1 / 10

G. M. Cartwright, C. T. Friedrichs , and L. P. Sanford

IN SITU CHARACTERIZATION OF ESTUARINE SUSPENDED SEDIMENT IN THE PRESENCE OF MUDDY FLOCS AND PELLETS. G. M. Cartwright, C. T. Friedrichs , and L. P. Sanford. Management Implications of Fine Sediment Transport. Transport of pollutants Sediment supply to marshes

kaiya
Download Presentation

G. M. Cartwright, C. T. Friedrichs , and L. P. Sanford

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. IN SITU CHARACTERIZATION OF ESTUARINE SUSPENDED SEDIMENT IN THE PRESENCE OF MUDDY FLOCS AND PELLETS G. M. Cartwright, C. T. Friedrichs, and L. P. Sanford

  2. Management Implications of Fine Sediment Transport • Transport of pollutants • Sediment supply to marshes • Light limitation in SAV beds

  3. Wsα D λ Turbulence Fugate and Friedrichs(2003) Fecal Pellets Sand Flocculants Mud D ~ O(λ) Microflocs < 160 µm Macroflocs >160 µm Ws D~ 5 – 10 µm Ws< to <<0.1 mm/sec D= 63 – 500 µm Ws = 2.3–60 mm/s D~ 10s – 100s µm Ws Ws ~0.1–10 mm/s λ % Organic λ Settling Velocity Anderson (2001), Sanford et al (2005) Sherwood (2007) Taghon et al (1984), Wheatcroft et al (2005)

  4. STUDY SITE Claybank area on York River Chesapeake Bay, VA Micro tidal ( 0.7 to 1 meter) Secondary Channel ~ 5 meter depth Seabed > 75% mud

  5. CTD S2E LISST ADV Real-time Communication Cables RIPScam

  6. A B C D

  7. slack EBB slack Flood slack Ebb slack Flood slack

  8. Slack after Ebb Increasing Stress toward Ebb

  9. slack EBB slack Flood slack Ebb slack Flood slack

  10. Conclusions and Future Work • The LISST can be used to identify different suspended sediment populations • Peak grainsize or D84 during maximum stress is the dominant resilient grainsize • Peak grainsize or D50 during slack periods is the dominant flocculent size (larger will occur but at levels that are averaged out during burst averaging) • D50 during maximum stress represents the dominant minimum flocculent size • Calibrations, with the Total Suspended Solids broken into resilient and non resilient portions, needs to be done to convert volume concentration to mass concentration so the density of the dominant particles can be determined • Time averaged burst statistics can be used to determine the effective fall velocity of the sediment in suspension • Once the mass concentration of the dominant particles are identified further work can be done to calculate effective fall velocity of these size classes.

More Related