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References BLAŽENČIĆ, Ž.,VUČKOVIĆ, R., 1986:Meadow and pasture vegetation on southern slopes of the Go~ Mountain in the Vicinity of Mitrovo Polje (In Serbian). Proceedings Symposium Man and Plant. Matica Srpska, Novi Sad, 441-448. BLEČIĆ, V., TATIĆ, B.,KRASNIĆI, F., 1969: Three endemic communities on serpentine soil in Serbia (In Serbian). Acta Botanica Croatica 28, 43-48. BRAUN-BLANQUET, J., 1964: Pflanzensoziologie. Grundzüge der Vegetationskunde, 3. Springer, Wien - New York. CHYTRÝ, M., TICHÝ, L., 2003: Diagnostic, constant and dominant species of

References [1] Allen E.B. & Allen M.F. (1980). Natural re-establishment of vesicular-arbuscular mycorrhizae following stripmine reclamation in Wyoming, Journal of Applied Ecology, 17, 139-147. [2] Amir H., Perrier N., Rigault F. & Jaffré T. (2007). Relationships between Ni-hyperaccumulation and mycorrhizal status of different endemic plant species from New Caledonian ultramafic soils, Plant and Soil, 293, 23-35. [3] Brooks R.R. (1987). Serpentine and its vegetation, a multidisciplinary approach, Dioscordes Press, pp. 455, Portland Oregon 1987 [4] Bzdon G

their protection. ANU BiH. Posebna izdanja, Odjeljenje Prirodnih i Matematičnih Nauka, Sarajevo , 14: 119-124. Krasniqi, F. 1998: Veçoritë e florës dhe të vegjetacionit të Kosovës dhe problemi i mbrojtjes së tyre, ASHAK- Seksioni i Shkencave të Natyrës, Prishtinë. Kërkime 6: 51-66. Kruckeberg, A. 1985: California serpentines: Flora, vegetation, geology, soil and management problems. University of California Press, 180 pp. Mucina, L., Grabherr, G. & Ellmauer Th. 1993: Die Pflanzengesellschaften Osterreichs, Teil I. Antropogene Vegetation ( Festuco-Brometea ), Gustav

Direct Methanol Fuel Cell with Different Sizes of Serpentine Channels , Proceedings of the 7th European Fuel Cell Piero Lunghi Conference, pp. 343-344, 2017. [10] Scott, K., Taama, W. M., Argyropoulos, P., Engineering aspects of the Direct methanol fuel cell system , Journal of Power Sources, Vol. 79, pp. 43-59, 1999. [11] Yang, H., Zhao, T. S., Effect of anode flow field design on the performance of liquid feed direct methanol fuel cells , Electrochimica Acta, Vol. 50, pp. 3243-3252, 2005. [12] Yang, H., Zhao, T. S., Ye, Q., In situ visualization study of CO 2 gas

References [1] Antosiewicz, D.M. (2004). Study of calcium-dependent lead tolerance on plants differing in their level of Ca-defi ciency tolerance, Environmental Pollutution, 134, 23-34. [2] Babalonas, D., Karataglis, S., & Kabassakalis, V. (1984). The Ecology of Plant Populations Growing on Serpentine Soils, Phyton, 24 (2), 225-238. [3] Baker, A.J.M. (1981). Accumulators and excluders - strategies in the response of plants to heavy metals, Journal of Plant Nutrition, 3, 643-654. 4] Baker, A.J.M., & Brooks, R.R. (1989). Terrestrial higher plants which

brdskog regiona Kosova. Zajednica Naučnih Ustanova Kosova, Studije, Knjiga 27, Priština, 133 pp. Krasniqi, E. & Millaku, F. 2007: The association Hyperico-Euphorbietum glabriflorae Rexhepi 1978 in the serpentine terrains of Drenica Mountain. Hacquetia 6 (2): 183-193. Kruckeberg, A. 1985: California serpentines: Flora, vegetation, geology, soil and management problems. University of California Press, 180 pp. Matevski, V. 2010: Flora na Republika Makedonija, Makedonska Akademija na Naukite i Umetnostite, Tom. II, Sv. 1, Skopje, 69 pp. Micevski, K. 1970: Astragalo

Rayat, northeastern Iraq. Mineral. Mag. 70, 5, 499-508. Arif M. & Jan M.Q. 2006: Petrotectonic significance of the chemistry of chromite in the ultramafic-mafic complexes of Pakistan. J. Asian Earth Sci. 27, 628-646. Bach W., Paulick H., Garrido C.J., Ildefonse B., Meurer W. & Humphris S.E. 2006: Unravelling the sequence of serpentinization reactions: petrography, mineral chemistry, and petrophysics of serpentinites from MAR 15 °N (ODP Leg 209, Site 1274). Geophys. Res. Lett. 25, 1467-1470. Bailey S.W. 1980: Summary of recommendations of AIPEA nomenclature committee

silver based electrode for determination of chromium(VI) using catalytic adsorptive stripping voltammetry. Analytica Chimica Acta, 570, 195–201. doi: 10.1016/j.aca.2006.04.013. Basumallick L,Rohrer J (2016). Sensitive determination of hexavalent chromium in drinking water (application update 179). Thermo Fisher Scientific, Sunnyvale. doi: AU70415-EN. Baumeister JL, Hausrath EM, Olsen AA, Tschauner O, Adcock CT, Metcalf RV (2015): Biogeochemical weathering of serpentinites: an examination of incipient dissolution affecting serpentine soil formation. Applied Geochemistry

: Geochemistry of ocean floor and fore-arc serpentinites: constraints on the ultramafic input to subduction zones. J. Petrology 53, 235-270. Kozur H. 1991: The evolution of the Meliata-Hallstatt ocean and its significance for the early evolution of the Eastern Alps and Western Carpathians. Palaeogeogr. Palaeoclimatol. Palaeoecol. 87, 109-135. Leško B. & Varga I. 1980: Alpine elements in the West Carpathian structure and their significance. Miner. Slovaca 12, 97-130. Li X.H., Putiš M., Yang Y.H., Koppa M. & Dyda M. 2014: Accretionary wedge harzburgite serpentinization and

Beogradu 23, 47–55. Stevanović, B., Pham Thi, A. T., Monteiro da Paula, F. & Viera da Silva, J. 1992: Effect of dehydration and rehydration on the polar lipid and fatty acid composition of Ramonda species. Can. J. Bot. 70: 107–113. Stevanović, V. & Stevanović, B. 1985: Asplenio cuneifolii­Ramondaetum nathaliae – new chasmophytic community on serpentine rocks in Macedonia. Bull. Mus. Hist. Nat. Belgrade B 40: 75–87. Stevanović, V. & Bulić, Z. 1992: New data on chorology and phytocenology of species Ramonda serbica Panć. (Gesneriaceae) in Montenegro. Glasnik, 25: 7