Details
Stream Restoration in Dynamic Fluvial Systems
Scientific Approaches, Analyses, and ToolsGeophysical Monograph Series, Band 194 1. Aufl.
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110,99 € |
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| Verlag: | Wiley |
| Format: | EPUB |
| Veröffentl.: | 08.05.2013 |
| ISBN/EAN: | 9781118671788 |
| Sprache: | englisch |
| Anzahl Seiten: | 544 |
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Beschreibungen
Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 194.<br /><br /><i>Stream Restoration in Dynamic Fluvial Systems: Scientific Approaches, Analyses, and Tools</i> brings together leading contributors in stream restoration science to provide comprehensive consideration of process-based approaches, tools, and applications of techniques useful for the implementation of sustainable restoration strategies. Stream restoration is a catchall term for modifications to streams and adjacent riparian zones undertaken to improve geomorphic and/or ecologic function, structure, and integrity of river corridors, and it has become a multibillion dollar industry. A vigorous debate currently exists in research and professional communities regarding the approaches, applications, and tools most effective in designing, implementing, and assessing stream restoration strategies given a multitude of goals, objectives, stakeholders, and boundary conditions. More importantly, stream restoration as a research-oriented academic discipline is, at present, lagging stream restoration as a rapidly evolving, practitioner-centric endeavor. The volume addresses these main areas: concepts in stream restoration, river mechanics and the use of hydraulic structures, modeling in restoration design, ecology, ecologic indices, and habitat, geomorphic approaches to stream and watershed management, and sediment considerations in stream restoration. Stream Restoration in Dynamic Fluvial Systems will appeal to scholars, professionals, and government agency and institute researchers involved in examining river flow processes, river channel changes and improvements, watershed processes, and landscape systematics.
<p>Preface<br /> <i>Sean J. Bennett, Janine M. Castro, and Andrew Simon</i> ix</p> <p><b>Section I: Introduction</b></p> <p>The Evolving Science of Stream Restoration<br /> <i>Sean J. Bennett, Andrew Simon, Janine M. Castro, Joseph F. Atkinson, Colleen E. Bronner, Stacey S. Blersch, and Alan J. Rabideau</i> 1</p> <p><b>Section II: General Approaches</b></p> <p>Conceptualizing and Communicating Ecological River Restoration<br /> <i>Robert B. Jacobson and Jim Berkley</i> 9</p> <p>Setting Goals in River Restoration: When and Where Can the River "Heal Itself"?<br /> <i>G. Mathias Kondolf</i> 29</p> <p>Stream Restoration Benefits<br /> <i>J. Craig Fischenich</i> 45</p> <p>Natural Channel Design: Fundamental Concepts, Assumptions, and Methods<br /> <i>David L. Rosgen</i> 69</p> <p>Geomorphological Approaches for River Management and Restoration in Italian and French Rivers<br /> <i>Massimo Rinaldi, Hervé Piégay, and Nicola Surian</i> 95</p> <p><b>Section III: Stream Hydrology and Hydraulics</b></p> <p>Hydraulic Modeling of Large Roughness Elements With Computational Fluid Dynamics for Improved Realism in Stream Restoration Planning<br /> <i>David L. Smith, Jeffrey B. Allen, Owen Eslinger, Miguel Valenciano, John Nestler, and R. Andrew Goodwin</i> 115</p> <p>Design Discharge for River Restoration<br /> <i>Philip J. Soar and Colin R. Thorne</i> 123</p> <p>Scale-Dependent Effects of Bank Vegetation on Channel Processes: Field Data, Computational Fluid Dynamics Modeling, and Restoration Design<br /> <i>Brian P. Bledsoe, Shaun K. Carney, and Russell J. Anderson</i> 151</p> <p>Hyporheic Restoration in Streams and Rivers<br /> <i>Erich T. Hester and Michael N. Gooseff</i> 167</p> <p><b>Section IV: Habitat Essentials</b></p> <p>Diversity of Macroinvertebrate Communities as a Reflection of Habitat Heterogeneity in a Mountain River Subjected to Variable Human Impacts<br /> <i>Bartlomiej Wyzga, Pawel Oglecki, Artur Radecki-Pawlik, and Joanna Zawiejska</i> 189</p> <p>Combining Field, Laboratory, and Three-Dimensional Numerical Modeling Approaches to Improve Our Understanding of Fish Habitat Restoration Schemes<br /> <i>Pascale M. Biron, David M. Carré, Robert B. Carver, Karen Rodrigue-Gervais, and Sarah L. Whiteway</i> 209</p> <p>Connectivity and Variability: Metrics for Riverine Floodplain Backwater Rehabilitation<br /> <i>F. D. Shields Jr., Scott S. Knight, Richard Lizotte Jr., and Daniel G. Wren</i> 233</p> <p>Quantitatively Evaluating Restoration Scenarios for Rivers With Recreational Flow Releases<br /> <i>Martin W. Doyle and Randall L. Fuller</i> 247</p> <p><b>Section V: Sediment Transport Issues</b></p> <p>Sediment Source Fingerprinting (Tracing) and Sediment Budgets as Tools in Targeting River and Watershed Restoration Programs<br /> <i>A. C. Gellis and D. E. Walling</i> 263</p> <p>Closing the Gap Between Watershed Modeling, Sediment Budgeting, and Stream Restoration<br /> <i>Sean M. C. Smith, Patrick Belmont, and Peter Wilcock</i> 293</p> <p>Mitigating Channel Incision via Sediment Input and Self-Initiated Riverbank Erosion at the Mur River, Austria<br /> <i>M. Klösch, R. Hornich, N. Baumann, G. Puchner, and H. Habersack</i> 319</p> <p>Salmon as Biogeomorphic Agents in Gravel Bed Rivers: The Effect of Fish on Sediment Mobility and Spawning Habitat<br /> <i>Marwan A. Hassan, Ellen L. Petticrew, David R. Montgomery, Allen S. Gottesfeld, and John F. Rex</i> 337</p> <p><b>Section VI: Structural Approaches</b></p> <p>Restoring Habitat Hydraulics With Constructed Riffles<br /> <i>Robert Newbury, David Bates, and Karilyn Long Alex</i> 353</p> <p>Pool-Riffle Design Based on Geomorphological Principles for Naturalizing Straight Channels<br /> <i>Bruce L. Rhoads, Frank L. Engel, and Jorge D. Abad</i> 367</p> <p>Controlling Debris at Bridges<br /> <i>Peggy A. Johnson and Scott A. Sheeder</i> 385</p> <p>Seeing the Forest and the Trees: Wood in Stream Restoration in the Colorado Front Range, United States<br /> <i>Ellen Wohl</i> 399</p> <p>Geomorphic, Engineering, and Ecological Considerations When Using Wood in River Restoration<br /> <i>Tim Abbe and Andrew Brooks</i> 419</p> <p><b>Section VII: Model Applications</b></p> <p>Development and Application of a Deterministic Bank Stability and Toe Erosion Model for Stream Restoration<br /> <i>Andrew Simon, Natasha Pollen-Bankhead, and Robert E. Thomas</i> 453</p> <p>Bank Vegetation, Bank Strength, and Application of the University of British Columbia Regime Model to Stream Restoration<br /> <i>Robert G. Millar and Brett C. Eaton</i> 475</p> <p>Application of the CONCEPTS Channel Evolution Model in Stream Restoration Strategies<br /> <i>Eddy J. Langendoen</i> 487</p> <p>Practical Considerations for Modeling Sediment Transport Dynamics in Rivers<br /> <i>Yantao Cui, Scott R. Dusterhoff, John K. Wooster, and Peter W. Downs</i> 503</p> <p>AGU Category Index 529</p> <p>Index 531</p>
<p><b>Andrew Simon</b> is the editor of <i>Stream Restoration in Dynamic Fluvial Systems: Scientific Approaches, Analyses, and Tools</i>, published by Wiley.</p> <p><b>Sean J. Bennett</b> is the editor of <i>Stream Restoration in Dynamic Fluvial Systems: Scientific Approaches, Analyses, and Tools</i>, published by Wiley.</p>
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