chapter 6: fluvial landforms drainage systems origin of stream courses drainage patterns stream...
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Chapter 6: Fluvial Landforms
• Drainage systems • Origin of stream courses• Drainage patterns• Stream capture
Hypsometric curves and the stabilization of drainage basin form
• Drainage systems
• stream ordering
• Hortons’s hierarchy of streams
• lower order streams are:• shorter, • steeper,• drain smaller areas
• Drainage density• D = L/A• measure of how well or poorly
a basin is drained by streams
4th order drainage
basin
• Drainage systems
• stream ordering
• Drainage density• D = L/A• measure of how well or poorly
a basin is drained by streams
•higher for steeply sloping,low-permeability landscapes,
which promote runoff, gullying,channeling.
• lower for low-relief, highpermeabilty landscapes.
-what about karst?
4th order drainage
basin
drainage texture-Note crenulated contours
• Drainage systems
• stream ordering
• what’s outlined in red?
•what’s outlined in yellow?
• Origin of stream courses
Virgin land surface (new landscapes)
• fresh volcanics• newly glaciated• emergent marine areas• recently uplifted terranes
• Origin of stream courses
• What determines the path taken by a stream on avirgin land surface (new landscapes)?
• slope of ground consequent streams
• random headward erosion• homogeneous materials
insequent streams
• selective headward erosion • materials of varying resistance
subsequent streams
• Drainage patterns
Pattern Origin Characteristics Geology
dendritic insequent random, acute-angle
junctions
homogeneous,horizontal beds
trellis subsequent parallel streams, high-angle junctions
heterogeneous,tilted beds
rectangular / angular
subsequent high-angle junctions, high-angle bends in
tributaries
jointed rocks
annular subsequent circular patterns heterogeneous,breached
domes
radial consequent streams flowing in all directions from central high area
volcanic or intrusive domes
Yemen (very dry climate)http://www.cerritos.edu/earth-science/tutor/Fluvial/drainage_patterns1a.htm
New Zealand, Wikepedia
• Drainage patterns
Yangtze River, ChinaNASA photo
• Drainage patterns
• Drainage patterns
• Stream capture
Diversion of a stream’s flow from its original channel to the channel of
a neighboring stream.
• Stream capture
Two types:
• abstraction– faster rate of headward erosion on one side of drainage divide because of steeper gradient or less resistant rocks.
• intercession – lateral movement of meander bend intersects meander bend of another stream.
• Stream capture
• this is example of what type of stream capture?
• where might we seethis in Appalachians?
The Hadhramawt Plateau of South Yemen exhibits a complex dendritic drainage pattern and excellent examples of "stream piracy." Wadi Hadhramawt opens into the sand-filled Ramlat Sabatayn in the southwest corner of the Rub-al-Khali (The Empty Quarter), yet drainage is toward the sea. The southern coast of the Arabian Peninsula is at the upper portion of the photograph. (S65-34658; Gemini IV.)
• Stream capture
Landform Origin Processes/Materials
floodplains constructional lateral and vertical accretion,
channel and overbank deposits
pediments destructional lateral planation, sheet and rill wash,
weathering, formation of graded
surface
alluvial fans constructional deposition of coarse-grained sediments on
land,fanhead trenching,
mudflows
deltas constructional deposition in standing water,
turbidity currents,birdfoot deltas
• Fluvial landforms
• The Cycle of Erosion
• introduced by Davis (1909), a foundational concept in geomorphology for many years, formed basis for interpreting landforms.
• idealized sequence of landscape/landform evolution.
• begins with uplifted, virgin landscape.
• culminates with featureless plane eroded to base level.
• in between passes through stages, each with a set of recognizable landforms.
• The Cycle of Erosion
• The Cycle of Erosion
• sequence of forms: 1) youth 2) maturity 3) old age
• The Cycle of Erosion
Youthful stage• initial drainage poorly developed
• consequent drainage initiated• low drainage density• swamps and lakes • insequent drainage begins to develop
• headward erosion and vertical downcutting dominant• steep stream gradients promote valley deepening
• narrow, V-shaped valleys
• The Cycle of Erosion
Mature stage• reduction in basin relief• streams become graded (adjust to load and discharge)• stream gradients reduced, valley widening accelerates
• V-shaped valleys transition to flatter profiles• flood plains develop• valley sides and divides are smoothed and rounded
• The Cycle of Erosion
Old age – “penelplane”• gently sloping plane, just above
base level• very gradual transition between floodplain and valley walls• real examples hard to find—why?
• uplifted peneplains?—erosional surfaces• complicated by existence of broad, flat surfaces not result of fluvial processes.
Stage Landscape Processes
youthful steep hillsides,drainage divides
predominant V-shaped valleys
headward erosion,stream downcutting
mature rounded hills, valley walls predominant
graded streamsbroad floodplains
lateral erosion, streams adjust to
discharge/load
old age “peneplane,”close to base level
very low relief,sluggish stream flow,
poor drainage
• The Cycle of Erosion
• Cyclic stream terraces
• former valley floors that lie above active stream channels.
• result from:• uplift• change in base level• change in load/discharge
• interrupts cycle of erosion
• Types of cyclic stream terraces
• cut-in-bedrock terraces• bedrock terraces• covered by thin veneer of alluvium• interpreted events:
• erosion by graded stream• uplift/change of base level• downcutting
• fill terraces• composed of alluvium, depositional in nature• interpreted events:
• filling of valley by aggradation of graded stream• uplift/change of base level• downcutting
• Types of cyclic stream terraces (cont.)
• cut-in-fill terraces• composed of alluvium, erosional in nature• interpreted events:
• valley cut into alluvium• uplift/change in base level• downcutting
nested fill terraces• composed of alluvium, • multiple terraces, all depositional in nature• successive cycles of aggradation and downcutting
• Non-cyclic surfaces
• erosional surfaces on resistant materials • do not represent periods of sustained erosion
but rather a resistant surface.• slope of surface conforms to bedding, not to
slopeof stream that formed it.
• may slope up-valley• will not have concave-upward profile as a
valleyfloor would.