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References [1] Sivčák, M., Škoda, J. “Verification of Active Controlled Air Spring Model”, Journal of Vibroengineering 13 (4), pp. 788 – 791, 2011 . [2] Šklíba, J., Škoda, J. “About the latest possibility of stiffness reduction of ambulance couch”, Journal of Vibroengineering 11 (3), 2009 . [3] Zigo, M. “Determination of extreme properties of springs created from two mutually symmetrically sloped rubber prisms”, Strojnícky časopis – Journal of Mechanical Engineering 48 (2), pp. 97 – 105, 1997 . [4] Bouazara, M. “Optimization of the suspension parameters and

temperature and velocity. Journal of Hydrology 296: 221-233. Bender S., Einsiedl F., Wohnlich S., 2001. Scheme for development of monitoring networks for springs in Bavaria, Germany. Hydrogeology Journal 9: 208-216. Bundschuh J., 1993. Modeling annual variations of spring and groundwater temperatures associated with shallow aquifer systems. Journal of Hydrology 142: 427-444. Bundschuh J., 1995. Assessing the contamination potential of groundwater using its temporal temperature variations. In: Proceedings of Models for Assessing and Monitoring Groundwater Quality

References B ere T., T undisi J.G., 2011: Influence of land-use patterns on benthic diatom communities and water quality in the tropical Monjolinho hydrological basin, São Carlos-SP, Brazil. – Water SA, 37(1): 93–102. C antonati M., L ange -B ertalot H., 2010: Diatom biodiversity of springs in the Berchtesgaden National Park (north-eastern Alps, Germany), with the ecological and morphological characterization of two species new to science. – Diatom Research, 25(2): 251–280. C huaviroj S., 1988: Geothermal development in Thailand. – Geothermics, 17(2–3): 421

References Baehr H. (2008): Wärme- und Stoffübertragung. - Berlin: Springer Publishing Company. Chang F. (2008): Dynamic model of an air spring and integration into vehicle dynamics model. - Proceedings of the Institution of Mechanical Engineers-Part D: J. Automobile Engineering, vol.222, pp.1813-1825, London. DIN EN ISO 6946, Bauteile - Wärmedurchlasswiderstände und Wärmedurchgangskoeffizienten - Berechnungsverfahren, German Institute for Standardization, Beuth Publishing Company, Berlin (2008) Giek K. (1995): Technical Formulae. - Gieck Publishing Company

REFERENCES 1. Barinova S. and Niyatbekov T. P., 2017 – Algal Diversity of the Pamir High Mountain Mineral Springs in Environmental Variables Gradient, International Journal of Environmental Sciences and Natural Resources , 7, 2, 555706, DOI: 10.19080/IJESNR.2017.07.555706. 2. Barinova S. S., Medvedeva L. A. and Anissimova O. V., 2006 – Diversity of algal indicators in environmental assessment, Tel Aviv, Pilies Studio, 458. (in Russian) 3. Bokhodjaev I. Y. and Davlatmamadov S. M.,1994 – Medical mineral springs of Pamir, Dushanbe, 123. (in Russian) 4. Churshina N

References Abarca, N., Jahn, R., Zimmermann, J., Enke, N., 2014: Does the cosmopolitan diatom Gomphonema parvulum (Kutzing) Kutzing Have a Biogeography? PLoS One 9(1), e86885 Aboal, M., Puig, M.A., Prefasi, M., 1998: Diatom assemblages in springs in Castellơn province, Eastern Spain. Algological Studies 90, 79–95. Alexander, E. B., Coleman, R.G., Keeler Wolf, T., Harrison, S.P., 2007: Serpentine geoecology of western North America: geology, soils, and vegetation. Oxford University Press, New York. APHA, AWWA, and WEF, 1999: Standard methods for the examination

References ALEFFI, M., TACCHI, R., CORTINI PEDROTTI, C., 2008: Check-list of the hornworts, liverworts and mosses of Italy. Bocconea 22, 5-255. ANGELI, N., CANTONATI, M., SPITALE, D., LANGE-BERTALOT, H., 2010: A comparison between diatom assemblages in two groups of carbonate, low-altitude springs with different levels of anthropogenic disturbances. Fottea 10, 115-128 BERTRAND, J., RENON, J. P., MONNIER O., 2004: Relation »diatomées épiphytes-bryophytes« dans les tourbières du Mont Lozère (France). Vie et Milieu 54, 59-70. BÍLÝ, J., 1934: Píšťanské rozsivky

References Astel A., Małek S., Krakowian K. 2009. Multivariate exploration and classification applied to the chemical composition of spring waters in sanctuary forest areas. International Journal of Environmental Analytical Chemistry , 89, 597-620. Astel A., Małek S., Makowska S. 2008. Effect of environmental conditions on chemical profile of stream water in sanctuary forest area. Water, Air, and Soil Polllution , 195, 137-149. Humnicki W. 2007. Hydrogeologia Pienin. Wydawnictwo Uniwersytetu Warszawskiego. Jóźwiak M., Kowalkowski A. 2003. Implementation of the

Abstract

On the basis of available published materials and his own research, the author identifies the 27 most attractive springs in the Polish Lowlands. He describes their most important landscape and tourism assets - the relief of the spring outlet area, landforms, the character of the spring itself and the accompanying tourism infrastructure. The article presents available data regarding the water discharged by the springs: volume, temperature, colour and medicinal properties; as well as pointing to associated interesting natural features, examples of religious architecture and historical curiosities. The distribution of springs in the Polish Lowlands is uneven, with the majority found in the area of the morainic uplands, as well as in deeper river valleys and lake troughs

References Bain J. & Proctor M. 1980. The requirement of aquatic bryophytes for free CO2 as an inorganic carbon source: some experimental evidence. New Phytol. 86: 393-400. Balcerkiewicz S. 1984. Roślinność wysokogórska Doliny Pięciu Stawów Polskich w Tatrach i jej przemiany antropogeniczne. Wyd. Nauk. UAM, seria Biologia, 25, 190 pp. Poznań. Cantonati M., Gerecke R. & Bertuzzi E. 2006. Springs of Alps - sensitive ecosystems to environmental change: from biodiversity assessments to ling-term studies. Hydrobiologia 562: 59-96. Dierssen K. 2001. Distribution