Buch, Englisch, Band 41, 505 Seiten, Format (B × H): 164 mm x 243 mm, Gewicht: 2000 g
A State-Of-The-Art
Buch, Englisch, Band 41, 505 Seiten, Format (B × H): 164 mm x 243 mm, Gewicht: 2000 g
Reihe: Advances in Global Change Research
ISBN: 978-90-481-8735-5
Verlag: Springer Nature Singapore
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Tree Rings and Natural Hazards – An Introduction.- Tree Rings and Natural Hazards: An Introduction.- Snow Avalanches.- Dendrogeomorphology and Snow Avalanche Research.- Tree-Ring Dating of Snow Avalanches in Glacier National Park, Montana, USA.- Tracking Past Snow Avalanches in the SE Pyrenees.- Tree-Ring Based Reconstruction of Past Snow Avalanche Events and Risk Assessment in Northern Gaspé Peninsula (Québec, Canada).- Using Dendrochronology to Validate Numerical Simulations of Snow Avalanches in the Patagonian Andes.- Landslides.- Dating Landslides with Trees.- Dendrogeomorphological Analysis of a Landslide near Lago, Calabria (Italy).- Tree-Ring Analysis and Rockfall Avalanches: The Use of Weighted Samples.- Age of Landslides Along the Grande Rivière de la Baleine Estuary, Eastern Coast of Hudson Bay, Quebec (Canada).- Rainfall Up, Mountain Down?.- Rockfall.- Rockfalls and Their Hazard.- Assessing Rockfall Activity in a Mountain Forest – Implications for Hazard Assessment.- Tree-Ring Based Rockfall Reconstruction and Accuracy Assessment of a 3D Rockfall Model.- Assessment of the Rockfall Frequency for Hazard Analysis at Solà d’Andorra (Eastern Pyrenees).- Reconstruction and Spatial Analysis of Rockfall Frequency and Bounce Heights Derived from Tree Rings.- Debris Flows.- State of the Art in Debris-Flow Research: The Role of Dendrochronology.- Using Event and Minimum Age Dating for the Assessment of Hazards on a Debris-Flow Cone.- Dendrogeomorphic Applications to Debris Flows in Glacier National Park, Montana USA.- Frequency–Magnitude Relationships, Seasonality and Spread of Debris Flows on a Forested Cone.- High-Precision Dating of Debris-Flow Events Within the Growing Season.- Flooding.- Tree Rings as Paleoflood and Paleostage Indicators.- The Effectsof Hydroelectric Flooding on a Reservoir’s Peripheral Forests and Newly Created Forested Islands.- Spring Water Levels Reconstructed from Ice-Scarred Trees and Cross-Sectional Area of the Earlywood Vessels in Tree Rings from Eastern Boreal Canada.- A 100-Year History of Floods Determined from Tree Rings in a Small Mountain Stream in the Tatra Mountains, Poland.- Dendrohydrology and Extreme Floods Along the Red River, Canada.- Meteorological Hazards.- Weather and Climate Extremes: Where Can Dendrochronology Help?.- Dendrotempestology and the Isotopic Record of Tropical Cyclones in Tree Rings of the Southeastern United States.- Dendrochronological Responses to a Tornado.- Dendroecology of Hurricanes and the Potential for Isotopic Reconstructions in Southeastern Texas.- Wildfires.- Wildfire Hazard and the Role of Tree-Ring Research.- Mesoscale Disturbance and Ecological Response to Decadal Climatic Variability in the American Southwest.- Wildfire Risk and Ecological Restoration in Mixed-Severity Fire Regimes.- Wildfire Ecology and Management at Grand Canyon, USA: Tree-Ring Applications in Forest Fire History and Modeling.- Wildfire Risk and Hazard in Northern Patagonia, Argentina.- Earthquakes.- Tree Rings and Earthquakes.- Application of Tree-Ring Analysis to Paleoseismology.- Tree-Ring Abnormality Caused by Large Earthquake: An Example From the 1931 M 8.0 Fuyun Earthquake.- Tree-Ring Dated Landslide Movements and Seismic Events in Southwestern Montana, USA.- Seismic Damage in Conifers from Olympic and Yellowstone National Parks, United States.- Volcanic Activity.- Studying Past Volcanic Activity with Tree Rings.- Tree-Ring Evidence for the 1913 Eruption of Volcán de Fuego de Colima, Mexico.- Dendrochemical Evidence of the 1781 Eruption of Mount Hood, Oregon.-Volcanic Eruptions over the Last 5,000 Years from High Elevation Tree-Ring Widths and Frost Rings.- Unknown Eruption of Shiveluch Volcano (Kamchatka, Russia) Around AD 1756 Identified by Dendrochronology.- Late Eighteenth Century Old Maid Eruption and Lahars at Mount Hood, Oregon (USA) Dated with Tree Rings and Historical Observations.- Overall Conclusion and Outlook.- Whither Dendrogeomorphology?.- Erratum to: Chapter 40 Seismic Damage in Conifers from Olympic and Yellowstone Parks, United States.