Dynamic Landscapes PDF

Summary

This document provides an overview of dynamic landscapes, focusing on weathering, erosion, and transportation of materials by external forces. It highlights temperature changes, frost wedging, chemical reactions, and biological processes in shaping the Earth's surface.

Full Transcript

·
exogenic Forces :

exogenic Forces are Forces that come from the Earths exterior (outside).

Weathering is a result of external Forces

weathering :

the
Weathering is
wearing down or
breaking of

rocks and minerals.

There are different
Types of
weathering

Physical :

Temperature changes
·
:

Drastic of
temperature (often desserts
changes occurring in dry

can result in the constant expansion and compression of rocks

that end cracks breakdown
may
in and
eventually.

Frost
·

wedging happens in cold , rainy places. (Rain) Water seeps into a rock's

crack and freezes. Due to the
freezing ,
the Water turns into ice and expands.

This breaking
progress enlarges the crack and can lead to said rock.

chemical :

·
In humid areas like Vietnam and Slovenia, rain droplets pick up carbon dioxide

from the air and. When this comes in contact with certain rocks
ground
-v

(mostly limestone) it dissolves forming stalag mites and tites.

↓
acidtwater
cald

biological :

when plants grow in cracks in rocks , they can make the

crack and
bigger
bigger

Roots can also cause
biological weathering.
Roots
growing

different direction lead to asphalt
in can them
breaking e.

g.
 erosion :

Erosion is the transport of broken down materials.

This often happens
through the
agents. Examples for
agents are : Water, ice wind and
, waves. These agents are made
mobile
by gravity and gradient.

Water :

Running water like rivers can
easily pick up debris and transport it.

Waves :

The back & forth of cliffs them down and
waves
repeatedly hitting can wear

transport the broken of material at the same time

ke :

Ice
mostly transport through glaciers down mountains and their. These
glide pick up material on way.

Deposition :
Deposition is the relocation of broken down material.

The
heavy material gets repositioned first.

Moraines they transported and depositioned materials Glacier
are
by a.

2
 1) Rivers : 11) Processes of a river :

·
The river wears away and breaks down lerosion)

mud (rivers load)
corrasion labrasion) : Rivers load sand and pebbles are
boulders , pebbles sand silt and

Riverasir e
, ,
longer

river it
↑ I
dragged along the bed , wearing away
River Bed

·
and carries it downstream (this is called transportation (

attrition rocks each other they knock together
away as
:
· we a r

and
· When the river looses
energy ,
it can no
longer carry it's load becoming smaller m o re rounded

and drops it on the river bed (deposition

· saltation : Smaller pebbles are picked up and dropped again
large and
heavy material is deposited first, while
light material is

deposited last

bedload :
heavy material is carried along the bottom.

111) Effects on the work of rivers solution : rock like limestone are dissolved by acid in Rainwater

>
-
velocity of the was energy) :

the faster the river is= the larger material river transport suspension (Schwebel Tiny particles of sediment in
suspension in the
:
a can are

River's current

>
-
volume of the water the more water -the more volume

traction :
large stones are
dragged along and get spun around

>
- round
the bedrock
along the river : Hard rocks
(granite) erode
slowly , making the smooth and

soft rocks (shale) erode faster.

hydraulic action : fast
flowing water is forced into cracks ,

bank
breaking up the over time

V) discharge

IV) why does deposition happen? discharge-volume of water flowing in a River at a time

Idry season-less water, rainy season of snow m e l t more volume

deposition happens , when the river looses velocity

this be caused
can
by :

>
- decrease in
gradient
↳ abnahme der Steilheit

>
-
decrease in volume (discharge) after
heavy rain

↑
river meeting with sea, ,
lake or another river (tributary) I

often forming a delta

3
VI) River channels :

channels consisting of rive bed & walls

·

S
meandering

river flows a as n
S·
straight

very few bends

· erode
might get

VII) River courses VIII) upper course

upper course middle course lower course
·
river starts at the source

#
·
upland or mountains -
Steep gradient

v-shape valley
·

·
vertical erosion >
- forms gorges & canyons

·
Potholes = rounded hollows in bedrock created
by vertical erosion : stones trapped in Riverbed ->

steep gradient less steep gradient slow water speed corrasion , drills into rock -
> deeper
join together
·

hollows that

vertical lateral erosion forming Istromstellen)
rain
·
·
erosion deltas Rapids :
shallow water , steep gradient
·

Couter curve (

·

straight channel transportation deposition -
rocky & irregular river bed
trough water

gota
meanders
forming braided channel
=>
&

I waterfalls & X) middle & lower course
gorges
1) horizontal layer of hard rock on top of layer of >
-
valley changes shape and widens , gentler slopes

soft rock in river valley because of lateral erosion

2) Soft rock gets eroded more than hard forms >
- gradient
,
Plunge pool lessens

splashing water eddy (swirling movement /under cut hard rock & form > more
- deposition than erosion

3) unsupported Overhang -
> Overhang
collapses >
- vertical erosion
may completely stop in lower course

4) more soft rock is eroded and process repeats >
-

Steep-sided valley called gorge develops over long time

·
2)

"
-
Process

·
water falls can
bring major economic
·

benefits to an area
:
beautiful Scenery ->

development in tourist
industry (Victoria a
Niagara Falls

·
they also
bing disadvantages (navigation & crossing river

4
 XI) meanders & oxbow lakes

·
meanders are :

Sweeping bends in a river

·
occur in the middle & lower course

·
result of erosion and deposition

how meanders & oxbow lakes form :

neck
narrow

2 t
- -

r -
&
deposition
River
↑
through
break
gap

lateral
erosion

River naturally flows in rivers is sent to the sides more erosion creates nar row neck
a
energy ,

>
- >
-
corkscrew paltern, Fastest current is forced to outer curve, between two meanders , neck is

it undercuts and erodes the bank
helical flow cut
through and river creates new &

forming a river cliff Easter channel , old meander becomes

an oxbow lake because deposition seals ends

helical flow transports sediment from

cliff across chankle to inner bank

or slip-off slope , where water moves slower

and deposits and forms 'small beach

V1) Floodplains and levees XIII) Deltas

floodplain : flat land next to a river ,
it's liable to flood Deltas occur when a river meets the sea or a lake. There are often small lakes within

they are marshy and poorly drained. Flood plain is enclosed the delta. The river splits up and meet
again , forming a braided channel. Deltas for m when

by levees. river that's carrying i ts by
mostly light-bedload meet still water. The loss of
a n ow
energy

(speed) leads to deposition of the
remaining load ,
which leads to forming the delta

Levees formed river Hoods and the slows down
a re naturally when a

As a result ,
the heaviest part of the Bedload is deposited next

Banks
to the channel , making the
higher

Artificial levees are used in an attempt to stop flooding

5
Marine erosion

hydraulic action : water is forced into cracks, corrasion : loose rocks (sediment) are thrown
agains the

compressing the air inside. cliff by the
waves , wearing cliff away

When the wave retreats ,
compress

air blasts out corrosion :
(chemical weathering) : seawater dissolves material from the rock.

Mostly happing along limestone and chalk coasts when salt is dissolved

attrition
(wearing down) :
loose sediment that's knocked off by hydraulic action and abrasion is swirled around by waves and collides

with other sediment. It
gradually gets wo r n down into smaller and rounder sediment

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