PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Karst relief of the Mali me Gropa Massif, central Albania

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The mid-altitude mountain massif of Mali me Gropa is located in the central part of Albania, rises to an altitude of 1500–1800 m a.s.l., is composed mostly of Mesozoic limestone, and is characterized by extensive surface karst development. The karst relief is dominated by “doline” morphology including “polygonal” karst. Detailed geomorphological analysis of the western part of the Mali me Gropa massif (so-called Western Massif) by means of GIS methods is used to determine and explain the morphometric and morphological diversity of the area’s topography. Based on a homogeneity criterion, a number of geomorphological units with specific kinds of karst relief have been distinguished within the massif. The differences in karst sculpture concern the size (diameter) of dolines and depressions, their depth, shape and symmetry, orientation, density of occurrence and spatial pattern, which provide the basis for distinguishing geomorphological units. The spatial differentiation of the karst relief is explained by the influence of factors which are evolutionary (geological and geomorphological evolution of the massif), hypsometric (altitude difference of terrains) and geomorphologic-structural (inclination of the slopes and layers). The relatively poor expression of open karst conduits (i.e. caves and vertical shafts) on the surface of the massif may result from the relative immaturity of the epikarst zone, the widespread occurrence of residual cover on the plateau, and the accumulation of large amounts of clay material in dolines and depressions. Detailed hydrogeological studies show, however, high karst permeability and dominance of conduit flow. Considering the high geomorphological landscape and ecological value of the area, it should be granted the status of a nature reserve or national park. Geomorphological and karstological research within the massif should be continued as it represents a type of karst found also in other parts of Albania. This type of karst area is of great economic (groundwater reserves) and natural protection (environmental) importance.
Rocznik
Strony
art. no. 6
Opis fizyczny
Bibliogr. 46 poz., fot., rys., tab., wykr.
Twórcy
  • University of Warsaw, Faculty of Geography and Regional Studies, Krakowskie Przedmieście 30, 00-927 Warszawa, Poland
autor
  • ITA Consult, Rr. Rreshit Çollaku, pll. 10/3/18, Tirana, Albania
autor
  • University of Silesia in Katowice, Faculty of Natural Sciences, Institute of Earth Sciences, Będzińska 60, 41-200 Sosnowiec, Poland
  • National Academy of Sciences of Ukraine, Institute of Geological Sciences, Gonchara 55-b, 01-054, Kyiv, Ukraine
Bibliografia
  • 1. Aliaj, S., Bushati, S., 2019. Look for the roots of the Mirdita ophiolites (Albania). JNTS, 49: 3-47.
  • 2. Aubouin, J., Ndojaj, I., 1964. Regards sur la géologie de l'Albanie e sa place dans la géologie des Dinarides. Bulletin de la Société Géologique de France, VI (97): 593-625.
  • 3. Bakalowicz, M., 2015. Karst and karst groundwater resources in the Mediterranean. Environmental Earth Sciences, 74: 5014.
  • 4. Donneborg, M., 1993. Albanien expedition 1992 und 1993. Mitteilungen des Verbandes der deutschen Höhlen- und Karstforscher, 39: 64-73.
  • 5. Desio, A., 1960. Manual della Geologia Applicata. Hoepli, Milano. Eftimi, R., 2010. Hydrogeological characteristics of Albania. AQUAmundi, Am01012: 79-92.
  • 6. Eftimi, R., 2020. Karst and karst water resources of Albania and their management. Carbonates and Evaporites, 35 (69).
  • 7. Eftimi, R., Malik, P., 2019. Assessment of regional flow type and groundwater sensitivity to pollution using hydrograph analyses and hydrochemical data of the Selita and Blue Eye karst springs, Albania. Hydrogeology Journal, 27: 2045-2059.
  • 8. Eftimi, R., Zojer, H., 2015. Human impact on karst aquifers of Albania. Environmental Earth Sciences, 74: 57-70.
  • 9. Eftimi, R., Bisha, G., Tafilaj, I., Sheganaku, Xh., 1985. Hydrogeological Map of Albania, sc. 1:200,000, Tirana. Printed in Nd, Mjeteve Mesimore H. Shijaku, Tirana-Albania.
  • 10. Ford, D., Williams, P., 1989. Karst Hydrogeology and Geomorphology. Unwin Hyman Ltd., London.
  • 11. Ford, D., Williams, P., 2007. Karst Hydrogeology and Geomorphology. John Wiley & Sons, Ltd., Chichester, England.
  • 12. Frasheri, A., 2000. Temperature signals from the depth of Albanides (in Albanian). Bulletin of Geological Sciences 2000, Geological Survey of Albania: 57-66.
  • 13. Frasheri, A., Bushati, S., Bare, V., 2009. Geophysical outlook of structure of Albanides. Journal of the Balkan Geophysical Society, 12: 9-30.
  • 14. Gemorphological Map of Albania, scale 1:500,000, 1992 (in Albanian). Centre of Geographical Studies Academy of Science of Albania, Printed in the Army Topographic Institute, Tirana.
  • 15. Gjata K., Kodra, A., 1999. Albanian ophiolites: from rift to ocean formation. EUG 10: Journal of Conference, Abstracts. Symp. F04, Petrologic., 405, Strasbourg.
  • 16. Hoxha, L., Avxhiu, R., 2000. Ophiolite volcano's sulphide potential assessment through integrated geological-geophysical and geochemical methods. In: Position of Albanides in Alpine Mediterranean Folded System, materials of 8th Albanian Congress of Geosciences, Tirana.
  • 17. Jaho, S., Mici, A., Borię, M., Mukeli, R., Naęi, R., 1980. Climate of Albania (in Albanian). Institute of Hydrometeorology, Tirana.
  • 18. Kalinina, P., 1951. Geotechnical conditions of Selita spring area (in Russian). Vodokanalproekt, Leningrad.
  • 19. Kessler, K., 1958. About the possibility increase the water supply capacity of Tirana (in Hungarian). Water Supply Directory, Ministry of Construction, Tirana-Albania.
  • 20. Klimchouk, A.B., 1995. Karst morphogenesis in the epikarstic zone. Cave and Karst Science, 21: 45-50.
  • 21. Klimchouk, A.B., 2004. Towards defining, delimiting and classifying epikarst: its origin, processes and variants of geomorphic evolution. In: Epikarst (eds. W.K. Jones, D.C. Culver and J.S. Herman), Special Publication, 9: 23-35. Charles Town, WV, Karst Waters Institute.
  • 22. Kristo, V., 1973. Some aspects of karst in Albania (in Albanian). Collection of Studies, 1: 67-79.
  • 23. Kristo, V., Krutaj, F., Mezini, B., 1987. Karst landscape of Albania and the problems of its rational exploitation (in Albanian). Studime Gjeografike, 2: 257-268.
  • 24. Krutaj, F., Gruda, Gj., Kabo, Gj., Mecaj, N., Qirjazi, P., 1990. Physical Geography of Albania (in Albanian). Shtypshkronja e Re, Tirana.
  • 25. Liko, V., 1962. Tectonics and characteristics of the development of Mali me Gropa Region (in Albanian). Bulletin of Tirana University, Natural Sciences, 3: 37-47.
  • 26. Meço, S., Aliaj, Sh., 2000. Geology of Albania. Gebrüder Borntraeger, Berlin-Stuttgart.
  • 27. Pali, N., 1973. About the possibility of increase the discharge of Selita and Shenmeria springs (in Albanian). Ndertuesi, 2: 25-30.
  • 28. Parise, M., Qiriazi, P., Skender, S., 2004. Natural and anthropogenic hazards in karst areas of Albania. Natural Hazards and Earth System Sciences, 4: 560-581.
  • 29. Parise, M., Qiriazi, P., Skender, S., 2008. Evaporite karst of Albania: main features and cases of environmental degradation. Environmental Geology, 53: 967-974.
  • 30. Qiriazi, P., 2001. Physical Geography of Albania (in Albanian). Aferdita, Tirana.
  • 31. Speleo Nederland, 1993. Special Albanian Expedition, July 1992. Williams, P., 1971. Illustrating morphometric analysis of karst with examples from New Guinea. Zeitschrift für Geomorphologie, 15: 40-61.
  • 32. Williams, P., 1972. Morphometric analysis of polygonal karst in New Guinea. GSA Bulletin, 83: 761-796.
  • 33. Williams P., 2008. The role of the epikarst in karst and cave hydrogeology: a review. International Journal of Speleology, 37: 1-10.
  • 34. Xhomo, A., Kodra, A., Xhafa, Z., Shallo, M., 2002. Geology of Albania, Notes of Geological Map of Albania, sc. 1:200,000 (in Albanian). Tirana.
  • Sources of maps:
  • 35. Digital Terrain Model (DTM) (2015-2017), pixel 0.1 m [https://geoportal.asig.gov.al/service/wmts], https://geoportal.asig.gov.al/map/?fc_name=Hillshade_2015_group&auto=true, (http://asig.gov.al/index.php/2014-11-06-22-34-05/ligji).
  • 36. Digital Sufrace Model (DSM), pixel 0.1-0,2 m, Modeli Dixhital i Sipërfaqes (DSM 2015-2017) 3D, [https://geoportal.asig.gov.al/service/wmts2], https://geoportal.asig.gov.al/map/?fc_name=Dsm_Hill_Group&auto=true, (http://asig.gov.al/index.php/2014-11-06-22-34-05/ligji).
  • 37. Geological Map 100K, (Harta Gjeologjike 1:100,000), [https://geoportal.asig.gov.al/service/wms], https://geoportal.asig.gov.al/map/?fc_name=harta_gjeologjik_100k, EPSG:28404 Pulkovo 1942 / Gauss-Kruger zone 4, data 1990,publication 2001. Sherbimi Gjeologjik Shqiptar.
  • 38. Geological Map 200K, (Harta Gjeologjike 1:200,000), [https://geoportal.asig.gov.al/service/wms], https://geoportal.asig.gov.al/map/?fc_name=gjeologjia_200k, EPSG:28404 Pulkovo 1942 / Gauss-Kruger zone 4, data 1990, publication 2001. Sherbimi Gjeologjik Shqiptar.
  • 39. Hydrogeological Map of Mali me Gropa Karst Massif, scale 1:50,000, Hydrografia [https://geoportal.asig.gov.al/service/wms].
  • 40. Land Cover - Corine 2018, 100m, CORINE Land Cover (CLC), Corine/CLC2012_WM, https://land.copernicus.eu/pan-european/corine-land-cover, [https://geoportal.asig.gov.al/service/wms].
  • 41. LandSat8: GeoTIFF, UTM Projection (Output: WGS 84) [http://ldcm.usgs.gov, http://ldcm.nasa.gov/].
  • 42. Orthophoto 2015-2016, 20 cm pixel [https://geoportal.asig.gov.al/service/wmts]https://geoportal.asig.gov.al/map/?fc_name=OrthoImagery_20cm, Autoriteti Shteteror per Informacionin Gjeohapesinor (ASIG), Behaudin Dobi (GIS Specialist).
  • 43. Orthoimage mosaics, Copernicus, https://land.copernicus.eu/im - agery-in-situ/european-image-mosaics/very-high-resolution/vhr-2012?tab=mapview
  • 44. Topographic Map 25K 1:25,000, 1959-1985 [https://geoportal.asig.gov.al/service/wmts], https://geoportal.asig.gov.al/map/?fc_name=25k_krgjsh, EPSG:28404 Pulkovo 1942/Gauss-Kruger zone 4. Instituti Gjeografik dhe Infrastruktures Ushtarake (ish ITU).
  • 45. Topographic Map 50K 1:50,000, 1960-1991 [https://geoportal.asig.gov.al/service/wmts], https://geoportal.asig.gov.al/map/?fc_name=50k_krgjsh, EPSG:28404 Pulkovo 1942/Gauss-Kruger zone 4. Instituti Gjeografik dhe Infrastruktures Ushtarake (ish ITU).
  • 46. Topographic Map 100K 1:100,000, 1978-1988 [https://geoportal.asig.gov.al/service/wmts], https://geoportal.asig.gov.al/map/?fc_name=100k_krgjsh, EPSG:28404 Pulkovo 1942.
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-1461b3ac-f959-44ea-8027-44793ce396a2
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.