sediment dynamics, dredging, and ecosystem restoration
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Sediment Dynamics, Dredging, and Ecosystem Restoration. PIANC Navigation and the Environment New Orleans, LA October 28, 2009 Dr. Donald F. Hayes, PE (Mississippi), BCEE Endowed Professor of Civil Engineering Director, Institute for Coastal Ecology and Engineering. - PowerPoint PPT PresentationTRANSCRIPT
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Sediment Dynamics, Dredging, and Ecosystem Restoration
PIANC Navigation and the EnvironmentNew Orleans, LAOctober 28, 2009
Dr. Donald F. Hayes, PE (Mississippi), BCEEEndowed Professor of Civil Engineering
Director, Institute for Coastal Ecology and Engineering
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
The LA Coast is aDynamic Environment
http://www.nola.com/speced/lastchance/multimedia/flash.ssf?flashlandloss1.swf
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Louisiana Land Loss (1956 to 2006)
Barras, J.A., Bernier, J.C., and Morton, R.A., 2008, Land area change in coastal Louisiana--A multidecadal perspective (from 1956 to 2006): U.S. Geological Survey Scientific Investigations Map 3019, scale 1:250,000, 14 p. pamphlet.
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
LA Coastal Land Loss Causes Natural Processes
Edge erosion Subsidence Sea-level Rise
Anthropogenic Channelization (multiple effects) Levees Mineral extraction Reduced sediment load Vegetation loss
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LA Land Loss Patterns (1932-1990)
Edge Erosion
Interior C
hannels
Interior Ponding
Interior Ponding,
394,164 acres, 57%
Edge Erosion, 207,927 acres,
30%Interior
Channels, 88,824 acres,
13%
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Caused by Navigation? Only indirectly Channels facilitate flow
Deeper depths Fewer bends
Results in increased Storm surge Salt water intrusion Off-shore discharge of storm-induced
sediment loads Not just “navigation” channels
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Baptiste Baptiste ColletteCollette
South South PassPass
Southwest Southwest PassPass
Tiger Tiger PassPass
BaratariBaratariaaHoumaHouma
AtchafalayaAtchafalaya
FreshwaterFreshwaterMermentauMermentau
CalcasieuCalcasieuGIWWGIWW
Mississippi Mississippi RiverRiver
FourchonFourchon
GIWWGIWWGIWWGIWW
Major Navigation Channels 60 - 70 MCY/year
Maintenance Sediment
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Problem Summary
Historical sediment loads no longer delivered through natural conduits across Deltaic Plain
Natural land loss continues Subsidence, Erosion
Anthropogenic influences increase loss rate
Does a sustainable solution exist?
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Developing a Sustainable Plan for Restoring Coastal LouisianaNatural systems, such as coastal
Louisiana, are dynamic by nature.
Static designs will not be sustainable.
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Sustainable Solution Requires a comprehensive approach
that mimics the dynamics of the natural system
Effectively use available resources Bifurcated approach required
One-time projects to repair historical damage
Perpetual projects to offset on-going coastal loss
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Master Plan
Focused on repairing historical damage
Project-based Ambitious
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Available Tools
River Diversions Coastal Protection Sediment retention
e.g. terracing Dredged Sediments
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River Diversions
Partially mimic historical condition Provide long-term sediment source Low maintenance cost Concerns
Limited sediment load in upper water column
Downstream transport Channel Clogging
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Coastal Protection
“Edge Erosion” represents a 30% of land loss
Barrier islands historically protect the coastline
Structural measures must fit with the ecosystem
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Passive Sediment Retention Terracing has been used with some
success in the Chenier Plain Long-term sediment growth Design can be optimized and may be
a useful maintenance measure
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Navigational Dredging
Logical long-term sediment source Requires transportation and delivery
system to replace historical system Cost will be an issue
Increased pumping distance Increased coordination Additional management required
Increased costs likely beyond the “Federal Standard”
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Sediment Resources
MVN Maintenance Dredging
Total Dredged Sediment 67.7 MCY/yr
Fluff (Considered Unsuitable) 16.0 MCY/yr
Not Available 18.0 MCY/yr
Suitable & Available for BU 33.7 MCY/yr
Current Beneficial Use 16.4 MCY/yr
Other DredgingState ChannelsPrivate Docks
??
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Sediment Demand Land loss as equivalent volumetric loss
Land loss = 30 to 40 km2/yr (Barras et al 2008) 40 km2/yr 10,000 ac Area determined by “loss of vegetation,” not
depth of subsidence or erosion Each 1 ft of depth = 12 MCY of volume
Sediment volume required to “backfill” these losses Effectiveness reduced by
Lack of confinement, Consolidation, Dessication, Dewatering
Efficiency factor of 0.5 24 MCY/yr per foot of vertical loss
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Tractable Problem? Problem is likely tractable, but will
require efficient use of sediment resources
Much more than a volume issue Must match
Temporal and spatial availability Sediment Characteristics Sediment Quality
With BU Demand
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Designing BU Projects
Extensive guidance available Understand sediment pumping and
placement Predict retention requirements and
water quality impacts Long-term consolidation Hydrology requirements All BU projects are not equal
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Dredged Sediment Value The value of dredged sediment
depends upon its availability in the quantity and quality necessary to provide a specific beneficial use, the preparation of the site to accept the sediment for the desired beneficial use, and the value of that beneficial use.
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Institute for Coastal Ecology and Engineering ● University of Louisiana at Lafayette
Sustainability Paradigm Requires development of coast-wide
restoration plans that will result in a sustainable condition, offsetting on-going land loss
Sediment recognized as a resource Must move from sediment “disposal”
(convenience) to sediment “placement” (purpose)
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Sustainability Paradigm Plans must be integrated with
navigational dredging to ensure Spatial and temporal sediment availability Sediment quality
Infrastructure required Long-distance pipelines Sediment retention structures Temporary sediment storage areas Likely beyond the “Federal Standard”
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Conclusions Sediments from navigational dredging could
possibly offset LA’s coastal land loss if used correctly Requires an orchestrated approach that
integrates sediment availability and transportation with BU designs that serve the long-term goals
May require innovative sediment management approaches
Properly done, this could potentially offer long-term sediment management solutions for LA navigation channels
Need to characterize beneficial uses based upon value provided
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Questions and Discussion