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Engineering Geology for Society and Territory - Volume 3
River Basins, Reservoir Sedimentation and Water Resources
%A Lollino, Giorgio
%A Arattano, Massimo
%A Rinaldi, Massimo
%A Giustolisi, Orazio
%A Maréchal, Jean-Christophe
%A Grant, Gordon E.
%I Springer International Publishing
%@ 9783319090542
%K Geography
%K Hydraulic engineering
%K Earth Sciences
%K Sedimentology
%K Hydrology.
%K Engineering geology.
%K Engineering—Geology.
%K Foundations.
%K Hydraulics.
%K Geotechnical engineering.
%D 2015
%X Description based upon print version of record
%X Foreword; Preface; Contents; Consiglio Nazionale delle RicercheIstituto di Ricerca per laProtezione Idrogeologica; Part I Dams, Geomorphic Processes and Water Resources Management; 1 Application of Bivariate Stochastic Methods in Evaluation of Response Time of Various Hydrological Components with Respect to Rainfall, A Case study, Doroudzan Earth Dam, Fars Province, Iran; Abstract; 1.1 Introduction; 1.2 Methodology; 1.3 The Study Area; 1.4 Results; 1.5 Conclusions; References
%X 2Local-Scale Risk Analysis and Mitigation of Debris Flow Endangering a Densely Populated Urban Area: A Case Study from Tyrol, ATAbstract; 2.1 Risk Analysis; 2.2 Risk Mitigation; 2.3 Impact of the Mitigation Measure on Risk in Hötting; References; 3 An Investigation of the Piping Problems Causing Water-Level Drops in Mountain Lake, Giles County, Virginia, USA; Abstract; 3.1 Introduction; 3.2 Methods; 3.3 Results; 3.4 Conclusions; References; 4 Remote Sensing and Hydrogeological Methodologies for Irrigation Canal Water Losses Detection: The Naviglio di Bra Test Site (NW-Italy); Abstract
%X 4.1 Introduction4.2 Methodologies and Applications; 4.2.1 Remote Sensing Data Analysis; 4.2.2 Hydrological-Hydrogeological methods; 4.3 Conclusions; References; 5 Comparison of Different Methods for Detecting Irrigation Canals Leakage; Abstract; 5.1 Introduction; 5.2 Test Sites Description; 5.3 Materials and Methods; 5.3.1 Empirical Formulas; 5.3.2 Inflow-Outflow Tests; 5.3.3 Two Tracers Method; 5.4 Results and Discussion; References; 6 Sediment Problems and Consequences During Temporary Drawdown of a Large Flood Control Reservoir for Environmental Retrofitting; Abstract; 6.1 Introduction
%X 6.2 Cougar Dam and Reservoir6.3 Sample Collection; 6.4 Results; 6.5 Discussion; References; 7The Remains of the Dam: What Have We Learned from 15 Years of US Dam Removals?; Abstract; Introduction; 7.2 A Coupled Upstream/DownstreamSystem; 7.3 Upstream Reservoir Erosion; 7.4 Downstream Geomorphic Response; 7.5 Lessons Learned; References; 8 The Sediment Budgets Evaluation in a Basin Using LiDAR DTMs; Abstract; 8.1 Introduction; 8.2 Study Area; 8.3 Materials and Method; 8.4 Results and Discussion; 8.4.1 Uncertainty in Volumetric Estimation; 8.4.2 Sediment Delivery in Catchment; 8.5 Conclusion
%X References9 The Effects of Check Dams on Sediment Transport Dynamics on Steep Slopes; Abstract; 9.1 Introduction; 9.2 Experiment Presentation; 9.2.1 Flume; 9.2.2 Sediment Feeding System; 9.2.3 Sediment Mixture; 9.2.4 Measurements; 9.3 Test Plan; 9.3.1 Experimental Conditions; 9.3.2 Tested Configurations; 9.4 Results; 9.4.1 Bed Surface Aspect; 9.4.2 Bedload Discharge; 9.4.3 Bed Level and Slope; 9.5 Discussion and Conclusion; Acknowledgements; References; Part IIDebris-Flow Monitoring and Warning
%X 10Debris-Flow Monitoring and Geomorphic Change Detection Combining Laser Scanning and Fast Photogrammetric Surveys in the Moscardo Catchment (Eastern Italian Alps)
%C Springer International Publishing
%C Cham
%U http://slubdd.de/katalog?TN_libero_mab2