Dendrochronological Records of Debris Flow and Avalanche Activity in a Mid-Mountain Forest Zone (Eastern Sudetes — Central Europe)

Abe K and Iwamoto K, 1986. An evaluation of tree-root effect on slope stability by tree-root strength. Journal Japanese Forest Society 68: 505-510.Search in Google Scholar

Bardou E and Delaloye R, 2004. Effects of ground freezing and snow avalanche deposits on debris flows in alpine environments. Natural Hazards and Earth System Sciences 4: 519-530.10.5194/nhess-4-519-2004Search in Google Scholar

Baumann F and Kaiser KF, 1999. The Multetta Debris Fan, Eastern Swiss Alps: A 500-year Debris Flow Chronology. Arctic, Antarctic and Alpine Research 31: 128-134.10.1080/15230430.1999.12003290Search in Google Scholar

Butler DR, 2001. Geomorphic process-disturbance corridors: a variation on a principle of landscape ecology. Progress in Physical Geography 25: 237-238, DOI 10.1177/030913330102500204.10.1177/030913330102500204Search in Google Scholar

Caine N, 1980. The rainfall intensity — duration control of shallow landslides and debris flows. Geographical Analysis 22A: 23-27.10.1080/04353676.1980.11879996Search in Google Scholar

Carrara PE, 1979. The determination of snow avalanche frequency through tree-ring analysis and historical records at Ophir, Colorado. Geological Society of America Bulletin 90: 773-780.10.1130/0016-7606(1979)90<773:TDOSAF>2.0.CO;2Search in Google Scholar

Casteller A, Christen M, Villalba R, Martinez H, Stöckli V, Leiva JC, Bartelt P, 2008. Validating numerical simulations avalanches using dendrochronology: the Cerro Venata event in Northern Patagonia, Argentina. Natural Hazards and Earth System Sciences 8: 433-443.10.5194/nhess-8-433-2008Search in Google Scholar

Decaulne A, Sæmundsson B and Petursson A, 2005. Debris flow triggered by rapid snowmelt: a case study in the Gleidarhjallli area, northwestern Iceland. Geographical Analysis A 87A: 487-500.10.1111/j.0435-3676.2005.00273.xSearch in Google Scholar

Dunajski A, 1998. Sukcesja roślinności na lawinisku potoku błotnokamienistego w dolinie Łomniczki w Karkonoszach — stan zaawansowania procesu po trzech latach (Vegetation succession on muddy debris flow in the Łomniczka Valley in the Karkonosze Mountains — the progress after three years). Acta Universitatis Wratislaviensis 2090, Prace Botaniczne 77: 205-217 (in Polish).Search in Google Scholar

Fiorillo F and Wilson RC, 2004. Rainfall induced debris flows in pyroclastic deposits, Campania (southern Italy). Engineering Geology 75: 263-289.10.1016/j.enggeo.2004.06.014Search in Google Scholar

Gába Z, 1992. Mury pod Keprnikiem v červenci 1991 (Debris flows in the Keprnik massif, June 1991). Severní Morava 64: 43-50 (in Czech).Search in Google Scholar

Gärtner H, Stoffel M, Lièvre I, Conus D, Grichting M and Monbaron M, 2003. Debris-flow frequency derived from tree-ring analyses and geomorphic mapping, Valais, Switzerland. Debris Flow Hazards Mitigation: Mechanics, Prediction and Assessment 1: 201-207.Search in Google Scholar

Huber B, 1943. Über die Sicherheit jahrringchronologischer Datierung. Holz als Roh — und Werkstoff 6: 263-268.10.1007/BF02603303Search in Google Scholar

Ishikawa Y, Kawakami S, Morimoto Ch and Mizuhara K, 2003. Suppression of Derbis movement by forests and damage to forests by debris deposition. Journal of Forest Research 8: 37-47.10.1007/s103100300004Search in Google Scholar

Kotarba A, 1992. High-energy geomorphic events in the polish Tatra Mountains. Geographical Analysis 74A: 121-131.10.1080/04353676.1992.11880356Search in Google Scholar

Lancaster S and Hayes S, 2003. Effects of wood on debris flow runout in small mountain watersheds. Water Resources Research 39: 1-21.10.1029/2001WR001227Search in Google Scholar

Lin C, Shie C, Yuan B, Shieh Y and Lee S, 2003. Impact of Chi-Chi earthquake on the occurrence of landslides and debris flows: example from the Chenyulan River watershed, Nantou, Taiwan, Engineering Geology 71: 49-61.10.1016/S0013-7952(03)00125-XSearch in Google Scholar

Malik I, 2006. Contribution to understanding the historical evolution of meandering rivers using dendrochronological methods: example of the Mała Panew River in southern Poland. Earth Surface Processes and Landforms 31: 1227-1245.10.1002/esp.1331Search in Google Scholar

Malik I and Owczarek P, 2007. Dendrochronological records of erosion and sedimentation In a mid-mountain stream (Jeseniki Mountains — Czech Republic). TRACE — Tree Rings in Archaeology, Climatology and Ecology 5: 240-247.Search in Google Scholar

May ChL, 2002. Debris flow through different forest age classes in the Central Oregon Coast Range. Journal of the American Water Resources Association 38: 1097-1113.10.1111/j.1752-1688.2002.tb05549.xSearch in Google Scholar

Perret S, Stoffel M and Kienholz H, 2006. Spatial and temporal rockfall activity in a forest stand in the Swiss Prealps — a dendrogeomorphological case study. Geomorphology 74: 219-231, DOI 10.1016/j.geomorph.2005.08.009.10.1016/j.geomorph.2005.08.009Search in Google Scholar

Polách D and Gába Z, 1998. Historie povodní na šumperském a jesenickém okrese (Historic foods in Šumperk and Jesenik districts). Severní Morava 75: 3-28 (in Czech).Search in Google Scholar

Reid ME, Nielsen HP and Dreiss SJ, 1988. Hydrologic factors triggering a shallow hillslope failure. Bulletin of the International Association of Engineering Geology 25: 349-361.10.2113/gseegeosci.xxv.3.349Search in Google Scholar

Schweingruber FH, 1996. Tree rings and environment. Berne. Paul Haupt Verlag: 609pp.Search in Google Scholar

Stoffel MI, Conus D, Grichting M, Raetzo H, Gärtner H and Monbaron M, 2005. 400 Years of Debris-Flow Activity and Triggering Weather Conditions: Ritigraben, Valais, Switzerland. Antarctic and Alpine Research 37: 387-395, DOI 10.1657/1523-0430(2005)037[0387:YODAAT]2.0.CO;2.10.1657/1523-0430(2005)037[0387:YODAAT]2.0.CO;2Search in Google Scholar

Šăfar J, 2003. Olomoucko. Agentura ochrany přirody a krajiny ČR a EkoCentrum Brno, Praha (Olomouc Region. Agentura ochrany přirody a krajiny ČR a EkoCentrum Brno, Praha): 380pp (in Czech).Search in Google Scholar

Štekl J, Brázdil R, Kakos V, Jež J and Tolasz R, 2001. Extrémní denní srážkové úhrny na území ČR v období 1879-2000 a jejich synoptické příčiny (Extreme daily precipitation in the Czech Republic area and their synoptic causes (in the period 1879-2000)). Český hydrometeorologický ústav, Praha: 286pp (in Czech).Search in Google Scholar

Zieliński T, 2003. Catastrophic flood effects in alpine/foothill fluvial system (a case study from the Sudetes Mts, SW Poland). Geomorphology 54: 293-306, DOI 10.1016/S0169-555X(02)00362-8.10.1016/S0169-555X(02)00362-8Search in Google Scholar