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References Anczkiewicz A. 2005: Verification of maximum paleo-temperatures on the basis of smectite illitization estimated for the Tatra Mts., Podhale Basin and adjacent area of the External Carpathians using fission track method. PhD. Thesis, Inst. Nauk Geol. Pol. Akad. Nauk, Osrodek Badawczy, Krakow, 123 (in Polish). Anczkiewicz A., Zattin M. & Środoń J. 2005: Cenozoic uplift of the Tatras and Podhale basin from the perspective of the apatite fission track analyses. Pol. Towarzystwo Mineralogiczne - Prace Specjalne 25, 261-264. Anczkiewicz A.A., Środoń J

. Individual of needle morphology traits in old-growth Scots pine trees from the Białowieża Primeval Forest as a compared to the variability in eight Polish populations. Biological Bulletin of Poznań 37: 5–15. Bobowicz M. A., Krzakowa M. 1986. Anatomical differences between Pinus mugo Turra populations from the Tatra Mts. expressed in needle traits and in needle and cone traits together. Acta Societatis Botanicorum Poloniae 55(2): 275–290. Boratyńska K. 2002. Needle variability of Pinus mugo Turra in the West Tatra Mts. Dendrobiology 48: 3–8. Boratyńska K

. & Passendorfer E. 1984: On the tectonics of Czerwone Wierchy and Giewont area in the Tatra Mts. (Poland). Ann. Soc. Geol. Pol. 52, 1/4, 67–88 (in Polish). Beck A.C. 1968: Gravity faulting as a mechanism of topographic adjustment. New Zealand J. Geol. Geophys. 11, 1, 191–199. Becker A., Häuselmann P., Eikenberg J. & Gilli E. 2012: Active tectonics and earthquake destructions in caves of northern and central Switzerland. Int. J. Speleology 41, 1, 35–49. Becker A., Davenport C.A., Eichenberger U., Gilli E., Jeannin P.-Y. & Lacave C. 2006: Speleoseismology: a critical

. Management of Mountain Watersheds, Springer, New Delhi, 164-179. Hurtalová T., Ostrožlík M., Matejka F., 2008: Aerodynamic characteristics of wind disaster area in High Tatra Mts. Contrib. Geophys. Geod., 38, 3, 261-273. Klein Tank A. M. G., Wijngaard J. B., K¨onnen G. P., B¨ohm R., Demarée G., Gocheva A., Mileta M., Pashiardis S., Hejkrlik L., Kern-Hansen C., Heino R., Bessemoulin P., M¨uller-Westermeier G., Tzanakou M., Szalai S., Pálsdóttir T., Fitzgerald D., Rubin S., Capaldo M., Maugeri M., Leitass A., Bukantis A., Aberfeld R., van Engelen A. F. V., Forland E., Mietus

valley in the High Tatras Mts. Ekológia (Bratislava), 20(Suppl. 4), 101−109. Chen, J., Gu, S., Shen, M.G., Tang, Z.H. & Matsushita B. (2009). Estimating aboveground biomass of grassland having a high canopy cover: an exploratory analysis of in situ hyperspectral data. Int. J. Remote Sens., 30(24), 6497−6517. DOI: 10.1080/01431160902882496. Cropscan, Inc. (2012). http://www.cropscan.com/techsupt.html. Faško, P. & Šťastny P. (2002), Mean annual precipitation totals (in Slovak). In Atlas krajiny SR. Bratislava: MŽP SR. Fava, F., Colombo, R., Bocchi, S., Meroni, M., Sitzia

-Mirkowa H., Mirek Z., Miechówka A., 1996. Endemic vascular plants in the Polish Tatra Mts. – distribution and ecology. Polish Botanical Studies 12: 1–107. Piękoś-Mirkowa H., Mirek Z., Miechówka A., 2001. Distribution and habitats of Chamaeorchis alpina (L.) Rich. ( Orchidaceae ) in Poland. Acta Societatis Botanicorum Poloniae 70(2): 107–111. Skiba S., 1983. Tendencje do strefowości rędzin tatrzańskich na przykładzie stoków Kominiarskiego Wierchu. Roczniki Gleboznawcze – Soil Science Annual 34(4): 101–112 (in Polish with English abstract). Skiba S., 1985. Rola klimatu i

crystalline basement of the Polish part of the Western Tatra Mts. Acta Universitatis Carolinea-Geologica, 42(2), 252-253. Gawęda, A., Winchester, J. Kozłowski, K., Narębski, W., & Holland, G. (2000). Geochemistry and paleotectonic settings of the amphibolites from the Western Tatra Mountains. Geological Journal, 35, 69-85. Hovorka, D. (1981). Minerály metamorfovaných hornin. Západní Karpaty. In Bernard J. H. (Ed.) Mineralogie Československa (p. 648). Praha: Academia. Janák, M. (1994). Variscan uplift of the crystalline basement, Tatra Mts., Central western Carphatians

., Proceedings of the 7 th International Speleological Congress, Sheffield 1977. Bridgwater, British Cave Research Association: 194-196. Gascoyne M, Ford DC and Schwarcz HP, 1983. Rates of cave and landform development in the Yorkshire Dales from speleothem aga data. Earth Surface Processes and Landforms 8(6): 557-568, DOI 10.1002/esp.3290080607. Głazek J, 1984. First isotope datings of speleothms from Tatra caves and their bearing on Pleistocene stratigraphy of the Tatra Mts. Przegląd Geologiczny 32: 39-43 (in Polish, English summary). Głazek J, Rudnicki J and

) , 34(3), 249−259. DOI: 10.1515/eko-2015-0024. Hamerlík, L. & Bitušík P. (2009). The distribution of littoral chironomids along an altitudinal gradient in High Tatra Mountain lakes: Could they be used as indicators of climate change? Ann. Limnol. – International Journal of Limnology , 45, 145−156. DOI: 10.1051/limn/2009021. Hreško, J., Kanásová, D., Bugár, G., Petrovič, F. & Mačutek J. (2012). Morphodynamic effect on lacustrine deposits in the High Tatra Mts. Ekológia (Bratislava) , 31(4), 390−404. DOI: 10.4149/ekol_2012_03_390. Hutchinson, S.M., Akinyemi, F

References A ugustiničová , G., B alá ž, I., 2014. Sezónna dynamika synúzií bĺch (Siphonaptera) drobných zemných cicavcov v lesnom ekosystéme Tatier [Seasonal dynamics of flea synusiae (Siphonaptera) of small mammals in forest ecosystem of Tatra Mts.]. In Bryja, J., Drozd, P. (eds). Zoologické dny. Sborník abstraktů z konference 6. – 7. února 2014 . Brno: Ústav biologie obratlovců AV ČR, p. 25. B alá ž, I., A ugustiničová , G., 2012. Synúzie blch (Siphonaptera) drobných zemných cicavcov (Eulipotyphla, Rodentia) vybraných lokalít Belianskych a Vysokých Tatier