Hungry Water: Managing Sediment in Rivers
Transcript of Hungry Water: Managing Sediment in Rivers
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Presentation to the MRC Sediment Workshop October 2008Matt Kondolf, University of California Berkeley
Hungry Water: Managing Sediment in Rivers
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What is Hungry Water?Hungry water is river flowwith excess transport capacity
It has more stream power to transport than available sediment.
As a result, it tends to erode its bed and banks to compensate.
When the longitudinal continuity of sediment transportis interrupted (e.g., from dams), hungry water results.
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Longitudinal Continuity of Sediment Transport
Transport Zone:Bars may reappear yearafter year - form is stablebut the gravel particles may be replaced annually
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The transport zone like a conveyor belt: on geological time scale the sediment is in motion, with only temporary storage in bars, floodplains, etc..
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Dams interrupt the natural continuity of sediment transport in rivers, resulting in reservoir sedimentation and reduced sediment supply downstream. (trap 100% bedload)
The Carmel River above San Clemente Dam (now full of sediment)
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If not managed, reservoirs can fill completelywith sediment, creating dangerous and expensive problems for the future (near or far)
San Clemente Reservoir, Carmel River: $83 million to stabilize
Carmel RiverSanClemente Ck
-- dam
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05,000
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Cumulative reservoir storage capacityNumber of dams built per year
How serious a problem in the future?In California, most dams already built, but many newdams planned for Mekong region.
Cumulative reservoir capacity, California
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Downstream of dams: Hungry WaterDams release sediment-starved water with excess energyResult: erosion of bed and banks- channel incision, often down to bedrock
Bed coarsens as smaller,easily transported grainsare washed downstream
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Colorado Riverdownstream of Glen Canyon Dam:
hungry water has eroded beaches neededfor camping and wildlife
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Stony Creekdownstream of
Black Butte Dam(built 1963)
Channel incised 2 m,converted from braided
to meandering pattern
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How to manage/mitigate for reservoir sedimentationand for hungry water downstream?Sediment pass-through:Pass sediment through the dam during floods,Need large, low-level outletsNot practical for large reservoirs with year-to-year storage
Gravel/sediment augmentationMechanically add sediment to channel downstreamMost examples for fish habitatRhine River - to protect infrastructure downstream
Mine reservoir deposits for aggregateMiddle American River, Calif, sediment added downstreamShikma Reservoir, Israel - maintain capacity by extraction
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Sediment Pass-ThroughSediment transported through outlets of dam
Example: Jensanpei Reservoir (Taiwan Sugar Co)Sluice gates (low-level outlets) left open for the first part of the rainy season to allow accumulated sediment to flush out. Reservoir stores water again half-way through the rainy season.Carry-over storage not needed (power needed only to process sugar).
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After sluicing started, sedimentation of the reservoir stabilized. As Taiwan Sugar changed from sugar to development, a resort was developed around the reservoir, by 1999, annual drawdown was no longer acceptable. By 2008, the managers had resumed drawdownto sustain reservoir capacity.
JenSen Pei Reservoir sedimentation over time
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Shikma Reservoir, Israel had filled, lost capacity.Upstream dredged, sand & gravel used for aggregate.Downstream dredged, clay used for bricks & pottery.Middle portion left vegetated, to filter silts.
Maintaining reservoir capacity by mechanical removal
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Gravel Augmentation Below DamsArtificially adding gravel below dams to compensatefor sediment starvation
Goals: - salmonid habitat enhancement, - protect infrastructure from incision,- restore coarse sediment load
Two approaches:1.Build artificial riffles(restore form)
2.inject gravel forredistribution by flows(restore process)
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Formerly, the Sacramento Riverwas a highly connected system,with exchanges of water, sediment,nutrients, and organisms
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Now:Longitudinal and lateralconnectivity reduced,
Flow dynamics reduced
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Consider Catchment ContextReduced sediment supply – “Hungry Water”Dams cut off all bedload, some suspGravel mining – gravel sinksBank protection Channelization/dredging legacy effectsAccount for tributary inputs
Changed sediment transport capacityDecreased xport capacity below damsSediment transport capacity changes with additionof sediment due to changed supply, grain size
Counteracting: narrower channel, higher shear?
Many uncertainties, so must manage adaptively
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Over 500,000 m3gravel added torivers below damsin northern California,all to improve salmonspawning habitat
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1 10 100 1,000 10,000 100,000 1,000,000
Sacramento RiverClear Creek
Middle Fork American RiverTrinity River
Tuolumne RiverStanislaus River
Mokelumne RiverAmerican River
Feather RiverMerced River
Payne's CreekMill Creek
Battle CreekDry Creek
Middle CreekPutah Creek
Hamilton BranchHelms Creek
Big Chico CreekHat Creek
Granite Creek
Volume of Gravel Added (m3)
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Fi
Artificial riffles designed to create spawning habitatby creating the forms
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Gravel injection below Keswick Dam
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5 DAMS
1931 - 1968
Gravel Augmentationon the Ain River, France
On a reach sediment-starvedfrom upstream dams
Piegay, Rollet, LejotCNRS Lyon
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Gravel extracted from a former channel was addedto the sediment-starvedmain channel
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Gravel excavated fromsecondary channel placed in main channelof Ain River
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0 50 meters
Before 2 months after 6 months after
While substantial, the amount of gravel added tothe river was less than 2 years deficitThe added gravel was quickly mobilized downstream
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Juillet 2005 Juin 2006
J. Lejot, PhD, 2008
Detailed bathymetric analysis shows erosion of added gravel
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The French-German Rhine
Series of hydroelectric damsbuilt progressing downstream
Below Iffezheim, adding gravelto compensate sediment deficit
The largest gravel augmentation project is not for habitatbut infrastructure on
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Gravel and sand mining from river channelsA large but often under-appreciated problem
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Virtually all sand and gravel mined in California and many regions comes from alluvial deposits
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Gravel extraction from channels is easier in rivers withhighly variable flow regimes. In Mediterranean California, can operate heavy equipment in channel in summer.
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Effect of instreamgravel mining:Incision upstream due to headcutting,and downstream dueto sediment starvation
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Cache Creek 1992
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Kaoping River Bridge, Taiwan. Failed from mining-induced incision
Tujunga Wash, Los Angeles
washing out the Foothill
Blvd bridge in 1969