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- Sedimentary Structures
- A Genetic Classification of Floodplains G C
- Bed Load Motion and Grain Sorting in a Meandering Stream Charriage Et Fractionnement Dans Une Rivière À Méandres
- User's Manual for SRH-Meander
- Morphology, Bedload and Sedimentology of Active Gravel Bed Rivers
- Simulating Laboratory Braided Rivers with Bed-Load Sediment Transport
- Interbiome Comparison of Stream Ecosystem Dynamics'
- How Channel Networks Structure Riverine Habitats
- Guidelines for Using Bedload Traps in Coarse-Bedded Mountain Streams: Construction, Installation, Operation, and Sample Processing
- Salt Loading from Efflorescence and Suspended Sediments in the Price River Basin
- The Role of Sediment Supply in the Adjustment of Channel Sinuosity
- Tributary/Mainstem Interactions, the River Continuum Concept and the Grande Ronde River
- The Influence of Floodplain Restoration on Flow and Sediment
- Ratio of Bed Load to Total Sediment Load in Coarse-Bed Rivers
- Bed Material Transport and the Morphology of Alluvial River Channels
- Morphometric Properties of Alternate Bars And
- Section 2 Standard Methods for Identifying Bankfull Channel Features and Channel Migration Zones
- Bed Load, Suspended Load, Boundary-Layer Characteristics, Field Measurements, Rating Curve
- Stream Processes for Watershed Stewards
- Chapter 6 Running Water and Groundwater Summary 6.1 Running Water Water Constantly Moves Among the Oceans, the Atmosphere, the Solid Earth, and the Biosphere
- The Relationship Between Suspended and Bed Load Transport in River Channels
- The Influence of Floodplain Restoration on Flow and Sediment Dynamics in an Urban River
- Looking at Bed Load 24 Hours a Day Using Acoustics to Continuously Measure Coarse Bed Load Movement in a River
- Effects of Aggradation and Degradation on Riffle-Pool Morphology in Natural Gravel Channels, Northwestern California
- Manual for Computing Bed Load Transport Using BAGS (Bedload Assessment for Gravel-Bed Streams) Software
- 9.32 Large River Floodplains T Dunne, University of California–Santa Barbara, Santa Barbara, CA, USA RE Aalto, University of Exeter, Exeter, UK
- Part Iii Current-Generated Sedimentary Structures
- Stability of Stream Channel Patterns H
- The Bed-Load Function for Sediment Transportation in Open Channel Flows
- Bedload and Suspended Load Transport in the 140-Km Reach Downstream of the Mississippi River Avulsion to the Atchafalaya River
- Channel Bar Morphology, Distribution, and Mining-Related Geochemistry in the Ib G River, St
- Chapter 3 SEDIMENTARY STRUCTURES
- Measurement of Bed Load in Rivers
- Sediment Transport Mechanisms 1. Bed-Load Transport
- Rehabilitation of Floodplain Mining Pits: Interim Report Detailing Initial
- How Do Gravel-Bed Rivers Braid? Peter Ashmore University of Western Ontario
- Quantifying River Channel Stability at the Basin Scale
- Bed Material Transport and the Morphology of Alluvial River Channels
- Bed-Material Load (Einstein's Method)
- Scaling Relationships Between Bed Load Volumes, Transport Distances
- Bed Load and Suspended Load Contributions to Migrating Sand
- Flood-Plain and Channel Aggradation at Selected Bridge Sites in the Iowa and Skunk River Basins, Iowa
- Channel Restoration Design for Meandering Rivers Philip J
- Bed-Material Load (Einstein's Method)
- How the Choice of Bed Material Load Equations and Flow Duration Curves Impacts Estimates of Effective Discharge