Download MODULE 2 Session 2

Floodplain Management
SESSION 2
Stream Systems on
Dynamic Earth
Geologic Framework
Prepared By
Donald R. Reichmuth, PhD.
Geologic Framework
Objectives:
Define Floodplains
Describe Stream System Functions
Explain Tectonic Plates
Explain Vertical Plate Motion
Identify Tectonic Domains
Summarize Glacial Behavior
Compare Erosion Related Processes
River Basin Definition
A region or area
bounded by a topographic divide
that contributes water
to a particular stream channel (corridor)
or other water body.
Floodplain Definition
That portion of a Drainage Basin
that is covered by Transported Sediment
that was deposited in or near a stream channel.
FUCTIONS OF RIVER SYSTEMS
• Removes Erosional Debris
– Most Important
– Acts Over Long Periods
• Removes Excess Water
– Importance Secondary
– Acts Sporadically Over Short Periods
• Provides Fresh Water Supply
– Necessary To Sustain Life
• Transports Chemicals & Nutrients
Geologic Framework
• Tectonics
•
•
•
•
Passive Margins
Stable Platforms
Active Margins
Hot Spots
• Glaciation
• Alpine Glaciers
• Continental Glaciers
• Geomorphology
• Surface Forming Processes
–
–
–
–
Water
Ice
Gravity
Wind
Present Plate Boundaries
BASIC TYPES OF PLATE INTERACTION
Stream Systems on
Dynamic Earth
North America
Structure
– Craton
• Shield
• Stable Platform
– Mobile Belts
Tectonic Activity
– Active Margin
– Passive Margin
Karst Topography
Example
• Solution Cavities In Limestone
• Streams Have Subsurface Connections
Cretaceous Inland Sea
100 Million Years Ago
Vertical Plate Motion
Causes:
Tectonic/Earthquake Activity
Erosion & Sediment Loading
Glaciation
Human Activities
Uplift Example
Himalayan Data
Present Height --30,000 Ft (9,500 m)
Tectonic Uplift Rate --More Than 1 cm/yr
Erosion Rate --Now Equals Uplift Rate
Sediment Yields Highest Known
Worldwide Erosion Rates
Oceanic-Continental Convergence
Oceanic Crust Subducts
Ocean Trench Forms
Lighter Melted Material Rises
Volcanoes Form
Lithosphere Plunges Into Asthenosphere
Effects Of Plate Locking
Effects Of Erosion
Man Induced Vertical Movement
Ongoing Elevation Changes
Active Margin
Note:
• Aleutian Trench
• Canada
– Strike-Slip Faulting
• Mobile Belt Deposits
• California
– Strike-Slip Faulting
Active Margin
• Ocean-Continent
Subduction
• Strike Slip Faulting
Hot Spot Locations
Hawaiian Hotspot
Passive Margin
• Coastline Sinking
– Drowned River
Valleys
– Numerous Nearshore Islands
– Shoreline Migrating
Landward
Northern
Hemispheric
Glacial Areas
16,000 B.P.
NOTE:
Portions Of Alaska
Are Ice Free
Pleistocene
Glaciation
Note:
• Alpine Glaciers
• Continental
Glaciers
• Ice Marginal Rivers
• Alaska Ice Free
Area
Glacial Impact Areas
Preglacial Teays Basin
Teays Basin
Overrun By Ice
Channel Buried
Ohio River
Forms
Drains Basin
Western
Glacial Lakes
15,000 B.P.
– Climate Much
Wetter Than
Present
– Large Basins
Had Internal
Drainage
Loess
Wind Blown Silt
From Glaciers
Rock Flour
Stream Banks
Stand Vertical
When Stable
Glacial Rebound
Contours In Meters Uplift
Great Lakes Glacial Rebound
Contours – Uplift per 100 Yrs.
Sea Level
Changes
16,000 Years BP -120 Meters Lower
6,000 Years BP –
Reached Present Level
Near Future –
Expected To Rise
Holocene
Sea Level Changes
Primarily Cause --Glacial Melting
In The
Northern Hemisphere
Erosion In River Basins
Controlling Factors:
• Chemical vs. Mechanical Weathering
– Temperature
– Precipitation
• Basin Gradient
• Basin Soil/Bedrock Type
• Tectonic Activity
Chemical & Mechanical
Weathering
Erosion Processes
Erosion Processes
Mass Movements
Class Handout
CASE STUDIES
•
•
•
•
•
•
•
Columbia River
Mississippi River
Ohio River
Potomac River
Red River of the North
Rio Grande River
Santa Ana River
Geologic Setting
GEOLOGIC SETTING
RIVER BASIN
Tectonic
Glacial
Water
Sediment
Outlet
Considerable Bedrock
Control, Average
Sediment Production
Pacific Ocean, Glacial
Flood Deposits Off Coast,
Northern Shore Current
Dominant
COLUMBIA RIVER
(INCLUDING ROCKY MTN. TRENCH,
Active Margin, Subducting Plate, Alpine Glaciation, Lake Missoula
Significant SnowSNAKE RIVER, WILLAMETTE
Flood Basalts Shifted Channel
Floods, Bonneville Flood
pack, Dryer Summers
RIVER, COLUMBIA RIVER BAR &
LONG BEACH)
MISSISSIPPI RIVER
(INCLUDING MISSOURI RIVER &
LOUISIANA DELTA)
OHIO RIVER
(INCLUDING TEAYS RIVER,
MONONGAHELA RIVER &
ALLEGHENY RIVER)
Passive Margin, Stable Midcontinent Shelf, Coastal Zone
Sinking
Stable Mid-continent, Heads In
Old Eroded Allegheny Mtns.,
Crosses Stable Mid-continent
Sedimentary Shelf
Major Glacial Meltwater Channel,
Heavy Lowland
Large Quantities Of Fine
Strong Impact From Low Glacial Spring Runoff, Heavy Sediment And Dissolved
Sea Level
Rainfall At Times
Solids
Ice Marginal Channel Built From
Pieces Of Numerous Drainages
Passive Margin, Heads In Old
Eroded Allegheny Mtns., Crosses
Originally Graded To Low Glacial
Into Sinking Sedimentary
(INCLUDING CHESAPEAKE BAY &
Sea level
Coastal Shelf, Impacted By A
DELMARA PENINSULA)
Meteor
POTOMAC RIVER
RED RIVER OF THE NORTH
(INCLUDING LAKE WINNIPEG &
HUDSON BAY)
RIO GRANDE RIVER
(INCLUDING ELEPHANT BUTTE
RESERVOIR, RIO PUERCO &
PADRE ISLAND)
Significant Spring
Runoff, Above
Average
Precipitation
Below Average Because
Of Low Elevation And
Good Vegetative Cover
Flows Into Mississippi
River, Can Have Flood
Synchronization Problems
Above Average
Precipitation
Below Average Because
Of Low Elevation And
Good Vegetative Cover
Atlantic Ocean,
Submerged River Valley,
Northern Coastal
Circulation.
Rapid Spring
Lowland Snowmelt
Occasionally Mixed
With Rain
Fine Grained Derived
From Old Glacial Lake
Bed
Hudson Bay That Has
Uplifted Over 100 Meters
Since The Last Glaciation
Stable Mid-continent, Flows
From Sedimentary Shelf OnTo
Continental Craton
Originates In Glacial Lake
Agassiz, Flows North Against
Glacially Induced Crustal
Rebound Centered Near Hudson
Bay, Stream Gradient Lowering
Active Uplift At Head (Mtn.
Building), Mouth Sinking At
Passive Margin
No Significant Glacial Impacts,
Small Amount Of Alpine
Glaciation At Head
High Fine Sediment
Area Arid,
Gulf Of Mexico, Northeast
Production Caused By
Significantly Higher
Coastal Circulation
Occasional High Intensity
Precipitation During
Strongly Influences The
Storms And Scant
Glacial Periods
Stability Of Padre Island
Vegetative Cover
No Significant Glacial Impacts
Area Arid,
High Fine Sediment
Significantly Higher
Production Caused By
Precipitation During
Occasional High Intensity
Glacial
Storms And Scant
Periods,Water
Vegetative Cover
Imported Into Basin
SANTA ANA RIVER
(INCLUDING SAN BERNARDINO
MTNS., PRADO WETLANDS, LOS
ANGLES BASIN & HUNTINGTON
BEACH)
Gulf Of Mexico, Large
Marine Fan-delta,
Westward Coastal
Circulation
Active Margin, Strike-slip
Faulting Very Active
Pacific Ocean, Southern
Coastal Circulation
Influences Huntington
Beach
JURISDICTION & CONCERNS
RIVER BASIN
RECENT CONCERNS
JURISDICTION
COMMENTS
Habitat
Pollution
Development
Declining Salmon
Populations
Cominco Smelter (Canada)
Numerous Large Dams,
Hanford Nuclear Facility,
Barge Traffic
Conflict Developing Between
Indian Nations & Newer Arrivals
Levee Construction, Barge
Traffic, Large Dams, Oil & Gas
Drilling/Production
Conflict Developing Between
Upper River States (Especially
Along The Missouri) & Lower
River States
Change In Vegetative Cover,
Major Urban Growth In Valleys
Original Teays River Partially
Buried During Glaciation
Expanding Urbanization,
Shoreline Construction
Demand For Domestic Water
Supplies Becoming Critical
Construction On The Floodplain,
Levee Construction Near Towns
Management Requires
Cooperaton Between Canada &
The U.S.
COLUMBIA RIVER
(INCLUDING ROCKY MTN. TRENCH,
SNAKE RIVER, WILLAMETTE RIVER,
COLUMBIA RIVER BAR &
LONG BEACH)
MISSISSIPPI RIVER
(INCLUDING MISSOURI RIVER &
LOUISIANA DELTA)
OHIO RIVER
(INCLUDING TEAYS RIVER,
MONONGAHELA RIVER &
ALLEGHENY RIVER)
POTOMAC RIVER
(INCLUDING CHESAPEAKE BAY &
DELMARA PENINSULA)
RED RIVER OF THE NORTH
(INCLUDING LAKE WINNIPEG &
HUDSON BAY)
RIO GRANDE RIVER
(INCLUDING ELEPHANT BUTTE
RESERVOIR, RIO PUERCO &
PADRE ISLAND)
SANTA ANA RIVER
Washington, Oregon,
British Columbia &
Indian Nations
Midwestern States
& Montana
Pennsylvania, Ohio,
West Virginia, Kentucky, Indiana
& Illinois
West Virginia, Virginia,
Washington D.C. & Maryland
Loss Of Channel
Agricultural Chemicals
Length, Disruption Of Entering River, Gulf Of Mexico
Sediment Transport
"Dead Zone"
Impacted By Industrial
Use
Industrial Discharges, Acid
Rain From Power Plant
Emissions
Industrial Discharges, Urban
Bay Contains 160
Runoff, Salt Water Intrusion In
Nonindigenous Species
Groundwater
North Dakota, Minnesota, &
Manitoba
Degraded By
Agriculture
Colorado, New Mexico, Texas,
Chihuahua, Coahuila,
Nuevo Leon & Tamaulipas
Loss Of Fresh Water
Access For Marine
Species
Dam Construction, Water
Channel Heavily Dewatered
Withdrawal For Agriculture,
Particularly In Lower Reaches Sediment Filling Channel In Some
Sections
Requires Water Allocation
Between The United States &
Mexico
Channel Concrete
Lined, Total Loss Of
Cover
Sewer Outfalls Discharge Into
Massive Urban Development In
River, Salt Water Intrusion
Lowlands, Construction On Steep
Into Groundwater, Fires In
Erosive Hillsides
Upper Watershed
Water Imported From The
Colorado River
California
(INCLUDING SAN BERNARDINO MTNS.,
(Containing Cities & Counties Of
PRADO WETLANDS, LOS ANGLES BASIN
The Los Angles Basin)
& HUNTINGTON BEACH)
Agricultural Chemicals
Entering River
Slide Presentation
Prepared By
Geomax, P.C.
Dr. Donald R. Reichmuth, President
1023 W. 30th Ave.
Spokane, WA 99203-1324
Phone & FAX – 509-838-6390
E-mail – [email protected]