Debris flow

  • Šilhán, K., Kluzová, O., Tichavský, R., (2019): The on field differentiation of snow avalanche- and debris flow-induced scars in trees as a fundament for improving dendrogeomorphic sampling strategy (case study from the Great Cold valley in High Tatra Mountains). Cold Regions Science and Technology 158, 1-9.(***)
  • Šilhán, K., Tichavský, R., Galia, T., Škarpich, V., (2018): Hydrogeomorphic activity in ungauged Mediterranean gorges: specifics of tree ring data-based study. Catena, 167, 90-99. (***)
  • Tichavský, R., Šilhán, K., Stoffel, M., (2017): Age-dependent sensitivity of trees disturbed by debris flows – implications for dendrogeomorphic reconstructions. Quaternary Geochronology, 42, 63-75. (***)
  • Tichavský, R., Šilhán, K., Tolasz, R., (2017): Tree ring-based chronology of hydro-geomorphic processes as a fundament for identification of hydro-meteorological triggers in the Hrubý Jeseník Mountains (Central Europe). Science of the Total Environment, 597, 1904-1917. (***)
  • Šilhán, K., Tichavský, R., (2017): Snow avalanche and debris flow activity in the High Tatras Mountains: New data using dendrogeomorphic survey. Cold Regions Science and Technology 134, 45-53 (***)
  • Tichavský, R., Šilhán, K., (2016): Spatio-temporal specifics of hydro-geomorphic processes in headwater parts of mid-mountains reconstructed based on tree-ring data – a case study from the Hrubý Jeseník Mountains (Czech Republic). Geografiska Annaler: Series A, Physical Geography, 98, 369-388. (***)
  • Šilhán, K., Tichavský, R., (2016): Recent increase in debris flow activity in the Tatras Mountains: results of a regional dendrogeomorphic reconstruction. Catena, 143, 221-231. (***)
  • Tichavský, R., Šilhán, K., (2016): The changing ability of Norway spruce (P. abies) to record hydrogeomorphic processes based on the age and diameter of the tree stem - a dendrogeomorphic approach. Catena, 147, 469-480. (***)
  • Tichavský, R., Šilhán, K., (2015): Dendrogeomorphic approaches for understanding the initiation and behaviour of debris flows and relative torrential processes in the case of mid-mountain range (the Hrubý Jeseník Mts.; Czech Republic). Geomorphology, 246, 445-457. (***)
  • Šilhán, K., Pánek, T., Hradecký, J., Stoffel, M., (2015): Tree-age control on reconstructed debris-flow frequencies: examples from a regional dendrogeomorphic reconstruction in the Crimean Mountains. Earth Surface Processes and Landforms, 40, 243-251. (***)
  • Šilhán, K., Pánek, T., Hradecký, J., (2015): Řídící faktory vzniku blokovobahenních proudů na jižních svazích Krymského pohoří. Geografie, 120, 50-63. (***)
  • Šilhán, K., Galia, T., (2015): Sediment (un)balance budget in a high-gradient stream on flysch bedrock: A case study using dendrogeomorphic methods and bedload transport simulation. Catena, 124, 18-27. (***)
  • Tichavský, R., Šilhán, K., Tolasz, R., (2014): Origin, triggers and spatio-temporal variability of debris flows in high-gradient channels (a case study from the culmination part of the Moravskoslezské Beskydy Mts.; Czech Republic). Carpathian Journal of Earth and Environmental Sciences, 9(3), 5-16. (***)
  • Šilhán, K., (2014): Chronology of processes in high-gradient channels of medium-high mountains and their influence on alluvial fans properties.Geomorphology, 206, 288-298. (***)
  • Šilhán, K., (2012): Frequency of fast geomorphological processes in high-gradient streams: case study from the Moravskoslezské Beskydy Mts (Czech Republic) using dendrogeomorphic methods. Geochronometria, 39, 122-132. (***)
  • Šilhán, K., Pánek, T., Hradecký, J., (2012): Tree-ring analysis in the reconstruction of slope in stabilities associated with earthquakes and precipitation (the Crimean Mountains, Ukraine). Geomorphology, 173-174, 174-184. (***)
  • Šilhán, K., Pánek, T., (2010): Fossil and recent debris flows in medium-high mountains (Moravskoslezské Beskydy Mts, Czech Republic). Geomorphology, 124, 238–249. (***)