geology final exam - running water
floodplain
a broad flat valley covered with alluvium caused by continuous lateral erosion
local base level
a lake, another stream or a reservoir
dissolved load
acquired from a stream's bed and bank where soluble rock is present (limestones)
delta
alluvial deposit where a river flows into a lake or the ocean and causing the shoreline to build outward into the lake or sea (progradation)
running water
any surface water moving from higher to lower areas as runoff in response to gravity
how streams are shaped
changing shapes of the channel, erosion, deposition
deranged drainage
characterized by irregularity, with streams flowing in and out of swamps and lakes, recent drainage system not fully developed
potholes
circular to oval depression formed where swirling currents with sand and gravel eroded the rock
alluvium
collective term for all detrital sediments transported and deposited by running water
hydrologic cycle
continuous recycling of water from the oceans, through the atmosphere to the continents and back to the ocean (involve evaporation, condensation, precipitation, runoff)
tide dominated delta
continuously modified tidal sand bodies that parallel the direction of tidal flow
2nd step to predicting and controlling floods
control flood, construct dams that impound reservoir, build levee along stream beds, construct floodway channel to divert part of the excess water in a stream around a city or economic center, construct flood walls
incised meanders
deep meandering canyon cut into bedrock by a stream or river, stream cannot erode laterally, thus occupies the entire width of the canyon floor
wave dominated delta
distributary channels constituted of islands reworked by waves
stream terrace
erosional remnant of a floodplain that formed when the stream was flowing at a higher level, fairly flat upper surface and steep slope descending toward the valley
alluvial fans
fan-shaped deposit that accumulates along steep mountain fronts
downcutting
forms a v shaped valley
natural levees
gently sloping structures that parallel a river channel, created by repeated floods
parameters affecting channel flow
gradient, velocity, discharge
oxbow lake
horseshoe shaped lakes produced by meanders ends connecting and detaching from the meandering stream
where velocity is greater
in the middle of channels, in deeper semicircular channels, in smooth channels, downstream
annular drainage
incomplete, concentric rings that are connected by short channels, forms along domes that have alternating rock types at the surface
braided stream
intricate network of dividing and rejoining broad and shallow channels separated from another by sand and gravel bars, sediments supply exceeds the transport capacity of running water
bed load
larger particles (sand and gravel) transported along the bed
stream dominated delta
long finger like sand bodies deposited in a distributary channel that prograde far seaward
base level
lowest limit to which a stream can erode
velocity
measure of distance traveled per unit of time expressed in m/sec, varies across a channel width as well as across its length
solid load
moves as suspended load or bed load
dendritic drainage
network of channels resembling tree branches, gently sloping surfaces, homogenous erosion
trellis drainage
network of nearly parallel main streams with tributaries joining them at right angles, layering of resistant/nonresistant rocks that have been tilted and eroded to form landscape alternating resisting ridges and valleys
1st step to predicting and controlling floods
prediction, monitor stream and evaluate their past behavior, anticipate flood of a given size in a specific period
corrosion
process in which rock is gradually dissolved by the flowing of water
drainage patterns
regional arrangement of channels in a drainage system (dendritic drainage, rectangular drainage, trellis drainage, annular drainage, radial drainage, deranged drainage)
quarrying
removal of blocks from the bed aided by fracturing
abrasion
rock is worn smooth by the impact of sediments being transported
ultimate base level
sea level
how channel flows receive water
sheet flows, soil moisture, groundwater, rainfall
meandering stream
single sinuous channel with broadly looping curves known as meanders, transports primarily mud, sand and occasionally gravel
gradient
slope over which a stream or river flows expressed in m/km or ft/mi
suspended load
smallest particles (clay) carried by running water are kept suspended by turbulence
graded stream
stream that has an equilibrium profile in which a delicate balance exists among gradient, discharge, flow velocity, channel characteristics, and sediments load so that neither significant deposition or erosion takes place within its channel
radial drainage
streams flow outward in all directions from a central high point, such as a volcano
drainage system/basin
surface area drained by stream or river and its tributaries, and separated from an adjoining system by a divide (high topographic separating adjacent system)
channel flow
surface runoff is confined to depressions that vary in size from tiny rills that meet to form gullies which to join to form a river channel
rectangular drainage
tributaries join larger channels at right angles, bedrock is crisscrossed by a series of joints or faults
discharge
volume of water in a stream or river moving past a specific point in a given interval of time expressed in m3/sec or ft3/sec
