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- About Newsletters Join Member award Survey About Newsletters Join Member award Survey About Newsletters Join Member award Survey About Newsletters3 KB (229 words) - 16:22, 6 December 2022
- Coastal (section Modeling erosion, sediment and solute transport in nearshore environments like deltas, estuaries, bays and lagoons)About Join About Join About Join About Join Models The Coastal community makes available a diverse set of 89 numerical models and tools, for you to2 KB (128 words) - 14:58, 19 October 2022
- channel-and-platform. Coastal Giulio Mariotti River Network Bed-Material Sediment Bed-material sediment transport and storage dynamics on river networks. Hydrology2 KB (6,836 words) - 17:21, 3 December 2021
- of concentrated sediment incorporated into ice near the base of the glacier. Despite the prevalence of these ice-sediment facies, sediment transported in3 KB (252 words) - 14:13, 15 April 2022
- 2019 CSDMS meeting-082 (section Introducing a sediment module to the National Water Model (WRF-Hydro))2 Dimensional SEDiment (CASC2D-SED) model and adapted it to the WRF-Hydro platform. The model mainly contains two components: (1) sediment erosion and transport3 KB (262 words) - 21:16, 7 March 2019
- 2019 CSDMS meeting-091 (section The influence of bio-physical processes on sediment motion over tidal flat)was obviously higher in the sediment layer below the surface seabed at aquaculture site. Further, we find that the sediments on the flat inhabited by clams4 KB (425 words) - 01:48, 18 March 2019
- 2019 CSDMS meeting-083 (section Introducing a wave-supported gravity flow module to Community Sediment Transport Model System)processes into the Community Sediment Model System (CSTMS) on the platform of the Coupled Ocean-Atmosphere-Wave-and-Sediment Transport Modeling system (COAWST)4 KB (301 words) - 16:30, 7 March 2019
- rivers to variable upstream sediment supply remains poorly understood, and operational flood models do not account for sediment in flood prediction. We introduce5 KB (344 words) - 19:51, 1 April 2019
- 2019 CSDMS meeting-004 (section An investigation of the impact of Marine Hydrokinetic devices on sediment transport)around a bed mounted MHK structure to analyze the impacts of seabed slope, sediment grain size, and wave condition on the long-term stability of the device3 KB (321 words) - 12:18, 25 March 2019
- 2019 CSDMS meeting-092 (section Estimating the Impact of Oil on Flocculation Processes with a New Parameterized Sediment Model)processes into the Community Sediment Transport Modeling System (CSTMS) within the Coupled Ocean-Atmosphere-Wave-and-Sediment Transport (COAWST) modeling4 KB (382 words) - 14:45, 22 March 2019
- get your lab on the CSDMS JupyterHub Sediment Supply to the Global Ocean Stand alone module Investigate river sediment supply to the ocean by exploring the602 bytes (1,163 words) - 14:08, 26 August 2020
- 2019 CSDMS meeting-005 (section Sediment dynamics along the fluvial-tidal transition: a case study from the Ganges delta)multiple flood ranges (low, medium and extreme) and sediment cases (-50%, average +50% suspended sediment concentration of 4 cohesive grain classes). Preliminary4 KB (346 words) - 10:54, 28 May 2019
- 2019 CSDMS meeting-003 (section Response of Fluvial Suspended Sediment Fluxes and River Discharge to Future Climate Change on a Global Scale)of Alabama Tuscaloosa Alabama, United States. sagy.cohen@ua.edu Fluvial sediment dynamics play an important role in the functioning and connectivity of3 KB (297 words) - 17:47, 31 March 2019
- 2022 CSDMS meeting-025 (section Modeling the development of wide bedrock valleys as a function of collapsed bedrock block size, bed sediment, and discharge variability)closer in size to bedload sediment and narrower in landscapes where collapsed material is much larger than bedload sediment. I also use the newly modified3 KB (312 words) - 15:03, 15 April 2022
- 2022 CSDMS meeting-004 (section Comparing sedimentological facies with modeled sediment transport pathways in fault scarp environments)colluvial wedge development, connecting this knowledge to the physics of sediment transport can open new frontiers in our understanding. Here, I present2 KB (216 words) - 16:47, 14 April 2022
- Edit registration Pay registration (if you haven't already) Log in (or create account for non-CSDMS members) Forgot username? Search or email:CSDMSweb@colorado1 KB (44 words) - 15:51, 16 February 2022
- significant increases in suspended sediment flux in adjacent streams and that the effect of deforestation on suspended sediment flux will decrease significantly3 KB (334 words) - 16:32, 18 February 2022
- 2019 CSDMS meeting-056 (section Seasonal variation in wave-driven sediment resuspension in the northern Andaman Sea: Results from a numerical model)surface morphology and sediment texture in the east – to – west direction, and recent field observations indicate that sediment accumulation rates increase3 KB (270 words) - 06:32, 1 April 2019
- 2022 CSDMS meeting-087 (section Implementation of a Hydrodynamic - Sediment Transport Model for the Beaufort Sea Shelf)hydrodynamic and sediment transport conditions on the continental shelf, motivating this study. To analyze this, we are using a coupled hydrodynamic-sediment transport3 KB (269 words) - 09:29, 1 April 2022
- 2019 CSDMS meeting-076 (section Constraining hydroclimate control on permafrost slope stability with sediment records, modern landscapes and coupled models)timing and magnitude of slope instabilities in past glaciations. Using sediment records from these deposits, we show how hillslope denudation varies as3 KB (240 words) - 10:29, 15 April 2019
- 2022 CSDMS meeting-083 (section Modeling Tsunami Inundation and Sediment Transport to Characterize Earthquake Source Parameters from Tsunami Deposits)hydrodynamic boundary conditions for the sediment transport simulations. The Delft3D-FLOW model uses van Rijn (2007) sediment transport formulations and coefficients4 KB (426 words) - 19:47, 4 April 2022
- 2022 CSDMS meeting-033 (section Modeling Future Sediment Transport Variations at a Watershed-Scale Using Landlab: A Preliminary Example from the Chestatee River in Northern Georgia, USA.)centuries will influence sediment delivery to reservoirs, locks, harbors, and coasts. The models will be calibrated by historical sediment flux data, allowing4 KB (415 words) - 11:52, 14 April 2022
- HydroTrend was used to estimate incoming sediment load from the Skeena River. Model estimates of suspended sediment load are higher than past estimates due5 KB (378 words) - 11:24, 5 April 2019
- model runs. We find that sediment cover strongly modulates landscape response to uplift, and model runs with “finer” sediment (lower particle settling4 KB (436 words) - 16:02, 15 April 2022
- 2022 CSDMS meeting-058 (section Generating geochemical maps from river sediment samples: an inverse modelling approach)composition of sediment contained within rivers or floodplains, which integrate large upstream areas [1]. Our method works by modelling sediment geochemistry4 KB (417 words) - 07:29, 6 April 2022
- level rise: From decades to millennia 2021/12/02 Syvitski, Jaia Earth's Sediment Cycle during the Anthropocene 2021/11/30 Campforts, Benjamin Shuffling2 KB (70 words) - 08:41, 24 January 2023
- 2022 CSDMS meeting-064 (section Insights from new model for river incision accounting for stochastic water and sediment discharge)and width freely evolve to optimize sediment transport and bedrock incision in response to stochastic water and sediment discharge. We investigate the impact3 KB (327 words) - 10:40, 25 February 2022
- 2023 CSDMS meeting-106 (section Identifying sediment transport pathways on a heavily managed and chronically eroding, mixed sediment beach)of the movement of sediment within the nearshore zone on beaches such as Pevensey will improve our understanding of how mixed sediment beaches function and5 KB (465 words) - 04:43, 30 March 2023
- 2022 CSDMS meeting-082 (section Riverbank stability and cross-stream sediment diffusion governed by turbulence)stabilization of channels by the attainment of the equilibrium between sediment diffusion and gravity forces. However, the role of other potentially relevant4 KB (389 words) - 16:56, 14 April 2022
- shoreline erosion control often listed as a key service, but can also alter the sediment dynamics and waves within back-barrier bays. Here we incorporate seagrass4 KB (357 words) - 11:55, 8 February 2019
- fluvial sediment flux to the delta directly linked to changes in delta morphology? (2) What are the magnitudes and trends of riverine sediment fluxes that4 KB (348 words) - 17:45, 31 March 2019
- 2022 CSDMS meeting-094 (section Mass Wasting Router: A watershed-scale sediment production and transport model)filter sediment production signals into a time series of bedload transport. Here, we describe the Mass Wasting Router, a new watershed-scale sediment production2 KB (195 words) - 10:40, 13 May 2022
- differences in vertical incision rate and influences sediment characteristics such as clast lithology, coarse sediment generation rate, and grain size. In rivers4 KB (438 words) - 11:30, 25 January 2022
- 2023 CSDMS meeting-007 (section Modeling the development of wide bedrock valleys as a function of collapsed bedrock block size, bed sediment, and discharge variability)closer in size to bedload sediment and narrower in landscapes where collapsed material is much larger than bedload sediment. I also use the newly modified3 KB (310 words) - 14:46, 26 January 2023
- between runs. Further, 3 scenarios of fluvial sediment discharge corresponding to low, medium, and high sediment discharges, are incorporated into each fluvial4 KB (371 words) - 08:57, 10 May 2022
- greatest exhumation. Sediment transport modeling across the orogen suggests that areas of highest exhumation will be inundated with sediment over three orders4 KB (355 words) - 12:55, 28 May 2019
- 2022 CSDMS meeting-080 (section The influence of geologically instantaneous, event-scale processes on basin-scale sediment dispersal patterns)geologically instantaneous, event-scale processes may exert long-term control on sediment dispersal patterns and thus preserved stratigraphy at the basin scale,4 KB (395 words) - 11:48, 22 March 2022
- 2023 CSDMS meeting-049 (section Topographic and surface mass balance controls on Greenland glacier dynamics in a coupled ice-sediment model)sedimentation dynamics including sediment diffusion (removing sediment from moraines) and glaciofluvial sedimentation (adding sediment to moraines) in a flowline4 KB (377 words) - 16:45, 27 February 2023
- and death of vegetation, surface water infiltration, linear diffusion of sediment), or drivers of these processes (e.g. rainfall, solar radiation). Users4 KB (330 words) - 12:22, 9 November 2023
- 2022 CSDMS meeting-030 (section Inverting passive margin stratigraphy for marine sediment transport dynamics over geologic time)SFM, which is based on an approximation of local, linear slope-dependent sediment transport, fails to produce diagnostic features of passive margin stratigraphy5 KB (402 words) - 16:00, 1 February 2022
- 2022 CSDMS meeting-035 (section Modeling the effects of detachment and entrainment of sediment in fault-crossing channels in strike-slip faults)can be represented by the transport-limited theory, which assumes that sediment is always available but may or not be transportable depending on the flow3 KB (310 words) - 12:32, 14 April 2022
- 2022 CSDMS meeting-106 (section Role of fluid-drag force and particle interactions on shape-induced segregation in sediment transport)soil creep, landslides and debris flows, and river bed-load and suspended sediment transport. In the case of river bed-load transport, grains may move by3 KB (355 words) - 14:26, 14 April 2022
- 2024 CSDMS meeting-057 (section How does abrasion impact the fluvial morphodynamics of a volcanic sediment pulse, Suiattle River, WA?)the downstream impact of sediment supply from Glacier Peak, a stratovolcano that regularly supplies the channel with large sediment pulses. This phenomenon5 KB (491 words) - 15:44, 27 March 2024
- 2023 CSDMS meeting-098 (section Simulated river channel response to a coarse sediment pulse with and without bed material abrasion)and coarse sediment fluxes. We suggest that in some landscapes, abrasion may also be an important control on the morphodynamics of sediment pulses. Here3 KB (330 words) - 16:29, 25 May 2023
- three-dimensional distributions of sediment deposits characteristic of fluvial, wave, and tidal dominated deltas. The generated sediment deposits are used to create4 KB (345 words) - 06:12, 28 May 2019
- 2023 CSDMS meeting-081 (section Variability in Bed Shear Stresses and Sediment Fluxes on the Alaskan Beaufort Sea Shelf: A Numerical Modeling Study)hydrodynamic and sediment transport conditions on the continental shelf. To analyze this, we are using a coupled hydrodynamic - sediment transport numerical3 KB (280 words) - 08:58, 17 March 2023
- 2024 CSDMS meeting-048 (section The Great Flood of 1927: Comparative Analysis of Historical and Current Sediment Trends)in substantial change in the sediment load of the Mississippi River. In this study, we compiled historical water and sediment data from ~ 1851 through 19294 KB (260 words) - 10:17, 25 March 2024
- 2023 CSDMS meeting-111 (section Testing the Influence of Sediment Cover on Channel Steepness and Erosion Rates in Layered Rocks with the SPACE Model)and lower than predicted in hard rocks. Sediment cover also exerts a strong control on erosion rates. Sediment cover preferentially accumulates over soft4 KB (383 words) - 08:02, 1 April 2023
- further changes when computations include reduction in sediment settling velocity due to offshore sediment fining, based on field observations. These profile4 KB (360 words) - 10:38, 5 May 2022
- geometries in response to changing water and sediment inputs, base level and the transport of this sediment through the fluvial system. In this study, we3 KB (312 words) - 14:38, 30 March 2023
- cold river water starts running, slowing the sediment bed from thawing. This would imply a decoupling of sediment transport from water discharge, at least3 KB (414 words) - 11:24, 1 April 2024
- fluvial and marine sediment transport via differential equations. The modular code includes components to deal with sea level changes, sediment compaction, local3 KB (159 words) - 17:32, 27 May 2019
- 2023 CSDMS meeting-043 (section A coupled benthic-pelagic biogeochemical model for estimating sediment-water exchange of particulates and solutes: sensitivity tests and application to the northern Gulf of Mexico)Boulder Boulder Colorado, United States. Julia.Moriarty@colorado.edu The sediment bed and the water column are tightly coupled in shallow water systems including5 KB (412 words) - 13:36, 8 March 2023
- 2023 CSDMS meeting-096 (section Representing fluxes within upper Galveston Bay using ROMS (Regional Ocean Modeling System): Initial efforts toward a coupled hydrological / oceanic / sediment transport model)flooding mobilized thick layers of sediment, including contaminated sediment from the Buffalo Bayou shipping channel. Sediment core data taken after the storm5 KB (467 words) - 08:30, 28 March 2023
- 2022 CSDMS meeting-027 (section Spatial Trends and Drivers of Bedload and Suspended Sediment Fluxes in Global Rivers)can very well predict the distribution of water discharge and suspended sediment and well predict bedload. Bedload predictions’ sensitivity to river slope4 KB (280 words) - 13:01, 31 January 2022
- algorithm for storage-cell inundation modeling. Adams, Jordan Plume Hypopycnal sediment plume Hutton, Eric RAFEM A.k.a. RAFEM River Avulsion and Floodplain Evolution2 KB (193 words) - 10:01, 16 February 2023
- Stream discharge is often used to drive sediment transport models across channel networks. Because sediment transport is nonlinear, discharge arising3 KB (312 words) - 16:10, 13 April 2022
- 2023 CSDMS meeting-102 (section The Impact of Streambed Mobilization on Fine Sediment and Organic Carbon Hysteresis in Mountain Rivers)concentrations, which can result in distinct hysteresis patterns of suspended sediment (SS), particulate organic carbon (POC), and dissolved organic carbon (DOC)6 KB (456 words) - 13:15, 2 April 2023
- 2024 CSDMS meeting-052 (section Complex Patterns of Sediment Erosion and Deposition under Sea-Level Variations Change: Insights from a Coupled Stratigraphic Experiment and Moving Boundary Modelling Approach for Fluvio-Deltaic Evolution.)an experimental run with oscillating sea level conditions and constant sediment supply. We found that the dynamics of the fluvial surface play an important5 KB (378 words) - 09:05, 1 April 2024
- 2024 CSDMS meeting-093 (section Emergent dynamics of soil production and sediment transport revealed using Agent-Based Models of biological agents)opportunity is in the simulation of biologically driven soil production and sediment transport. Biological systems exhibit some of the most compelling examples5 KB (450 words) - 17:08, 1 April 2024
- Atmosphere Wave Sediment Transport modeling system (COAWST), which includes ocean (ROMS), atmosphere (WRF), surface-wave (SWAN, WAVEWATCHIII), sediment (CSTMS)6 KB (440 words) - 16:34, 18 April 2022
- References Cross Shore Sediment Flux Add references Citations View all Publications per year View all44 bytes (15 words) - 13:04, 20 December 2019
- References River Network Bed-Material Sediment Add references Citations View all Publications per year View all44 bytes (16 words) - 13:36, 20 December 2019
- spatially, distributed erosion models are validated to discharge and sediment yield at catchment outlets. Spatial information on erosion and deposition rates3 KB (254 words) - 14:04, 28 May 2019
- network-scale sediment (dis)connectivity and its response to anthropic pressures provides a foundation understanding of river processes and sediment dynamics3 KB (318 words) - 09:52, 22 May 2022
- empirical sediment transport formulas to quantify spatiotemporal sediment (dis)connectivity in river networks. The D-CASCADE framework describes sediment connectivity1 KB (183 words) - 10:53, 5 May 2022
- naturally occurring arsenic. The arsenic likely derives from the pyrite-rich sediment of the Ganges basin, however, the cause and timing of mobilization of the4 KB (302 words) - 15:23, 28 May 2019
- change dramatically, where the time dimension is extremely important, where sediment fluxes are very large, where flotsam is trapped, and where numerical/physical3 KB (329 words) - 17:59, 4 April 2019
- conditions for adjoining hillslopes and respond to delivery of hillslope-derived sediment. But what happens when canyon walls deliver boulders that are too large3 KB (314 words) - 13:37, 21 March 2019
- times, we see those sediment deposits shift in size and location, we infer that there may also be physical abrasion from sediment impacts on the scalloped3 KB (308 words) - 15:00, 20 June 2023
- a depth-averaged hydrodynamic model to assess the impact of transported sediment deposition, erosion and trapping and binding in mound development. Numerical3 KB (287 words) - 11:49, 2 April 2018
- Nicola Kettner, Albert Hicks, Murray Vandergoes, Marcus Modelling suspended sediment loads: Insight into the past and future of the Waipaoa catchment, North11 KB (405 words) - 08:02, 20 August 2018
- Mountain Basin Sediment Transfer Georgie Bennett University of Exeter, United Kingdom Bennett@exeter.ac.uk G.L. Bennett@exeter.ac.uk Abstract Sediment production4 KB (550 words) - 09:49, 22 May 2022
- Lab-0026 (section Linking Landlab Components and Creating Sediment Pulses in NetworkSedimentTransporter)the NetworkSedimentTransporter with pulses of sediment to understand the impact of landscape disturbance on sediment yield: We evaluate sediment delivery5 KB (535 words) - 13:27, 14 July 2022
- 2023 CSDMS meeting-033 (section The Impact of Tropical Cyclones on Streamflow and Sediment Dynamics in Large United States Rivers)events are known to cause increased suspended sediment flux and discharge in nearby rivers, thus altering sediment dynamics in short time periods. This relationship3 KB (246 words) - 13:24, 14 February 2023
- (combination of cohesive and non-cohesive) sediment; and biodiffusive mixing of bed sediment. Additionally, changes to the sediment bed layering scheme were made that4 KB (365 words) - 15:07, 20 June 2023
- Tidal inlets are crucial land-forms that control the exchange of water and sediment between the open sea and the back-barrier basin. Despite the well accepted3 KB (378 words) - 19:35, 31 March 2019
- mangroves enhances estuary-scale sediment trapping due to altered sedimentation patterns. Only reductions in upstream sediment supply can limit estuarine muddification4 KB (282 words) - 12:24, 12 May 2023
- 2024 CSDMS meeting-058 (section Using a new fundamental equation of sediment creep to model coastal breaching and landsliding)Paris , France. Sediment creep is ubiquitous and precedes failure (e.g. landslides) in most landscapes. Accurate modeling of sediment creep is therefore6 KB (630 words) - 09:03, 26 February 2024
- 2024 CSDMS meeting-101 (section Coupled Hydrodynamic-Sediment Transport Model in Galveston Bay during Hurricane Harvey)bottom sediment input parameters are derived from the Texas Sediment Geodatabase (TxSed), which includes a comprehensive inventory of sediment properties5 KB (395 words) - 20:35, 31 March 2024
- flux through a fluvial system, and this is often under the assumption that sediment grain-size distribution on the bed remains static over time. However, recent3 KB (307 words) - 09:08, 13 May 2022
- process-based model for aeolian sediment transport and spatiotemporal varying sediment availability: AN AEOLIAN SEDIMENT AVAILABILITY MODEL. Journal of44 bytes (45 words) - 12:53, 20 December 2019
- Lab-0005 (section Sediment Supply to the Global Ocean)io/help-desk. Download associated file: SedimentSupplyModeling02_2013.ppt Learn more about HydroTrend and its approach to sediment supply modeling from this presentation5 KB (628 words) - 14:12, 14 April 2022
- of model validation against runoff and sediment data from a field site and a sensitivity analysis on how sediment flux and landform development respond3 KB (368 words) - 19:57, 31 March 2024
- watershed of over 3.2 million square kilometers. The continental flux of water, sediment, and nutrients passes through the state of Louisiana in the last stretch4 KB (346 words) - 02:28, 17 March 2024
- Geography, and Humans Battle for Dominance over the Delivery of Fluvial Sediment to the Coastal Ocean. The Journal of Geology, 115, 1–19. 10.1086/50924644 bytes (45 words) - 14:04, 20 December 2019
- findings hint at the importance of abrasion and sediment heterogeneity in the morphodynamics of sediment pulse transport in river networks. A new modeling4 KB (464 words) - 15:07, 20 June 2023
- Edit registration Pay registration (if you haven't already) Log in (or create account for non-CSDMS members) Forgot username? Search or email:CSDMSweb@colorado1 KB (44 words) - 09:34, 14 March 2023
- tremendous amounts of sediment (sand, silt and clay) from its steep Himalayan hinterland. We ask: how does this amount of sediment change with a changing6 KB (732 words) - 14:19, 14 April 2022
- salinity, temperature and sediment, free surface flow, wave-current interaction, wind forcing, precipitation and evaporation, sediment sorting, fluid mud, morphological5 KB (3 words) - 20:15, 16 September 2020
- different processes could be compared, as has recently been done using a sediment flux budget approach. To explore this question, we analyze Landsat-derived5 KB (358 words) - 23:25, 17 April 2022
- lacustrine and marine basins bear archives of corresponding changes in sediment accumulation. Yet given the scale that the global climate exerts on geomorphological3 KB (365 words) - 08:47, 11 May 2022
- climate-driven hydrological transport model that simulates discharge and sediment load leaving a river system. Computers & Geosciences, 34, 1170–118344 bytes (45 words) - 13:21, 20 December 2019
- 2024 CSDMS meeting-114 (section Modeling the effects of bed-sediment entrainment on the dynamics and runout of outburst floods and emergent debris flows with the granular-fluid model D-Claw.)floods and debris flows often incorporate large volumes of erodible bed sediment along their runout path. Although this phenomenon is widely recognized3 KB (300 words) - 09:50, 3 April 2024
- to learn how these apply to numerical modeling, landscape evolution, and sediment flux. Although no Python skills are required to run the notebook, those4 KB (458 words) - 13:24, 14 July 2022
- salinization hazards associated with sea-level rise, storm surges, dwindling sediment supplies, and land subsidence. One of the greatest hurdles to hazard prediction4 KB (310 words) - 10:53, 25 March 2024
- boat-wake generated waves on lakebed sediment? Are large wakeboarding waves (up to 0.5 m in height) driving significant sediment resuspension or transport? Using3 KB (263 words) - 12:56, 23 March 2023
- P.; McArdell, B. W.; Burlando, P.; 2014. A probabilistic sediment cascade model of sediment transfer in the Illgraben. Water Resources Research, 50, 1225–124444 bytes (12 words) - 10:25, 4 February 2022
- which brings about the delivery of terrestrial sediment, and waves, which redistribute the input sediment across the coastline. Given that there are many3 KB (274 words) - 16:21, 25 May 2023
- preserved environmental signals to erosional and transport processes within the sediment generation portion of landscapes is vital in constraining uncertainties3 KB (298 words) - 09:57, 27 March 2024
- flooding with sediment-rich water. As water levels increase, the inundation depth and duration also increase resulting in more sediment deposition. This3 KB (326 words) - 15:44, 26 May 2023
- differential geometry, scaling theory, sediment plumes, coastal dynamics, efficient computer algorithms and source-to-sink sediment transport. Scott received his50 KB (370 words) - 15:44, 23 January 2024
- in 2013, WBMsed included a spatially and temporally explicit suspended sediment flux module, developed within the WBMplus (FrAMES) hydrological framework2 KB (156 words) - 12:56, 28 May 2019
- 2019 CSDMS meeting-117 (section Geospatial prediction of subsurface wood-bearing sediments, Northern Gulf of Mexico)the location of buried ancient forests offshore Mississippi. Subsurface sediment cores containing evidence of ancient forests (wood debris) are used as3 KB (201 words) - 15:43, 1 April 2019
- and sediment transport model Extended model description Xbeach is a two-dimensional model for wave propagation, long waves and mean flow, sediment transport5 KB (3 words) - 20:18, 16 September 2020
- Ward, D. J.; Berlin, M. M.; Anderson, R. S.; 2011. Sediment dynamics below retreating cliffs: SEDIMENT DYNAMICS BELOW RETREATING CLIFFS. Earth Surface Processes44 bytes (12 words) - 13:23, 20 December 2019
- the effects of seagrass bed geometry on wave attenuation and suspended sediment transport. Estuaries and Coasts, 30, 296–310. 10.1007/BF02700172 (View/edit44 bytes (45 words) - 13:29, 20 December 2019
- Potential of Sediment Diversions under Various External Forcings Andrew Moodie University of Texas, United States amoodie@utexas.edu Abstract Sediment diversions2 KB (282 words) - 09:00, 22 May 2022
- water runoff rapidly erodes sediment on steep slopes. Due to the complex interactions between runoff generation, sediment transport, and post-fire debris-flow2 KB (276 words) - 09:54, 22 May 2022
- Townsend, Dominique Identifying sediment transport pathways on a heavily managed and chronically eroding, mixed sediment beach Undzis, Brianna Variability3 KB (67 words) - 08:54, 13 June 2023
- and flow-driven sediment transport mechanisms in postwildfire environments and implications for recovery time scales: POSTWILDFIRE SEDIMENT TRANSPORT. Journal44 bytes (12 words) - 13:43, 20 December 2019
- simulates tides, surges (hurricanes), wind waves, swells, sand/mud/organic sediment, stratigraphy, and vegetation in a numerically-efficient way. The model2 KB (187 words) - 10:49, 21 January 2019
- Diagenesis and Evidence from the Rocks abstract Bjarte Hannisdal Organism-sediment interactions: processes, modeling strategies, and challenges abstract WG14 KB (18 words) - 10:30, 23 August 2018
- playing a relevant role in river ecology. By interacting with the flow and sediment, the instream large wood (i.e., downed trees, trunks, root wads and branches)3 KB (314 words) - 11:31, 12 June 2023
- alluvial rivers is learning to interpret the language of the grains of sediment and to decode the responses they record. Sand-bed river long-profile evolution4 KB (426 words) - 17:02, 31 March 2024
- to simulate Holocene sediment dynamics of the Humber Estuary during periods of sea-level change and variations in catchment sediment supply. The Science44 bytes (45 words) - 13:01, 20 December 2019
- Wildfires modify sediment inputs to streams by removing vegetation and encouraging overland flow. Unfortunately our ability to calculate sediment delivery from8 KB (1,148 words) - 15:07, 20 June 2023
- States benjamin.campforts@colorado.edu Abstract Landslides mobilize tons of sediment in the blink of an eye. From an engineering perspective, one typically2 KB (186 words) - 12:48, 30 November 2021
- Duke University Durham North Carolina, United States. abmurray@duke.edu Sediment transport is a universal phenomenon responsible for the self-organization4 KB (326 words) - 18:06, 28 March 2023
- suggest that, while erosion rates may be affected by the availability of sediment from up-drift sources, wave patterns play an important, and maybe dominant3 KB (235 words) - 08:09, 16 May 2019
- Thomas Fire in southern California in 2017. Soil water content maps and sediment fluxes produced by the Distributed Hydrology Soil Vegetation Model (DHSVM)3 KB (292 words) - 12:03, 1 April 2019
- Engineering two-dimensional (CHRE2D) model, a two-dimensional hydrodynamic and sediment transport model, was adapted for surface flow routing. The CHRE2D model3 KB (294 words) - 06:25, 21 May 2018
- reorganization over middle North America after the WIS and the eastward-shifting sediment flux to the Gulf of Mexico during the Cenozoic.3 KB (262 words) - 22:14, 1 April 2019
- and applications of modeling tools for river channel evolution, including sediment supply and transport. The initiative supports applications in basic and14 KB (806 words) - 15:47, 23 January 2024
- Syvitski, J.P.M. 2008. Late Holocene dispersal and accumulation of terrigenous sediment on Poverty Shelf, New Zealand. Basin Research, 21, 253–267. 10.1111/j.1365-211744 bytes (45 words) - 13:45, 20 December 2019
- (storm erosion and sediment redistribution, dune growth, sea-level rise, shoreface and shoreline change, and gradients in alongshore sediment flux) and the5 KB (551 words) - 11:22, 2 April 2024
- watershed scale. Lammers, Roderick River Network Bed-Material Sediment Bed-material sediment transport and storage dynamics on river networks. Czuba, Jonathan299 bytes (105 words) - 10:25, 3 April 2019
- 2003 Model overview 25 Hoogendoorn, R.M.; 2006. The impact of changes in sediment supply and sea-level on fluvio-deltaic stratigraphy.. , , . (View/edit44 bytes (12 words) - 13:06, 20 December 2019
- Sedtrans05: An improved sediment-transport model for continental shelves and coastal waters with a new algorithm for cohesive sediments. Computers & Geosciences44 bytes (45 words) - 13:45, 20 December 2019
- Abstract Cheniers are ridges consisting of coarse-grained sediments, resting on top of muddy sediment. Along these muddy coastlines, cheniers provide shelter3 KB (236 words) - 15:09, 12 June 2023
- Brian Delft3D 3D hydrodynamic and sediment transport model Delft3D, Support Diffusion Diffusion of marine sediments due to waves, bioturbation Hutton,280 bytes (105 words) - 13:44, 27 March 2019
- energy projects. The events being examined are from the motion of seabed sediment in megaripples, sand waves, sand bars and sand sheets, but driven by normal2 KB (261 words) - 06:18, 18 April 2022
- fluids, and the flux (production, erosion, transport, and deposition) of sediment and solutes in landscapes and their sedimentary basins. CSDMS: Produces3 KB (318 words) - 12:57, 29 November 2022
- watershed scale. Lammers, Roderick River Network Bed-Material Sediment Bed-material sediment transport and storage dynamics on river networks. Czuba, Jonathan307 bytes (105 words) - 10:52, 21 March 2019
- playing a relevant role in river ecology. By interacting with the flow and sediment, the instream large wood (i.e., downed trees, trunks, root wads and branches)3 KB (288 words) - 14:42, 26 January 2023
- and mixing in landslide terrain Yanites, Brian Cross Shore Sediment Flux Cross-Shore Sediment Flux Equations Ortiz, Alejandra CryoGrid3 CryoGrid 3 is a1 KB (141 words) - 16:39, 25 August 2020
- in-stream hydraulic and sediment-chemical interactions. The result of this simulation is a time history of the runoff flow rate, sediment load, and nutrient10 KB (34 words) - 20:14, 16 September 2020
- Nicholson, Murray K.; Morehead, Mark D.; 1998. PLUME1.1: Deposition of sediment from a fluvial plume. Computers & Geosciences, 24, 159–171. 10.10144 bytes (12 words) - 13:32, 20 December 2019
- kilometers. Shoreline evolution results from gradients in wave-driven alongshore sediment transport. The model has been used to represent varying geology underlying6 KB (680 words) - 16:30, 14 April 2022
- 1D Sediment Transport (section 1D Sediment Transport)the Entrainment and 1D Transport of Suspended Sediment PPT+ exercises ZIP Sample Calculations for Sediment Load PPT + exercises ZIP Relations for Transport2 KB (143 words) - 16:00, 21 July 2010
- (NSE: 0.93, PBIAS: -7%, RSR: 0.27). The sediment transport sub-model provided precise estimates of Suspended Sediment Concentration for mid-discharge values3 KB (315 words) - 19:05, 31 March 2024
- morphological acceleration factor (morfac) applies a scalar multiplier to the sediment continuity equation, and is often applied in morphodynamic simulations5 KB (360 words) - 18:58, 29 May 2019
- precipitation in river formation and evolution. The effects of drainage area, sediment supply and precipitation are closely linked and disentangling them is a3 KB (307 words) - 09:09, 15 April 2022
- landscape of our planet with perhaps the most diverse and beautiful patterns of sediment displacement known to humanity. Capturing this diversity is important for3 KB (312 words) - 15:54, 3 February 2018
- dam removal on channel evolution and sediment delivery in a multiple dam setting. International Journal of Sediment Research, 34, 537–549. 10.1016/j.ijsrc44 bytes (46 words) - 10:40, 21 April 2020
- Willgoose, Garry; Svoray, Tal; Hancock, Greg; Sela, Shai; 2015. The effects of sediment transport, weathering, and aeolian mechanisms on soil evolution: Weathering44 bytes (45 words) - 13:25, 20 December 2019
- Chris; Voller, Vaughan R.; 2018. Control of Delta Avulsion by Downstream Sediment Sinks. Journal of Geophysical Research: Earth Surface, 123, 142–166. 1044 bytes (12 words) - 12:58, 20 December 2019
- Labs WMT Ganges Sediment Supply (section Modeling the Future Sediment Flux of the Ganges River with HydroTrend)tremendous amounts of sediment (sand, silt and clay) from its steep Himalayan hinterland. We ask: how does this amount of sediment change with a changing3 KB (465 words) - 14:31, 26 March 2020
- Storm-driven delivery of sediment to the continental slope: Numerical modeling for the northern Gulf of Mexico (section Storm-driven delivery of sediment to the continental slope: Numerical modeling for the northern Gulf of Mexico)linked to sediment-failure models. For sediment delivery to the shelf by riverine plumes and for sediment resuspension by energetic waves, sediment transport2 KB (257 words) - 09:13, 1 June 2015
- incorporate vegetation implicitly, using percent cover or plant height to affect sediment accretion and erosion, rather than explicitly simulating ecological processes6 KB (349 words) - 07:55, 1 April 2024
- Evolution of Coastal Foredunes Durán Vinent, Orencio Cross Shore Sediment Flux Cross-Shore Sediment Flux Equations Ortiz, Alejandra DELTA Simulates circulation281 bytes (105 words) - 12:19, 27 March 2019
- stacking patterns, flow processes and sedimentation from outcrops of ancient sediment transport systems. These advancements created opportunities for field geologists3 KB (344 words) - 15:11, 20 June 2023
- porosity models for generated materials, and 3D and animated mappings of the sediment facies. The clinic will go through a typical setup and run, with some variations3 KB (324 words) - 15:11, 20 June 2023
- 1D Sediment Transport Morphodynamics with applications to Rivers and Turbidity Currents (section 1D Sediment Transport Morphodynamics with applications to Rivers and Turbidity Currents)Entrainment and 1D Transport of Suspended Sediment Spreadsheet for calculating the Rouse-Vanoni profile of suspended sediment (Source) Tool for calculating the6 KB (738 words) - 09:06, 13 October 2019
- use the Hylands Landlab component to test landslide, hillslope, and river sediment interactions, and probe landscape metrics like hilltop concavity, drainage2 KB (174 words) - 16:35, 10 February 2023
- evolution model to simulate the impact of landslides and landslide-derived sediment on landscape evolution. Geoscientific Model Development, 13, 3863–388644 bytes (4 words) - 18:40, 30 August 2022
- ; 2017. The SPACE 1.0 model: a Landlab component for 2-D calculation of sediment transport, bedrock erosion, and landscape evolution. Geoscientific Model44 bytes (12 words) - 13:40, 20 December 2019
- CSDMS Marine Working Group and Carbonate FRG High Resolution Simulations of Sediment Transport by Turbidity Currents Eckart Meiburg University of California1 KB (88 words) - 15:11, 20 June 2023
- CSDMS 2014 annual meeting poster Ehab Meselhe (section Sediment Dynamics of the Lower Mississippi River: Understanding Sediment Availability and Delivery for Land Building)worldwide. This presentation discusses the sediment dynamics of the Lower Mississippi River, specifically the sediment availability, temporal and spatial variability3 KB (307 words) - 11:30, 18 April 2014
- annual sediment load for this river system. Question 1d To compare the mean annual load to other river systems you will need to calculate its sediment yield6 KB (948 words) - 11:23, 15 February 2013
- CSDMS 2011 annual meeting poster Courtney Harris (section Using a three-dimensional coupled sediment – hydrodynamic model to explore feedbacks between erodibility and sediment trapping in a partially mixed estuary, York River, VA)on turbidity and sediment properties in a muddy estuary. Hydrodynamics, settling velocity, and erodibility influence suspended sediment concentrations.3 KB (322 words) - 14:34, 14 November 2011
- other river systems you will need to calculate its sediment yield. Sediment Yield is defined as sediment load normalized for the river drainage area; so it7 KB (1,173 words) - 15:46, 26 March 2020
- updrift over-nourishment to maintain beach width. This enhances alongshore sediment availability, thus providing higher marginal benefits for downdrift communities5 KB (419 words) - 15:40, 1 April 2019
- "locations":[{"text":"\u003Cb\u003E\u003Ca href=\"/wiki/User:Sediment\" title=\"User:Sediment\"\u003EUser:Sediment\u003C/a\u003E\u003C/b\u003E\u003Chr /\u003E\u003Cp\u003EDouglas736 bytes (22 words) - 11:44, 2 August 2013
- models in assessing sediment accumulation, transport, and erosion in estuaries on different time and space Depetris, Pedro Sediment processes in tidal river2 KB (21 words) - 12:03, 16 October 2019
- ref. 0 Yanites, Brian J.; 2018. The Dynamics of Channel Slope, Width, and Sediment in Actively Eroding Bedrock River Systems. Journal of Geophysical Research:44 bytes (12 words) - 13:29, 20 December 2019
- Joseph; 2017. SedFoam: A multi-dimensional Eulerian two-phase model for sediment transport and its application to momentary bed failure. Coastal Engineering44 bytes (47 words) - 13:44, 20 December 2019
- Approach to Land Surface Modeling of Suspended Sediment in the Colorado Front Range: MULTI-PHYSICS SEDIMENT MODELING. Journal of Advances in Modeling Earth44 bytes (45 words) - 13:23, 20 December 2019
- wave-driven fine sediment transport through 3D turbulence resolving simulations – implications to offshore delivery of fine sediment Tom Hsu University4 KB (490 words) - 15:47, 8 August 2018
- CSDMS 2015 annual meeting poster AngelMonsalve (section Formation and establishment of forced sediment patches in high gradient channels)theoretical modeling have shown that the presence of sediment patches affects the dynamic of the sediment fluxes, for example patches generate large spatial4 KB (467 words) - 09:44, 1 June 2015
- CSDMS 2016 annual meeting poster DanielleTarpley (section Consolidation and Stratification within a Muddy, Partially Mixed Estuary: A Comparison between Idealized and Realistic Models for Sediment Transport in the York River Estuary, Virginia)nature, estimating sediment fluxes for mud is a complex problem that can be addressed using numerical models such as the Community Sediment Transport Modeling4 KB (505 words) - 18:06, 1 June 2016
- RNMI (section Developing and applying modeling tools for river channel evolution, including sediment supply and transport.)About Join About Join About Join About Join Jobs Ready to make your next career move or eager to find a new colleague? Search here for new job opportunities1 KB (96 words) - 21:33, 1 June 2020
- CSDMS 2016 annual meeting poster CourtneyHarris (section Delivery of sediment to the continental slope via plume delivery and storm resuspension: Numerical modeling for the northern Gulf of Mexico)with delivery of suspended sediment to the continental slope. Accounting for sediment delivery by riverine plumes and for sediment resuspension by energetic3 KB (353 words) - 16:50, 1 June 2016
- CSDMS 2015 annual meeting poster QiLi (section Exploring the imprint of tectonics on sediment output from a small mountain watershed)across a mountain belt, leading to non-steady sediment flux delivery to fluvial transport systems. This sediment flux record may eventually be recorded in3 KB (345 words) - 09:28, 1 June 2015
- CSDMS 2016 annual meeting poster ShawnCarter (section Effects of the Anthropogenic Landscape on Global Scale Suspended Sediment Flux)effects on the erosion and transport of sediment from the continental surface to the ocean. Suspended sediment flux can be increased where soils are exposed3 KB (357 words) - 14:28, 1 June 2016
- Look at the difference in sediment distribution for the two sediment types delivered by the river. Which of the two sediment types do you expect to travel10 KB (1,498 words) - 14:37, 19 May 2016
- Gary Sand Ripples sediment, bed load, ripples McBride, Earle Sediment Dam Removal (front view) dam, sediment Parker, Gary Sediment Dam Removal (top view)529 bytes (0 words) - 15:14, 4 November 2016
- CSDMS 2014 annual meeting poster Tara Kniskern (section Advances in sediment transport modeling offshore of a fluvial source)of large river sources. However, all of these sediment transport model studies have represented sediment as non-reactive tracers, resulting in a disconnection3 KB (422 words) - 10:58, 18 April 2014
- CSDMS 2014 annual meeting poster Kimberly Rogers (section Simplifying the Ganges-Brahmaputra sediment dispersal system using a coupled model-field approach)of sediment from their basins in the Himalaya Mountains to the delta surface each year during the five months of the Asian summer monsoon. Sediment and3 KB (419 words) - 15:24, 9 June 2014
- river discharge and sediment load time series as a function of climate trends and basin morphology and has been used to study the sediment flux to a basin31 KB (1,490 words) - 11:20, 24 January 2024
- fluids, and the flux (production, erosion, transport, and deposition) of sediment and solutes in landscapes and their sedimentary basins. History The CSDMS2 KB (0 words) - 09:22, 24 July 2011
- Cited Peckham, Scott D.; 2003. Fluvial landscape models and catchment-scale sediment transport. Global and Planetary Change, 39, 31–51. 10.1016/S0921-8181(03)00014-644 bytes (12 words) - 13:10, 20 December 2019
- M.; Pratson, Lincoln F.; 2001. Exponential approximations to compacted sediment porosity profiles. Computers & Geosciences, 27, 691–700. 10.1016/S44 bytes (12 words) - 13:03, 20 December 2019
- Balachandra, S.; 2015. A Turbulence-resolving Numerical Model for Fine Sediment Transport in the Bottom Boundary Layer — FineSed3D (Version 1.0). . (View/edit44 bytes (45 words) - 13:12, 20 December 2019
- CSDMS 2016 annual meeting poster AnjaliFernandes (section A Simple Land-building Model for Suspended Sediment in Coastal Diversions)land construction at diversions. In this model, sediment used for land-building is suspended sediment sourced from the upper fraction of the river’s water3 KB (370 words) - 16:25, 1 June 2016
- ENHANCE AEOLIAN SEDIMENT TRANSPORT AT THE SAND MOTOR MEGA NOURISHMENT. Coastal Engineering Proceedings, , 74. 10.9753/icce.v36.sediment.74 (View/edit entry)44 bytes (45 words) - 13:06, 20 December 2019
- CSDMS 2016 annual meeting poster MorganeHoussais (section Toward a unifying constitutive relation for sediment transport across environments)with its own sediment transport law: e.g., soil creep, landslides and debris flows, and river bed-load and suspended-sediment transport. Sediment transport3 KB (303 words) - 15:55, 1 June 2016
- CSDMS 2015 annual meeting poster ShawnCarter (section Quantifying the Effects of Land Use Dynamics on Global Scale Fluvial Suspended Sediment Flux)lack of sediment gauges and measured observations. Empirical models have attempted to overcome this deficiency by modeling fluvial suspended sediment as a2 KB (229 words) - 09:18, 29 May 2015
- The effect of tides and storms on the sediment transport across a Dutch barrier island: HYDRODYNAMICS AND SEDIMENT TRANSPORT DURING INUNDATION. Earth Surface44 bytes (45 words) - 14:08, 20 December 2019
- CSDMS 2013 annual meeting poster Mark Schmeeckle (section Turbulence- and particle-resolving numerical modeling of sediment transport)schmeeckle@asu.edu Abstract: The motion of sediment in water is caused by fluid pressure gradient forces, primarily drag, on sediment grains. Turbulence-resolving experiments3 KB (377 words) - 09:12, 2 April 2013
- CSDMS 2016 annual meeting poster HuiTang (section GeoClawSed: A Model with Finite Volume Method for Tsunami Sediment Transport)tsunami flows. For the sediment-transport part, the advection-diffusion equation is employed to calculate the distribution of sediment in the water column3 KB (306 words) - 17:47, 1 June 2016
- and the channel/floodplain exchange rate of sediment is extremely useful for quantifying long-term sediment transport dynamics. This data is expensive and3 KB (401 words) - 12:11, 6 August 2018
- CSDMS 2014 annual meeting poster Harrison Gray (section An iterative bleach-and-mix model for the change in luminescence signal with cumulative sediment transport.)as the majority of the sediment reaches a homogeneously bleached state. Introducing a sediment flux into and out of the sediment package alters the geometry3 KB (356 words) - 10:01, 18 April 2014
- CSDMS 2016 annual meeting poster SarahSchanz (section Modeling the effects of in-stream sediment retention on rates of river incision and strath terrace formation)of changes in sediment retention on river incision rates over 100,000s of years, and contrast it with the effects of changes to sediment supply and water3 KB (449 words) - 17:52, 1 June 2016
- CSDMS 2014 annual meeting poster Angel Monsalve (section Including sediment patches in sediment transport predictions in steep mountain channels)motion and the remaining shear stress acts over patches of more mobile sediment. The shear stress on mobile patches has a distribution of values that depend4 KB (498 words) - 11:33, 18 April 2014
- incorporate both sediment transport and biogeochemical processes are rare. The scientific community frequently utilizes hydrodynamic-sediment transport numerical3 KB (342 words) - 11:18, 6 August 2018
- CSDMS 2016 annual meeting poster ColinPhillips (section Filtering the hydrograph through sediment transport and channel geometry)variable hydrograph on sediment transport over long timescales. In tandem, we explore the role of hydrograph unsteadiness on bed load sediment transport through4 KB (444 words) - 18:22, 1 June 2016
- space resolutions communicate with one another to deliver multi grain sized sediment load across a continental margin. Version 2.0 introduces a series of new5 KB (169 words) - 20:18, 16 September 2020
- streamflow and sediment data of Canada Modeled Suspended Sediment in Global Rivers River discharge Modeled Modeled Global Suspended Sediment Flux NRLP India998 bytes (59 words) - 09:24, 19 June 2012
- Coupled Ocean-Atmosphere-Wave-Sediment Transport (COAWST) numerical model was used. Model results showed that marsh-estuarine sediment fluxes varied spatially2 KB (179 words) - 09:08, 2 July 2020
- 2021 CSDMS meeting-068 (section Coupling glacial and fluvial erosion models to simulate sediment dynamics)store glacially-derived sediment within those valleys. A lateral erosion factor in the fluvial model re-incorporates this sediment, which is transported2 KB (188 words) - 19:15, 17 May 2021
- CSDMS 2015 annual meeting poster ZhenCheng (section A Turbulence-resolving Eulerain Two-Phase Model for Sediment Transport Applications)turbulence-sediment interaction and inter-granular interactions. In the past decade, significant research efforts have been made in modeling sediment transport5 KB (685 words) - 09:22, 29 May 2015
- CSDMS 2011 annual meeting poster Alex Burpee (section Relationships between sediment caliber and delta shoreline geometry and stratigraphy)turbulent transport and deposition of sediment in a standing body of water devoid of tides and waves shows that sediment caliber plays a major role in determining2 KB (286 words) - 10:31, 13 November 2011
- open channel flow on a simulated salmon redd bed made of coarse granular sediment, using non-toxic index-matched fluid and stereo Particle Image Velocimetry3 KB (239 words) - 17:59, 31 March 2023
- CSDMS 2015 annual meeting poster LukeMcGuire (section High resolution modeling of overland flow and sediment transport following wildfire)between runoff, sediment transport, and debris flow initiation, we developed a numerical model that couples overland flow with sediment transport processes3 KB (343 words) - 09:36, 1 June 2015
- CSDMS 2016 annual meeting poster ZheyuZhou (section Large-Eddy Simulation of Wave-breaking Induced Turbulent Coherent Structures and Suspended Sediment Transport on a Barred Beach)upward-directed pore pressure gradient. By allowing sediment to be suspended from the bar crest, intermittent high sediment suspension events and their correlation3 KB (321 words) - 16:22, 1 June 2016
- CSDMS 2011 annual meeting poster Ilgar Safak (section Modeling sediment transport processes and residence times in the shallow coastal bay complex of the Virginia Coast Reserve)complexes that lack a significant fluvial source of freshwater and sediment. Sediment redistribution within the bays in response to storms and sea-level3 KB (350 words) - 21:08, 13 November 2011
- than the alongshore sediment transport capacity of waves removing sediment from the mouth. Fluvial dominance occurs when fluvial sediment input exceeds the3 KB (460 words) - 10:57, 28 March 2013
- CSDMS 2015 annual meeting poster DanielleTarpley (section Including fine-grained sediment processes within numerical representations of a partially-mixed estuary, the York River, Virginia)conditions, physical forcing, and sediment characteristics are being used to examine spatial and temporal changes in sediment dynamics in the York River estuary4 KB (467 words) - 10:18, 1 June 2015
- CSDMS 2016 annual meeting poster NickRichmond (section Investigating Sediment Mobilization in Dammed Fluvial Systems Using Smoothed Particle Hydrodynamics)States. Peter.koons@maine.edu Abstract: When dams are removed, the resulting sediment mobilization alters downstream fluvial dynamics and disrupts critical zone2 KB (255 words) - 16:04, 1 June 2016
- bedrock block size, bed sediment, and discharge variability Lipp, Alex (He/Him) Generating geochemical maps from river sediment samples: an inverse modelling983 bytes (14 words) - 07:02, 14 March 2022
- CSDMS 2015 annual meeting poster TongWan (section Bedload sediment modeling at a global scale based on the WBMsed model)United States. 200px Abstract: River sediment dynamics is a key driver in fluvial and terrestrial research. Sediment indicators are often used in determining2 KB (264 words) - 10:26, 1 June 2015
- CSDMS 2016 annual meeting poster TongWan (section Bedload sediment modeling at a global scale based on the WBMsed model)United States. 200px Abstract: River sediment dynamics is a key driver in fluvial and terrestrial research. Sediment indicators are often used in determining2 KB (267 words) - 17:07, 1 June 2016
- articulate the ideas that are the foundation for a holistic understanding of sediment dispersal from land origins to marine accumulation, and to explore the23 KB (245 words) - 12:05, 14 October 2019
- sea_bottom_sediment sea_bottom_sediment_clay sea_bottom_sediment_grain sea_bottom_sediment_layer sea_bottom_sediment_mud sea_bottom_sediment_sand sea_bottom_sediment_silt23 KB (2,954 words) - 16:13, 25 October 2019
- models developed to represent sediment transport have largely ignored geochemistry. Here, we couple the Community Sediment Transport Modeling System (CSTMS)2 KB (250 words) - 22:31, 13 August 2018
- CSDMS 2014 annual meeting poster Kevin Hanegan (section Tidal Modulated Flow and Sediment Flux through Wax Lake Delta Distributary Channels: Implications for Delta Development)simulate flow and sediment flux through delta distributary channels. The model was calibrated using existing measurements of velocity and sediment concentration3 KB (367 words) - 10:57, 29 May 2014
- 2020 CSDMS meeting-068 (section To slide or not to slide: Explicit integration of landslides and sediment dynamics in a landscape evolution model)landslide-derived sediment and (ii) lower the hillslope’s base level triggering further landsliding. Landslides in turn can choke river channels with sediment, thereby5 KB (374 words) - 09:52, 20 February 2020
- applied a hydrodynamic and sediment transport Delft3D model that included coupled effects of seagrass on flow, waves, and sediment resuspension in a shallow2 KB (177 words) - 16:39, 14 July 2020
- Interplay between spatially-explicit sediment sourcing, hierarchical river-network structure, and in-channel bed-material sediment transport and storage dynamics6 KB (3 words) - 16:16, 10 November 2020
- Additionally, a fraction of littoral sediment β can bypass the river mouth. This allows us study the effects of wave climate and sediment bypassing on channel orientation3 KB (338 words) - 11:47, 18 April 2014
- 2021 CSDMS meeting-091 (section Seasonality of wave, tide, and river-driven sediment fluxes and its impact on delta morphology)morphology reflects the 100-1000 year balance of wave, tidal, and river-driven sediment fluxes. Human-induced changes to these fluxes can also act on 100-10002 KB (194 words) - 11:53, 15 May 2021
- landslide-derived sediment and (ii) lower the hillslope’s base level triggering further landsliding. Landslides in turn can choke river channels with sediment, thereby3 KB (399 words) - 16:32, 14 July 2020
- Global circulation community, CCSM Global sediment flux Fluvial Sediment, Global Riverine Sediment, Sediment, Sediment Transport Kettner, Albert Global wave555 bytes (0 words) - 15:15, 4 November 2016
- collapsed bedrock block size, bed sediment, and discharge variability Lipp, Alex Generating geochemical maps from river sediment samples: an inverse modelling2 KB (68 words) - 10:35, 22 May 2022
- CSDMS 2014 annual meeting poster Ya Ping Wang (section Water and sediment discharge into the sea from Yangtze River: an improving measurement)environment and ecosystems are directly impacted by the freshwater and sediment discharged by the rivers. Yet, the conventional method to estimate the2 KB (193 words) - 12:19, 18 April 2014
- CSDMS 2014 annual meeting poster Sagy Cohen (section On the sensitivity of global suspended sediment modeling to dams)model is a global, spatially and temporally explicit riverine flux (water, sediment and nutrients) simulator. Among its many input datasets is a dams and reservoir2 KB (219 words) - 10:37, 14 October 2019
- Lancaster, Stephen T.; Hayes, Shannon K.; Grant, Gordon E.; 2001. Modeling sediment and wood storage and dynamics in small mountainous watersheds. In: (eds44 bytes (45 words) - 13:00, 20 December 2019
- human impacts Kettner, Albert Global sediment flux Fluvial Sediment, Sediment, Global Riverine Sediment, Sediment Transport Kettner, Albert Meandering556 bytes (0 words) - 15:13, 4 November 2016
- suspended sediment transport are directly simulated by a coupled large eddy simulation of the fluid and a distinct element method for every sediment grain2 KB (155 words) - 22:28, 13 August 2018
- CSDMS 2011 annual meeting poster Sagy Cohen (section Improved water discharge predictions in WBMsedv2.0, a Global riverine Sediment Flux model)temporally explicit global riverine model predicting suspended and bedload sediment fluxes based on the WBMplus water balance and transport model (part of3 KB (296 words) - 17:05, 11 November 2011
- CSDMS 2015 annual meeting poster StephanieHiggins (section Potential impacts of Indian Rivers Inter-links on sediment transport to the Ganges-Brahmaputra Delta)then used to investigate sediment transport changes that may result from the proposed canals. Preliminary results show that sediment loads to the delta will3 KB (317 words) - 14:38, 30 May 2015
- between flow, vegetation, and sediment Larsen, Laurel SRH-1D One-dimensional cross section based hydraulic and mobile-bed sediment transport model Greimann549 bytes (0 words) - 10:44, 15 June 2017
- turbulence-sediment interaction and inter-granular interactions. In the past decade, significant progresses have been made in modeling sediment transport2 KB (236 words) - 20:37, 6 August 2018
- Modeling System- Community Sediment Transport Modeling System (ROMS - CSTMS). This three-dimensional hydrodynamic-sediment transport numerical model accounted3 KB (393 words) - 11:45, 18 April 2014
- CSDMS 2014 annual meeting poster Jian Hua Gao (section Changes in water and sediment exchange between the Changjiang River and Poyang Lake under natural and anthropogenic conditions, China)longer supplied sediment to Poyang Lake. As a consequence, the sediment load of Changjiang River entering the sea increasingly exists of sediments from Lake3 KB (426 words) - 09:56, 18 April 2014
- CSDMS 2016 annual meeting poster JuliaMoriarty (section The Roles of Resuspension and Redistribution on Nutrient Cycling in the Northern Gulf of Mexico: Results From A Coupled Hydrodynamic-Sediment Transport – Biogeochemical Numerical Model)The coupled model includes hydrodynamic, sediment transport, and biogeochemical processes. To link the sediment transport and water column biogeochemical3 KB (393 words) - 17:34, 1 June 2016
- ref. 0 Mugford, Ruth; Dowdeswell, Julian; 2008. Numerical Modelling of Sediment Delivery from Tidewater Glaciers to the Marine Environment. , , . 10.17863/CAM44 bytes (45 words) - 13:44, 20 December 2019
- studied environmental particles such as low-density bubbles and high-density sediment. In this talk I will discuss recent work addressing these challenges with1 KB (160 words) - 15:11, 12 June 2023
- CSDMS 2011 annual meeting poster Jorge Trueba (section A model framework for fluvial-delta evolution that accounts for the accumulation of organic sediment)the evolution of the delta plain with the accumulation of organic-rich sediment. The model is able to explain the observed coupling between the accommodation/peat2 KB (212 words) - 23:26, 15 November 2011
- rivers locally changes flow hydraulics and can thereby alter patterns of sediment transport and erosion. While bedrock steps are thought to erode sometimes3 KB (300 words) - 15:40, 13 March 2023
- to strong scientific interest and human presence in the region, data on sediment, flow, water levels, and elevations have been collected for decades. Here4 KB (336 words) - 08:14, 1 April 2024
- climate and currents; CSTMS (VIMS) for sediment transport, WBMsed for river discharges and hurriSlip for sediment failures and gravity ignitions (U Colorado)3 KB (338 words) - 19:55, 5 August 2018
- morphology. When a sediment-laden channel enters slack water, it loses momentum and carrying capacity, dropping its sediment. As sediment accumulates, flow2 KB (290 words) - 15:10, 1 June 2016
- plumes in ecuadorian coast SURFZONE CURRENT DYNAMICS Sediment Plumes and Changing Climates Sediment Transport on the Inner Continental Shelf Amid Artificial235 bytes (489 words) - 12:44, 28 May 2013
- basin-scale sediment budgets using isotopic sediment fingerprints requires a sediment routing model that not only accounts for a range of sediment source terms27 KB (66 words) - 10:40, 26 February 2013
- study of the effects of sediment properties on deltaic processes and morphology Hsu, Tom Understanding wave-driven fine sediment transport through 3D turbulence17 KB (92 words) - 08:51, 9 August 2018
- 636 426 1365 2427 Sediment Transport Morphodynamics-AgDegNormGravMixSubPW c/c++ 434 599 1375 2408 SIGNUM MATLAB 388 963 1025 2376 Sediment Transport Morp43 KB (80 words) - 03:00, 13 October 2019
- CSDMS 2016 annual meeting poster LeslieHsu (section Solving data and model integration challenges with Communities of Practice: The Sediment Experimentalist Network (SEN) and the USGS Community for Data Integration (CDI))near-impossible process. Scientific communities of practice such as the Sediment Experimentalist Network (SEN) and the USGS Community for Data Integration2 KB (197 words) - 16:54, 1 June 2016
- CSDMS 2013 annual meeting poster Laura Alvarez (section Numerical modeling of turbulence and sediment transport in lateral recirculation zones along the Colorado River in Grand Canyon)two- and three-dimensional models are currently available to calculate sediment transport and channel change in rivers. These three-dimensional models4 KB (520 words) - 17:53, 14 October 2021