Physical Geography, Cartography and GeoInformatics ****************************************************************************************** * Physical Geography, Cartography and GeoInformatics ****************************************************************************************** The focus of the research is analysis of dynamics of spatial and time relations in physio sphere and the impact of these dynamics on the society. The combination of Geography, Cart Geoinformatics and Remote sensing within one research direction is motivated by the fact t Geography works with spatial data and uses the geoinformatics/GIS tools. Current enhanceme Geography and Geoecology has been influenced by recent boost of research of global environ and risks. At the forefront of the interest of physical geographers and cartographers is e the impact of climate changes on the different components of the environment. The second l research interest lies in comparison of current environmental processes with their past sh progress. Crucial findings about the dynamics of physio geographical phenomena can be deri comparison and can facilitate prediction of regional and global changes of the environment The individual research topics involve: • environmental threats and risks and their impact on human society • paleographical development of environment in Quaternary • changes of dynamics of hydrological processes and ecology of watercourses as indicators climate changes and anthropogenetic envronmental changes • climate change impacts on landscape dynamics and landscape flows at various time scales • interactions between climatic, hydrologic, geomorphic, vegetation and soil systems • development of qualitative and quantitative indicators of phenomena in data obtained via and spectroscopy • algorithms of change detection using remote sensing and analysis of topographical data i modelling of (Earth)surface ****************************************************************************************** * Selected outputs ****************************************************************************************** *========================================================================================= * Physical Geography *========================================================================================= • Blažková, Š.D., Blažek, V.D., Janský, B. (2017): Continuous simulation for computing des forwater structures. Hydrological Processes. 31: 2320–2329 • Dreslerová, D., Kočár, P., Chuman, T., Pokorná, A. (2017): Cultivation with deliberation their growing conditions in prehistory. Vegetation History and Archaeobotany, 26(5), p. • Engel, Z., Mentlík, P., Braucher, .R, Křížek, M., Pluháčková, M., Aster Team (2017): 10B chronology of the last glaciation in the Western Tatra Mountains, central Europe. Geomor 130-142 • Emmer, A., Vilímek, V., Zapata M.L. (2018) Hazard mitigation of glacial lake outburst fl Cordillera Blanca (Peru) The effectiveness of remedial works. Journal of Flood Risk Mana S501 • Falátková, K., Šobr, M., Neureiter, A., Schöner, W., Janský, B., Häusler, H., Engel, Z., (2019). Development of proglacial lakes and evaluation of related outburst susceptibilit ice-debris complex, northern Tien Shan. Earth Surface Dynamics, 7(1), 301-320 • Gvoždíková, B., Müller, M. ( 2017): Evaluation of extensive floods in western/central Eu Earth Syst. Sci. 21, 3715–3725 • Jenicek, M., Seibert, J., Staudinger, M. (2018): Modeling of future changes in seasonal impacts on summer low flows in Alpine catchments, Water Resources Research, 54(1), 538-5 • Stryhal, J., Huth, R. (2017): Classifications of winter Euro-Atlantic circulation patter intercomparison of five atmospheric reanalyses. J. Climate, 30, 7847-7861 • Su, Y., Langhammer, J., Jarsjö, J. (2017): Geochemical responses of forested catchments infestation: Evidence from high frequency in-stream electrical conductivity monitoring. Hydrology. 550(2017), 635-649 • Treml, V., Veblen, T.T. (2017): Does tree growth sensitivity to warming trends vary acco treeline form? Journal of Biogeography 44, p.1469-1480 *========================================================================================= * Cartography and GeoInformatics *========================================================================================= • Bayer, T., Kočandrlová, M. (2018): Reconstruction of Map Projection, its Inverse and Re- Applications of Mathematics, 63(4), 455-481 • Kupková, L., Červená, L., Suchá, R., Jakešová, L., Zagajewski, B., Brezina, S., Albrecht Classification of Tundra Vegetation in the Krkonose Mts. National Park Using APEX, AISA Sentinel-2A Data. Europen Journal of Remote Sensing [online], 50(1), 29-46 • Grešlová, P., Štych, P., Salata, T., Hernik, J., Knížková, I., Bičík, I.,Jeleček, L. Pru T. (2019): Agroecosystem energy metabolism in Czechia and Poland in the two decades afte communism: From a centrally planned system to market oriented mode of production. Land U 82, 807-820 • Pazúr, R., Feranec, J., Štych, P., Kopecká, M., Holman, L. (2017): Changes of urbanised identified and assessed by the Urban Atlas data: Case study of Prague and Bratislava. La 2017, 61(Feb), 135-146