Galveston Bay: Environmental Restoration Opportunities Thomas E

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Presentation transcript:

Galveston Bay: Environmental Restoration Opportunities Thomas E Galveston Bay: Environmental Restoration Opportunities Thomas E. White, PhD, PE (Thomas.E.White@usace.army.mil, 409-766-3109) CSEC Workshop, Vicksburg, MS 19 April 2017 Build containment dikes with clay (Tom White) Use a variety of vegetation to stabilize dikes (Tosin Sekoni) Try many combinations of substrates and oyster castles (Tim Clarkin) Measure extent of “environmental deserts” created by mining oysters (Crawford/White/Maglio/ERDC) Collect project methods used to fill deep bay holes from Jacksonville, Mobile, and Philadelphia Districts (White/Maglio) How and where to stockpile sediment for later use (Coast of Texas)

Galveston Bay Placement Areas

Houston Ship Channel Deferred Environmental Restoration New-work material adjacent to Bayport Ship Channel (BSC) Flare and Houston Ship Channel (HSC) will be used to repair containment dikes at Atkinson Island beneficial use marsh cells M7/8/9 and M10. Meets authorized project commitments to create marsh in Galveston Bay Provides additional placement capacity for HSC maintenance dredged material Provides necessary O&M placement for the Bayport Ship Channel and Flare Contract was awarded 27 Sep 2016

Mud dikes Construction: Build a dike to protect a disposal area & make a new marsh Research Questions: 1. Under what conditions does the dike erode? 2. How does a sandy beach form (erosion? winnowing?) 3. Are there critical thresholds (tipping points) of the forcing functions? (storm duration, wave height) 4. What is the impact of storm surge? (duration & height)

R&D Opportunities (thesis and dissertation topics) Field 1. Monitor mud winnowing during beach nourishment (tides, waves, currents, grain size, elevation) Field 2. Monitor mud dike erosion (elevations, quantities, grain size, settlement, waves, currents, storm surge) Field 3. Test many oyster castle designs and substrates Field 4. Monitor water displacement from a large ship (mud-wave formation, vertical mixing, side-slope erosion) Computer 5. Dike erosion modeling (Kobayashi & Weitzner, 2015) Computer 6. Model salinity changes in a large shallow bay

R&D Opportunities (thesis and dissertation topics) Lab & Field 7. Measure marsh grass (Spartina) rates of sediment accumulation as a function of tide, waves, grain size, subsidence, sea level Lab & Field 8. Compare different methods of measuring sediment erodibility Lab & Field 9. Try out recipes and methods for flocculating mud “fluff” in bay holes

Proposed Oyster Demonstration Project Design and deploy ten structures at Atkinson Island Marsh Cell 10 Compare performance in erosion reduction and habitat formation Marsh Cell 10 PA 14

Typical Reef Materials GALVESTON BAY Reef Substrate LEVEE MARSH CELL Wave Attenuation Mean Sea Level BAY BOTTOM Limestone Crushed Concrete Crushed Stone Images from: geology.com

Reef Balls® Reef Ball® Manual Assembly Oyster Habitat LEVEE GALVESTON BAY Reef Ball® Breakwater LEVEE MARSH CELL Wave Attenuation Mean Sea Level BAY BOTTOM Reef Ball® Manual Assembly Oyster Habitat Images from: Reef Ball Foundation

Oyster Castles® Oyster Castle® Blocks Manual Assembly Oyster Habitat GALVESTON BAY Oyster Castle® Breakwater LEVEE MARSH CELL Wave Attenuation Mean Sea Level BAY BOTTOM Oyster Castle® Blocks Manual Assembly Oyster Habitat Images from: Allied Concrete Company Charleston Post and Courier Charleston Post and Courier

Oyster Boxes Fill Oyster Boxes Build Oyster Boxes Oyster Habitat GALVESTON BAY Oyster Castle® Oyster Box LEVEE MARSH CELL Wave Attenuation Mean Sea Level BAY BOTTOM Build Oyster Boxes with Oyster Castles® Fill Oyster Boxes with Substrate Material Oyster Habitat Images from: Allied Concrete Company geology.com Charleston Post and Courier