9.1 - Running Water.pdf

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□

Hydro/ogic Cycle
■ Unending circulation of water.
Evaporation
✓ The process of a

substance

liquid
changing
gaseous

In

a

Precipi
96,000 km3

Precipitation
284,000 km3

state
to a
state

ration/Transpiration
60,000 km3

due
to
an
increase
in
temperature
and/or pressure

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

•

Hydro/ogic Cycle
■ Unending circulation of water.

□ Precipitation

Hydrologic Cycle

-----------

✓ Water

released
from clouds in
the form of ra1 n,
freezing
rain,
sleet, snow, or
hail.
✓ It is the primary
connection in the
water cycle that
provides for the
delivery
of
atmospheric
water
to
the
Earth.

Precipi
96,000 km
Precipitation

284,000 km3

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

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□

Hydro/ogic Cycle
■ Unending circulation of water.
Runoff

Hydrologic Cycle

✓ The

draining
away of water
from the surface
of an area of
land.

Precipitation
284,000 km3

Precipi
96,000 km3

Evaporation/Transpiration
60,000 km3

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

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Hydro/ogic Cycle
■ Unending circulation of water.

□ Infiltration

Hydrologic Cycle

✓ When

precipitation falls
on land, it soaks
into the ground.

Precipitation
284,000 km3

Precipi
96,000 km3

Evaporation/Transpiration
60,000 km3

Infiltration

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

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Hydro/ogic Cycle
■ Unending circulation of water.

□ Transpiration

Hydrologic Cycle

✓ The

process
where
plants
absorb
water
through the roots
and then give off
water
vapor
through pores in
their leaves.

vaporation/Tran
60,000 k

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

•

Hydro/ogic Cycle
■ Unending circulation of water.

□ Evapotranspiration
✓ Combination

Evaporation
Transpiration.

Hydrologic Cycle

of
and

Precipitation
284,000 km3

Precipi
96,000 km3

Evaporation/Transpiration
60,000 km3

✓ The

transfer of
water from the
surface directly to
the atmosphere.

~ 2015 Ptii:lloUI I EUUl,;i:ltiUII, Im;.

HDA. Reyes

I Principles of Geology

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Hydrosphere
Freshwater lakes
0.009%
Saline !lakes and
inland seas
0.008%

Soil moisture
0.005%
Atmosphere
0.001%

Stream channels
0.0001%

L
Glaciers
2.15%

Hydrosphere•

Nonocean Component
{% of total hydrosphere)
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I Principles of Geology

■

Although runoff makes
up a small percentage
of the total, running
water is, nevertheless,
the
single
most
important
erosional
agent sculpting Earth's
land surface.

•

Running Water
■

The amount of water that runs off rather than soaking into the ground
depends on several factors:
1.
2.
3.
4.
5.

Intensity and duration of rainfall;
Amount of water already in the soil;
Nature of the surface material;
Slope of the land;
The extent and type of vegetation.

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I Principles of Geology

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Running Water
■

When water becomes runoff
□ SheetF/ow
►

An overland flow or downslope
movement of water taking the
form of a thin, continuous film
over relatively smooth soil or
rock
surfaces
and
not
concentrated
into
channels
larger than rills.

Source: https://en. wikipedia.org/wiki/Surface_ runoff

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Running Water
■

When water becomes runoff
□

Rills
►

Threads of current that form tiny channels due to sheer flow.

Source:

:.....-;;:-1.;:__..,::-::~•-:1 https://imaggeo. egu. eu/view/2 7

37/

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I Principles of Geology

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Running Water
■

When
runoff

water

becomes

□ Gullies
►

Formed
ril Is
together.

when
meet

Source: https;//www. dailyma ii. co. uk/news/article-2551912/5evere-soil-erosion-causes5ft-gullies-field-with out-crops-prio r-h eavy-winter-rain.html

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Running Water
■

When water becomes runoff
□ Brook, Creek, or Stream
►

Formed when gullies combined.

Source:
https;//www. kestreltrus
t. org/p /aces/scarb oroug
h-brook-conservationarea/

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Running Water
■

When water becomes runoff
□ River
►

Formed when streams reached as undefined size.

Source:
https://elt ecenglish.com
/2018/01/12/ielts-cuecard-january-2018-amajor-river-in-yourcount ry/

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Drainage Basin
■

The catchment area where all rivers drained.
DraLna ge basin

□ Divide -

Imaginary line that
bounds each drainage basin.

Drainage drvide

/

'\ ~

~slopes \

(

□ Continental Divide - splits an

entire
continent
into
enormous drainage basins

~

1/ /"'

Tri bu
I

)

/

I.
~ V

.

.-Trunk
stream
Outlet
HDA. Reyes

I Principles of Geology

.

/

_.,

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River Systems
■ Involve not only a network of stream channels, but also the entire
drainage basin.
■
River systems can be divided into three zones
1.

Sediment production-where erosion dominates,
Zone of sediment

2.

Sediment transport,

3.

Sediment deposition

production
(erosion)

-- --- ---FIGURE 9.6

Zone of
transportation

Trunkstream

A river system can be
divided into three zones based

Zone or
deposition
the zones of sediment p roduction (erosion), sediment
transport, and sediment deposition. (Adapted from
Shumm)

on the dominant processes
operating w ithin eac h zone. These are

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I Principles of Geology

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Stream Flow
■

Laminar Flow
□ water
moves
in
roughly straight-line
paths parallel to the
stream channel.

■

Turbulent Flow
□ water moves in an
erratic
fashion
characterized by a
series of horizontal
and vertical swirling
motions.
HDA. Reyes

laminar flow

turbulent flow

Source: https;//www.cfdsupport.com/OpenFOAM-Training-by-CFDSupport/node2 75. html

I Principles of Geology

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Flow Velocity
Channel A

■

Factors
velocity

1.
2.

3.
4.

affecting

flow
Maximum
velocity

/

Channel
slope
or
gradient;
Channel
size
and
cross-sectional
shape;
Channel roughness;
The amount of water
flowing
in
the
channel.

Depthl
1 unit

A.Wide, shallow
ohannel

Cross-sectional area= 10 square units
Wetted perimeter= 12 units
Ratio = = 0.83

~

B

I

Depth

2 units_

B. Narrow, deep
channel

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I Principles of Geology

Width 5 urats _ -i
_ __.._.._._.-

Cross-sectional area= 10 square untts
Wetted perimeter = 9 units
Ratio = i= 1.11

•

Discharge
■

The volume of water flowing past a certain point in a given unit of time.

World's Largest Rivers Ranked by Discharge
Drainage Area

Average Discharge

Square miles

Cubic meters
,per second

Cubic feet
per second

5,778,000

2,231,000

212,400

7,500,000

Rep. of Congo

4,014,500

1,550,000

39,650

1,400,000

Yangtze

China

1,942,500

750,000

2 1,800

770,000

4

Brahmaputra

Bangladesh

935,000

361,000

19,800

5

Ganges

India

1,059,300

409,000

18,700

700,000
660,000

6

Yenisei

Russia

2,590,000

1,000,000

17,400

614,000

7

Mississippi

Un1ted States

3,222,000

1,244,000

17,300

61 1,000

8

Orinoco

Venezuela

880,600

340,000

17,000

600,000

9

Lena

Russia

2,424,000

936,000

15,500

547,000

Parana

Argentina

2,305,000

890,000

14,900

526,000

Rank

River

Coun.try

1

Amazon

Brazil

2

Congo

3

10
■

Square
kilometers

The Amazon River is responsible for about 20 percent of all the water
. .
reaching the ocean Via r,vers. Its nearest rival, Africa's Congo River,
delivers about 4 percent of the total.
HDA. Reyes

I Principles of Geology

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Changes Downstream
■

■
■

Longitudinal profile - Cross-sectional view of stream from its source area.
Head or Headwaters - Source of the water
Mouth -The outlet point
Head

C:

0

·cu
>

Q)

w

Gentler gradient
1!::::::aaa=.----::::.===-------=---------------------..1. Mouth
River length
Copyright © 2006 Pearson Prentice Hall, Inc.
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I Principles of Geology

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Stream Erosion
■

■

Quarrying
involves
the
removal of blocks from the bed
of the channel
Abrasion - the process by which
the bed and banks of a bedrock
channel
are
ceaselessly
bombarded by particles carried
into the flow.
□ Potholes
circular
depressions created by the
abrasive action of particles
swirling 1n fast-moving
eddies

HDA. Reyes

Source: http://www.kruger-national-park.de/ pages/english/imagegal/ery/blyde-river-canyon/bourkes-/uck-potho/es.php

I Principles of Geology

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Stream Erosion
□

Potholes

How Potholes are created

/
River water is swirled
around in irregularities in
the river bed creating
vertical eddies

, __

Rocks get swept into the
small depressions and
abrade the hollow. These
rocks are called
GRINDERS

Source: http://www. geocoops. com/landforms. html
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//

_ _ __ _____,,.

The process continues
deepening and enlarging
the Pothole
Ry Roh GF!mP.c;hy

•

Stream Sediment Transport
□ Sediment Loads
► Dissolved

Load
Materials that are
dissolved in the water.
► Suspended Load
Materials that have
silt and clay sizes.
► Bed Load - Coarse
material,
including
coarse sands, gravels,
and even boulders
typically move along
the
bed
of
the
channel
HDA. Reyes

Dissolved load

(invisible)

l

Suspended load

(silt, clay)

I
t

Bedload
(sand, gravel, boulders)

c ~i
Rolling

FIGURE 9.12 Streams transport their load o f sediment in three
ways. The dissolved and suspended loads are carried in the
general flow. T he bed load includes coarse sand, gravel, and
boulders that move by roll ing, sliding, and saltation.

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Stream Sediment Transport
□ Sediment Loads
► Solution - Carries the
►

l

dissolved load
Suspended load
Suspension - Carries
Dissolved load
(silt, clay)
(invisible)
the
suspended
sediments
t
Bedload
Rolling - Rolling of
(sand, gravel, boulders)
c ~i
suspended sediments
Rolling
Sliding or Traction Dragging of bed load FIGURE 9.12 Streams transport their load o f sediment in three
ways. The dissolved and suspended loads are carried in the
sediments.
general flow. T he bed load includes coarse sand, gravel, and
Saltation
Series of boulders that move by roll ing, sliding, and saltation.
jumps or bouncing of
sediments
along
transport.
HDA. Reyes I Principles of Geology

I

►
►

►

•

Capacity vs. Competence
□

Capacity
► The maximum load of solid particles a stream can transport per
unit time.

□

Competence
► Is a measure of a stream's ability to transport particles based
on size rather than quantity.

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Alluvium
□

The general term for sediment deposited by streams.

Source: https://geo graphyeducation. org/2017/12/21/alluvia/-fans-2/

HDA. Reyes

Source:http://co/oradogeo/ogica/survey.org/co/orado-geo/ogy/igneousroc ks/volcan ic-ro cks/lava-f/o ws/cinder-con ej/o ws/

I Principles of Geology

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Stream Channels
□

Bedrock Channels
■ Cut
into the underlying
strata and typically form in
the headwaters of river
systems where streams have
steep slopes
■ Steep
bedrock
channels
.
often develop a sequence of
• /\
~
pools and steps, relatively flat segments (pools) where
alluvium
tends
to
acc um uIate'
and
steep Source: https://fishbio.com/fie/d-notes/inside-fishbio/ bedrock-canyon
segments
(steps)
where
bedrock is exposed.
~ ~

HDA. Reyes

, ~(

- .._

I Principles of Geology

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Stream Channels
□ Alluvial Channels
■

■

Form in sediment that was
previously deposited in the
valley.
When the valley floor
reaches sufficient width,
material deposited by the
stream can form a floodplain
that borders the channel.

HDA. Reyes

I Principles of Geology

Source:
https://ar. wikipedia. org/wiki/%D9%86% D9%87%D8%B1
%D9%85%D8%AC%D8%AF%D9%88%D9%84

•

Stream Channels
□ Alluvial Channels

■

Meandering Channels
✓ Streams
that
transport much of
their
load
1n
suspension
generally move in
sweeping bends

Mmtimum
wfocity,,

FIGURE 9.14 When o
~lJt::adll t tllt:"dltt.kl~, ib .lUtlt:

of mnxim11m ~pP.Pd "ihiftc-

rnw.:.rrl thP nllTPr h;mk ThP
point bars sho.vn here are
on the White River near
Vcmol, Ut.ih. The block ,me
whrte photo ~O'N.3 ero5ion

ol a cut blink along the
N~Wl'l\ 1~11111 RN..., U 1
Washingion Srate. By

eroding its outer bank and

dcpoottmq motcnol on the
in, ide of the bend, a
otreom i, oblc to ,hilt ou
channel. troinl b.,r p/,oro
hy M1 /Jrl..,j OJ/i,-.,, cul l,,.,A:.

photo by P. A G!ancy, U.S.
Gco/"11,c•/ 5'6Voy}

HDA. Reyes

I Principles of Geology

Mioti:l11111nn

v....__:itJ ...."-~ -

•

Stream Channels
□ Alluvial Channels

■

Meandering Channels
✓ Cut bank - Zone of
active erosion
✓ Point Bar - Zone of

deposition

Mmtimum
wfocity,,

FIGURE 9.14 When o
~lJt::adll t tllt:"dltt.kl~, ib .lUtlt:

of mnxim11m ~pP.Pd "ihiftc-

rnw.:.rrl thP nllTPr h;mk ThP
point bars sho.vn here are
on the White River near
Vcmol, Ut.ih. The block ,me
whrte photo ~O'N.3 ero5ion

ol a cut blink along the
N~Wl'l\1~11111 RN..., U 1
Washingion Srate. By

eroding its outer bank and

dcpoottmq motcnol on the
in,ide of the bend, a
otreom i, oblc to ,hilt ou
channel. troinl b.,r p/,oro
hy M1 /Jrl..,j OJ/i,-.,, cul l,,.,A:.

photo by P. A G!ancy, U.S.
Gco/"11,c•/ 5'6Voy}

HDA. Reyes

I Principles of Geology

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Stream Channels
□ Alluvial Channels

■

Fl GURE 9.15 Oxbow lakes occupy abandoned
meanders. As they fill with sediment, oxbow lakes
gradually become swampy meander scars. Aerial
vrew of an oxbow lake created by the meandering
Green River near Bronx, Wyoming. (Photo by
Micha&/ Colll9r)

Meandering Channels
✓ Cutoff
✓ OxbowLake

Geologist's Sketch

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I Principles of Geology

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Stream Channels
□ Alluvial Channels

■

Braided Channels
✓ Form where a large
portion
of
a
stream's
load
consists of coarse
material (sand and
gravel)
and
the
stream has a highly
variable discharge.

Source: http:/ If astwindtoaim. biogspot. com/2013/02/f/uvial-landform-0 7braided-channel. html

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Base Level
□ Fundamental concept in the study of stream activity, base level is

defined as the lowest elevation to which a stream can erode its
channel.
□ Ultimate base level - refers to sea level.
□ Local or Temporary base levels - include lakes, resistant layers of
rock, and rivers that act as base levels for their tributaries
FIGURE 9.17 When a dam ,s built
and a reservoir forms, the stream's
Ud~t! lt1vt1l i~ rdi~t!U. I Iii~ rt1tluw~
lht! ~lrtidr11', vt1lodly dllU lt1du,
to depozition and a reduction
ot the gradient upztream from
th0. ms0.rvoir
A.

cGi-W ltfv~I

Dam

Rcoorvoir

l

'-'/

-

;:...........

OriyimJ µrufile

B.

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I Principles of Geology

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Graded Stream
□

Has the necessary slope and other channel characteristics to
maintain the minimum velocity required to transport the material
supplied to it.
□ On average, a graded system is neither eroding nor depositing
material but is simply transporting it.
□ When a stream reaches equilibrium~ it becomes a self-regulating
system in which a change in one characteristic causes a change in the
others to counteract the effect.

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Knickpoint
□ Part of a river or channel where there 1s a sharp change 1n channel

slope, such as a waterfall or lake.

Source:
https;//revisegeo.wordpress. com/alevel/rejuven ation/I

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Knickpoint
□

The world's highest uninterrupted waterfall is Venezuela's Angel
Falls. The water plunges 979 meters (3212 feet).

Source:
https://voyagenation.co
m/en/v/AngelFalls/GranSabana/Bolivar

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I Principles of Geology

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Shaping of Stream Valleys
□

Consists of a channel and the surrounding terrain that directs water
to the stream. It includes the valley floor, which is the lower, flatter
area that is partially or totally occupied by the stream channel, and
the sloping valley walls that rise above the valley floor on both sides.

Source:
https://pixabay.com/en/photos/
stream %20valley/

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I Principles of Geology

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Shaping of Stream Valleys
□ Valley Deepening

✓ When a stream's gradient is steep and the channel is well above

base level, downcutting is the dominant activity.
✓ Abrasion caused by bed load sliding and rolling along the bottom
and the hydraulic power of fast-moving water slowly lower the
stream bed.
✓ The most prominent features of V-shaped valleys are rapids and
waterfalls.
✓ Both occur where the stream's gradient increases significantly, a
situation usually caused by variations in the erodability of the
bedrock into which a stream channel is cutting.

HDA. Reyes

I Principles of Geology

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Shaping of Stream Valleys
□ Valley Widening

✓ As

a stream approaches a graded condition, downcutting
becomes less dominant.
✓ At this point the stream's channel takes on a meandering
pattern, and more of its energy is directed from side to side. As
a result, the valley widens as the river cuts away at one bank and
then the other.
✓ The continuous lateral erosion caused by shifting meanders
gradually produces a broad, flat valley floor covered with
alluvium.
✓ Floodplain

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Shaping of Stream Valleys

Site of erosion

Site of deposil iOn

B.

Floodplain
- well developed_ _..J

C.

FIGURE 9.20 Development of an erosional floodplain.

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I Principles of Geology

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Shaping of Stream Valleys
□ Incised Meanders and Stream Terraces

FIGURE 9.21 Incised meanders. Aerial view of

incised meanders of the Colorado River on the
Colorado Plateau. As the plateau gradually rose,
these meanders downcut because of the
steepening gradient. (Photo by Michael Collier)

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I Principles of Geology

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Shaping of Stream Valleys
□ Incised Meanders and Stream Terraces

FIGURE 9.21 Incised meanders. Aerial view of

incised meanders of the Colorado River on the
Colorado Plateau. As the plateau gradually rose,
these meanders downcut because of the
steepening gradient. (Photo by Michael Collier)

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I Principles of Geology

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Type of stream
□ Tributaries -

a river or stream flowing into a larger river or lake.
□ Distributaries - main channel dividing into several smaller ones,

Distri butary

Tributary

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I Principles of Geology

Source:
https://www.quora.com/What/s-a-tributary-and-distributory

•

Depositional Landforms
□ Bars -

small-scale channel deposits.

BS Diagonal B,u,;

81 Point 8s13

86 Mam Channel Branching
with Numerous Mid-Bars and Islands

B2 Point Bars with Few Mld,Channel Bars

B7 Side Bars and Mid Channel Bars
with length Exceeding 2·3 Channel Widths

B3 Numerous Mid-Channel Bars

84

Side Bars

88

Delta Bars

Illustrations of various depositional features as modified from Oaley et al. (1973)

(Rosgen 1996)

HDA. Reyes

I Principles of Geology

Source:
http://www.fgmorph.com/fg_ B_
12.php

•

Depositional Landforms
□

Delta - form where sediment-charged streams enter the relatively
still waters of a lake, an inland sea, or the ocean.
► Types of Delta
1.
2.
3.

Cuspate Delta -Tooth-shaped delta.
Arcuate Delta - Fan-shaped delta.
Bird's Foot Delta- River dominated delta

Source:
http://www.cesbio.
upstlse.fr/multitemp/?a
uthor=3
https :/lwww.afrika
online. cz/rservice.ph
p ?akce=tisk&cis/ocla
nku=2002101601
https://earthobserv
atory.nasa.qov/ima
qes/4526/mississipp
i-river-de/ta

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Depositional Landforms
□ Natural Levees -

deposit of sand or mud built up along, and sloping
away from, either side of the flood plain of a river or stream.
□ Back Swamp/ Marsh - The area behind the levee is characteristically
poorly drained for the obvious reason that water cannot flow over
the levee and into the river.
□ Yazoo Tributaries - any tributary stream that runs parallel to, and
within the floodplain of a larger river for considerable distance,
before eventually joining it.

HDA. Reyes

I Principles of Geology

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Depositional Landforms
Ane sediments
deposited

Coarse sediments
deposited

Floodstage

Developing,
natural levee

Coarse sediments
Flne sediments

Post flood
Fine sediments

Coarse sediments
deposited

depos1t ed

Ffoodstage
Natural

levees

--~

,

Natural levee

~
_____

-~

L--- - - ,.

-

. - - - - .-

Natural levee after numerous floods

FIGURE 9.25 Natura l levee5 are gently 5loping 5truct\Jres that are created by repeated floods. The
diagram s on the right show t he sequence of d evelo pment. Because the ground next to the strei!!m channel

is higher than the adjacent floodplain, back swamps and yazoo tributaries may develop.

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I Principles of Geology

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Depositional Landforms
□ Alluvial Fan -

fan-shaped deposits that accumulate along steep
mountain fronts.

Source:
http://www.marlimillerph
oto. com/alluvia/fans. html

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I Principles of Geology

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Drainage Patterns
□ Dendritic Drainage Pattern -

characterized by irregular branching of
tributary streams that resemble the branching pattern of a deciduous
tree.

Source:
https://www.civilsdaily.co
m/http-s3-ap-southeast1-amazonaws-com-wpcdup/oad4-3/

A. Dendritic

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Drainage Patterns
□ Radial Drainage Pattern -

This pattern typically develops on isolated
volcanic cones and domal uplifts.

VoJcano

~

Source:
https;//www.geoforcxc.c
om/water/rivers/radial/

HDA. Reyes

I Principles of Geology

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Drainage Patterns
□ Rectangular Drainage Pattern - This

pattern typically develops where
the bedrock is crisscrossed by a series of joints.

Source:
https;//www.pmfias.com
lfluvia/-erosiona/landforms-drainagepatterns-river-valleyformation/

C.Aeotanglilar

HDA. Reyes

I Principles of Geology

•

Drainage Patterns
□ Trellis Drainage Pattern -

a
rectangular
pattern
in
which tributary streams
are nearly parallel to one
another and have the
appearance of a garden
trellis. This pattern forms
in areas underlain by
alternating
bands
of
resistant and less resistant
rock and is particularly well
displayed 1n the folded
areas.
HDA. Reyes

Valleys cut in
less-resistant
rock

Trellis

Source: https://www.geoforcxc.com/water/rivers/trellis/

I Principles of Geology

Lutgens, F., Tarbuck, E. and Tasa, D. (2012). Essentials of Geology Eleventh Edition.
Upper Saddle River, New Jersey: Pearson Prentice Hall.
https ://water. u sgs.gov/ edu/watercyclep recip itat ion. htm I
https ://study.com/a cad emy/lesso n/wh at-is-eva po ration-definition -examplesq u iz.ht ml
www.yourdictionary.com/transpiration
https ://en cyclopedia 2.thefreed iction ary.com/s heet+fl ow

HDA. Reyes

I Principles of Geology