza, I. (2016). Tekst shpjegues i hartёs gjeologo-strukturore tё Planshetit “Cernushё”, nё shkallё 1:25000. Prishtinё, Kosovё: Raport i brёndshёm i SHGJK, 93 s.
12. Tremblay, A., Meshi, A., Deschamps, T., Goulet, F., & Goulet, N. (2015). The Vardar zone as a suture for the Mirdita ophiolites, Albania: Constraints from the structural analysis of the Korabi-Pelagonia zone. Tectonics, 34, 352-375. https://doi.org/10.1002/2014TC003807
13. Kadriu, S., Sadiku, M., Kelmendi, M., Mulliqi, I., Aliu, M., & Hyseni, A. (2019). Scale of pollutions with heavy metals in water and sediment of river Ibër from landfill in Kelmend, Kosovo. Mining Science, 26, 147-155. https://doi.org/10.37190/msc192610
14. Antić, M., Peytcheva, I., von Quadt, A., Kounov, A., Trivić, B., Serafimovski, T., Tasev, G., Gerdjikov, I., & Wetzel, A. (2016). Pre-Alpine evolution of a segment of the North Gondwanan margin: Geochronological and geochemical evidence from the central Serbo-Macedonian Massif. Gondwana Research, 36, 523-544.
15. Hyseni, A., Muzaqi, E., Durmishaj, B., & Hyseni, S. (2022). Metal losses at the Trepça concentrator during the enrichment process. Mining of Mineral Deposits, 16(4), 132-137. https://doi.org/10.33271/mining16.04.132
16. Schefer, S., Cvetković, V., Fügenschuh, B., Kounov, A., Ovtcharova, M., Schaltegger, U., & Schmid, S.M. (2011). Cenozoic granitoids in the Dinarides of southern Serbia: Age of intrusion, isotope geochemistry, exhumation history and significance for the geodynamic evolution of the Balkan Peninsula. International Journal of Earth Sciences, 100, 1181-1206. https://doi.org/10.1007/s00531-010-0599-x
17. Mercier, J. (1968). Contibution a l`étude du métamorphisme et l`évolution magmatique des zones internes des Hellénides. Annales Géologiques des Pays Helléniques, XX(1968), 599-792.
18. Kelmendi, Sh. (2021). Flotimi I xeheroreve te Pb dhe Zn. Prishtine, Kosovo, 484 p.