This book: Covers five main types of geomorphological questions and their associated tools: historical framework; spatial framework; chemical, physical and biological methods; analysis of processes and forms; and future understanding framework.
David Gilvear and Robert Bryant.1 Introduction 103.2 The physical basis 103.3 River geomorphology and in-channel processes 115.4 Floodplain geomorphology and fluvial processes 119.5 Conclusions 122 Acknowledgements 122 References 128 7 Geomorphic classification of rivers and streams 133.
It is an essential resource for researchers and professional geomorphologists, hydrologists, geologists, engineers, planners, and ecologists concerned with river management, conservation and restoration.Mathias Kondolf, Hervé Piégay, Laurent Schmitt and David.Allen James.1 Introduction.2 General considerations in using archaeological evidence in geomorphology.3 Archaeological tools.4 Legacy sediment.5 Using archaeological data: case studies.6 Conclusions 51, references 52 4 Using historical data in fluvial geomorphology.Reid andThomas Dunne.1 Introduction 357.2 Understanding and assessing components of the sediment system 360.3 Designing a sediment budget 366.4 Examples 373.5 Conclusions 375 References 375 Section VI: Discriminating, Simulating and Modelling Processes and Trends 17 Models in fluvial geomorphology 383.Grabowski and Angela.Keywords: statistical tools; regression techniques; fractal analysis; principal component analysis (PCA cluster analysis; analysis of variance(anova-test Markov chain; autoregressive moving average models(arma discriminant analysis, summary, this chapter contains sections titled: Introduction, a Brief Overview of Statistics, quality of Data and Samples.Pizzuto.1 Introduction 442.2 Modelling longitudinal profiles 443.3 Modelling hydraulic geometry of rivers 445.4 Modelling channel planforms 447.5 Modelling floodplain sedimentation and erosion 450.6 Conclusion 451 References 452 20 Experimental studies and practical challenges in fluvial geomorphology 456 François Métivier.Downs and Rafael Real de Asua.1 Introduction 159.2 Approaches to isis proteus 7.7 software with crack catchment processes modelling 160.3 Conceptual models 160.4 Problem-centred interpretative models 161.5 Data-driven empirical models 163.6 Numerical models 164.7 Tools for developing a catchment process model: representation and accuracy.It is a discipline of synthesis, with roots in geology, geography, and river engineering, and with strong interactions with allied fields such as ecology, engineering and landscape architecture.Provides guidance on advantages first grade learning games and limitations of different tools for different applications, data sources, equipment and supplies needed, and case studies illustrating their application in an integrated perspective.Roy.1 Introduction 306.2 Tracing methods 312.3 Conclusion 319 Acknowledgements 319 References 319 15 Sediment transport 324.Skip to Main Content, get PDF : This Chapter (404K all Chapters.Acknowledgements 11, references 11, section II: The Temporal Framework: Dating and Assessing Geomorphological Trends 2 Surficial geological tools in fluvial geomorphology.Methods in Fluvial Geomorphology provides an integrated approach to the interdisciplinary nature of the subject and offers guidance for researchers and professionals on the tools available to answer questions on river management on very difference scales.Discrimination of Forms and Processes, simple and Multiple Linear Regressions, multivariate Analysis and Modeling.Montgomery.1 Introduction 133.2 Classifications for fluvial understanding 138.3 Interactions between geomorphic classifications and ecology 143.4 Geomorphic classification and quality of river environments 144.5 Applying geomorphic classification schemes to fluvial systems 148 Acknowledgements 153 References 153 8 Modelling catchment processes 159.
Each chapter is organised to cover everything from general concepts to specific techniques * Topics covered include evolution of methods, guiding concepts, a framework for deciding when to apply specific tools, advantages and limitation of the tools, sources of data, equipment and supplies needed.
Sear.1 Introduction 509.2 Motivations for applying fluvial geomorphology 509.3 Meeting the demand: geomorphological training and application 510.4 The role of geomorphology in planning and management 511.5 Current geomorphological practices 512.6 Case study: preventing erosion risks, from top-down to bottom-up.