Landscapes and Landforms PDF

Summary

This document is about landscapes and landforms, covering topics such as different types of landscapes, their features, and the processes involved in their formation. It includes examples and activities.

Full Transcript

Topic 1

Landscapes
and
landforms

Source 1.1 The Painted Cliffs, Maria Island National Park, Maria Island, Tasmania, Australia
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 Landscapes and
landforms
1
Source 1.2 The Three Sisters, Katoomba, New South Wales, Australia

Before you start convergent (subduction) plate boundary
deposition
Main focus destructive forces
The Earth is made up of many different types divergent plate boundaries
of landscapes and their distinctive landform erosion
features, which are shaped by geomorphic fault lines
processes. geomorphic processes
landform
Why it’s relevant to us landscape
Geomorphic processes directly impact people. tectonic activity
Sustainable human use of land resources transform plate boundary
depends on knowing how landscapes develop weathering
and change.

Inquiry questions Let’s begin
What are the different types of landscapes
Geography is an important subject as it is the
and landforms?
study of places and the relationships between
Do different rocks produce different
people and their environments. In this chapter
landforms?
we discuss different types of landscapes, and
In what ways do weathering and erosion
landforms. A landscape is an area, created by a
contribute to landform development?
combination of geological, geomorphological,
What were the effects of the Tambora
biological and cultural layers that have evolved
volcano eruption in 1815?
over time e.g. riverine, coastal or urban
Key terms landscapes. Landforms are the individual
surface features of the Earth identified by their
collision plate boundary
shape e.g. dunes, plateaus, canyons, beaches,
constructive forces
plains, hills, rivers, valleys.

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 Chapter 1 Landscapes and landforms   25

1.1 Different landscapes and landforms

TOPIC 1: LANDSCAPES AND LANDFORMS
Landforms of varying sizes and example, landforms will
landform the individual riverine associated with
surface features of shapes, when taken together, include a channel, possibly rivers
the Earth identified by are referred to as a landscape. a levee, and a flood plain or arid dry or parched,
their shape e.g. dunes,
Landscapes can be seen and terrace. refers to regions such as
plateaus, canyons,
deserts
beaches, plains, hills, Some landforms, like the
studied on topographic maps.
rivers, valleys channel the hollowed-
There are many different types arid zone dunes found in the out path formed by a
landscape a landscape
Arabian Peninsula or central river or stream
is an area, created of landscapes, including but
by a combination Australia, are very large and levee a sediment
of geological, geo- not limited to: embankment bordering
morphological, biological can extend for hundreds of a channel
and cultural layers that coastal landscapes
kilometres. Other landforms, flood plain low-lying
have evolved overtime riverine landscapes
e.g. riverine, coastal or like individual pedestal ground that is subject to
urban landscapes arid landscapes flooding from a nearby
rocks shaped like an anvil or river
topographic map a mountain landscapes
detailed, large-scale map
mushroom, are generally small terrace a ‘platform’ of
karst landscapes. fairly flat land, often a
of part of the Earth’s and reach only a metre or so in
surface which illustrates former flood plain that
Landforms within each height. Geographers and others has become stranded
the shape of the land
and selected natural and landscape have distinctive by later down-cutting by
try to explain these differences
human features from the the river
surrounding environment features. In downstream in size, shape and grouping of
riverine landscapes, for landforms.

Source 1.3 An example of a coastal landscape at Rottnest Island, Western Australia

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 26  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

Activity 1.1

1 Distinguish between a landform and a landscape.
2 List the types of landforms found in riverine landscapes.
3 Select another type of landscape (for example, a coastal or arid landscape) and list
the types of landforms you may find.

1.2 Geomorphic that have evolved over time in response to
different forces acting on them.
processes
The geomorphic processes
geomorphic
that produce landforms
1.3 Weather and climate
processes natural
processes that transform are both large and small
the lithosphere to create People often use the terms ‘weather’ and
distinctive landscapes in scale. The Earth’s entire ‘climate’ interchangeably, believing they mean
and landforms e.g. surface, whether exposed as
erosion, weathering, the same thing. They certainly are related, but
tectonic activity landmasses or lying beneath their meaning is quite different.
constructive forces the ocean, is constantly being Weather refers to the
those that build new changed by a combination of weather the condition
landforms or add to short-term conditions in a of the atmosphere at
those already there constructive and destructive certain location. Our weather a point in time e.g.
forces acting at different rates; temperature, humidity
destructive forces comes from the layer of
those that wear down it is affected by weathering,
and degrade landforms, the atmosphere closest to
infrastructure and erosion, deposition and the earth’s surface, called
property tectonic activity. the troposphere, and is largely driven by air
weathering the Large-scale plate
breakdown of rocks and pressure. Day-to-day weather conditions vary
sediments into smaller movements, tectonic uplift and in terms of:
particles or a solution volcanic eruptions contribute
erosion the wearing temperature
to new or higher areas of
away of the surface of wind speed and direction precipitation forms
the Earth by the action of ground. At the same time, these of water falling from
wind and water cloud cover the atmosphere to the
surfaces are continuously being
deposition the process precipitation (rain, hail, Earth’s surface e.g. rain,
worn down by weathering and hail, snow, sleet
of eroded material being snow)
deposited erosion, and the products of climate the average
humidity. types of weather,
tectonic activity these processes accumulate
movement of layers of including seasonal
as sediments in lower parts of Climate, on the other hand, variations, experienced
the Earth’s crust known
as plates that move and continents and oceans. Both refers to long-term patterns by a place or region over
float a long period of time
constructive and destructive in a region. Meteorologists
forces are operating, but collect weather data over time
with different intensities and effectiveness at and can determine trends such as seasonal
different times and in different places. When ranges in temperature and average annual
we look at landforms, we are seeing features rainfall. For example, Darwin is classified as

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 Chapter 1 Landscapes and landforms   27

having a tropical climate based upon long- For example, the transportation of already-
term data collected (over months and years). detached quartz grains by wind can cause

TOPIC 1: LANDSCAPES AND LANDFORMS
In comparison, Sydney’s climate is described these grains to then abrade against a rock and
as ‘temperate’. This means that the city tends detach additional particles. On a windy day at
to experience warm days in summer and cool the beach, sand grains will impact against bare
days in winter. legs and do the same to any rocks exposed
Weather is more immediate and short nearby. Loose grains on rock surfaces will
term, whereas climate refers to the long-term then be removed and transported by the
patterns. You could also describe climate as wind. If local topography is
being the ‘average’ of all the weather for a sloping and water erosion is quartz rock composed
of silicon dioxide; a
particular region. active, weathered materials hard mineral that resists
will be transported away weathering
Weathering and from their original site and abrade to wear down
biophysical processes
interconnected erosion moved further downslope.
by rubbing against
something
sequences that form
and transform natural Weathering and erosion are Sometimes sediments will drainage network
environments in a cause- closely linked biophysical be transferred directly into pattern of gullies,
and-effect relationship streams, rivers and lakes
e.g. erosion, deposition, processes, sometimes being drainage networks, but more in a drainage basin that
soil formation, nutrient so connected that it can be usually sediment transport allows water to flow to
cycling the lowest point
difficult to separate them. on hill slopes is a ‘stop–start’

Source 1.4 A landscape produced through soil erosion around Lake Bogoria, Kenya

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 28  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

operation, with temporary the water turbid; this water
depressions sunken turbid cloudy or muddy
places or hollow storage points in small becomes visible in estuaries
estuary a body of water
surfaces depressions or flatter areas. and in any rivers entering formed where fresh water
Sediment that enters drainage the sea. from rivers and streams
flows into the ocean,
lines following heavy rainfall will make mixing with the seawater

Activity 1.2

1 Identify sites in your local area that have been affected by weathering and erosion.
2 Outline how weathering and erosion alter the Earth’s surface.
3 Research via the internet and then list some iconic landforms and landscapes that
have been affected by weathering and erosion.

Deposition at the surface or in ocean depths. At the
surface, the ocean currents are mainly driven
In coastal landscapes
by winds. At depths of more than 400 metres
Coastal landscapes are formed by weathering, the movement of seawater is controlled by
erosion and deposition. Ocean currents and temperature and salinity differences.
tides play large roles in these processes. Each of the major oceans has its own
For most people, the coast means the system of currents due to continents
beach. Beaches can be composed of quartz interrupting oceanic flows. As there are no
sands, calcareous sands (broken pieces of continents to obstruct currents flowing around
shells), volcanic (black) sands
or boulders. The material
hydraulic action
the process of waves making up beaches comes
compressing air within from a combination of rock
gaps in the rock, and
this air being explosively weathering along the coastline,
released when the through hydraulic action
waves retreat
moving sediments from the
longshore drift the
movement of sediment, continental shelf to the beach,
usually sand, shingle or and rivers depositing their load
mud, along a coastline
driven by the direction of in the ocean. Sand or other
the prevailing wind
sediment can be moved along
a coastline by ocean currents
(longshore drift) and be shifted from one end
of a beach to the other.
Ocean currents are large-scale,
Source 1.5 The Disney character Nemo, a clownfish
uninterrupted flows of seawater that follow a like this one here, used the Eastern Australian Current
definite path. Currents can be either mainly (EAC) on his journey in the cartoon film Finding Nemo.

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 Chapter 1 Landscapes and landforms   29

0219 Ocean currents
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TOPIC 1: LANDSCAPES AND LANDFORMS
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We s t wind drift

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Cool current
Warm current

Source 1.6 World map of ocean currents

Antarctica, the west wind drift is the only
uninterrupted global current.
Tides are caused mainly by the gravitational
pull of the moon. A high tide will happen
when the moon and sun are
tidal range difference in aligned, and the largest tides
height between low tide during the year are recorded
and high tide
when the Earth is closest to
the sun. When tidal ranges are
very large, there are usually local topographic
and seabed features that contribute.

Source 1.7 The Hopewell Rocks at the Bay of Fundy,
in New Brunswick, Canada. The Bay of Fundy has the
largest tidal range (15 metres) in the world.

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 30 Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

Note this down 1.1
Copy the graphic organiser below and complete the following tasks.

1 Select one place from each of the following two lists. Locate each place on a map.

2 State why tidal ranges are different at these two locations, using descriptions of the locations
found on the internet.

3 Explain why is it is important for humans to be aware of tidal ranges.

List 1 Location (country Tidal range List 2 Location (country Tidal range
(select one) and description) (m) (select one) and description) (m)
Broome Newcastle
Avonmouth Athens
Bay of Fundy New Orleans

RESEARCH 1.1 //////////////////

Choose two places on the coast in Australia, one in northern Australia and one in
southern Australia.

Describe the coastal landforms in each area.
Identify any differences in landforms between the two areas.
Explain why coastal landforms may not all be the same in northern and southern
Australia.

In riverine landscapes rivers entering the sea often
delta fan-shaped
carry massive amounts of clay, deposit of river
Both deposition and erosion are processes that
silt and sand, and these are sediments found at the
occur in rivers. Large-scale deposition usually mouth of a river
deposited at the river mouth in
happens in the downstream or slow-moving
the form of a delta.
sections of rivers, while major erosion tends to
be concentrated in the upper
reaches.
meandering a series of
wide curves and loops Large rivers can temporarily
of a river channel when deposit sediment within their
viewed from above
channels, usually as a result of
meandering or when the river
flow slows down and is unable to keep moving
all the sediment delivered to the stream. Large

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 Chapter 1 Landscapes and landforms   31

RESEARCH 1.2 //////////////////

TOPIC 1: LANDSCAPES AND LANDFORMS
Research some rivers via the internet and choose one that has slow-moving sections
within it resulting in deposition.

Describe the river and its location.
Differentiate between pools and riffles.
Identify reasons as to why deposition has occurred.
Explain how a billabong (oxbow lake) forms.
List some of the materials contained within the deposition.

Note this down 1.2
Copy and complete the graphic organiser below by answering the following questions.

1 Select two large rivers, one in Australia and one in another country.

2 Using information in your table, make two lists of depositional landforms:
a those associated with both rivers
b those present on only one of the rivers.

3 Make two lists of erosional landforms:
a those associated with both rivers
b those present on only one of the rivers.

4 Discuss the similarities and differences in depositional and erosional landforms associated with
the two rivers selected.

River in Australia (name) River in another country (name)
Rainfall distribution across the
catchment (Heavier in some
parts than others? The same
everywhere? Approximate
amounts?)
Depositional landforms present
1
2
3
Erosional landforms present
1
2
3

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 32  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

In arid landscapes
About 70% of Australia is classified as arid or and deposited by aeolian (wind) processes,
semi-arid due to our low rainfall. In Australian often forming interesting patterns such as
deserts, such as the Simpson Desert, there are longitudinal dunes, crescent-shaped dunes,
many dunes. Sand particles are transported star-shaped dunes and transverse dunes.

Source 1.8 The Simpson Desert and its dunes

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 Chapter 1 Landscapes and landforms   33

TOPIC 1: LANDSCAPES AND LANDFORMS
Ta n a m i D e s e r t

Source 1.9 There are 10 major deserts in Australia including the Great Victoria Desert, the Simpson Desert, the Sandy and
Tanami Deserts. A large proportion of this land belongs to the Aboriginal and Torres Strait Islander peoples.

Activity 1.3

1 Discuss how rivers are agents of both erosion and deposition. Refer to distinct
features you might expect to see as evidence of these processes.
2 Identify why deserts are generally found at a latitude of 30° north or south latitude distance from
of the Equator. Use the ocean currents map (page 29) to explain why the Equator measured in
degrees north or south
deserts are mostly located on the western side of continents or inland.
3 Reflect on whether deserts are always hot and dry (with the exception of
the Gobi Desert and Antarctica).

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 34  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

Geographical fact
People often assume deserts are always hot and dry. Although this is mostly the case, it is also not
accurate. Deserts do receive rain each year, but generally well below average. A desert is classified
as a region receiving less than approximately 250 mm rainfall per year. And deserts can get cool.
Light overnight frosts in winter are not unusual. In Australia, July minimum temperatures are mostly
in the 3–6°C range in our arid regions. The lowest temperatures in an Australian arid area have been
recorded at Alice Springs, where the temperature has fallen as low as –7.5°C.

Source 1.10 The town of Alice Springs is classified as semi-arid, but has experienced temperatures as
low as –7.5°C.

In karst landscapes In limestone terrain,
bedding plane surface
bedding and joint planes between layers of
Karst generally refers to the system of caves
allow surface water to enter deposited materials or
and fissures underground and their unique sandstone that make up
environments. More specifically, it refers to and take calcite into the sedimentary rocks

a situation when water infiltrates into the solution, thereby widening joint planes vertical,
horizontal and angled
Earth’s surface in sufficient quantities, and any existing weaknesses or patterns of cracks in
moves down to a zone of saturation, the fractures. Over time, this may rocks

upper limit of which is termed the water lead to the development of calcite the main mineral
in limestone and marble,
table. Groundwater moves more slowly than underground streams, which composed of calcium
overland flow, as groundwater can only emerge either as springs or carbonate

circulate through small, interconnected pore as fully fledged rivers fed by
spaces within rock or sediment, but it can still underground water. Freshwater
contribute to the formation of landforms. springs appear in the ocean off the coast of

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 Chapter 1 Landscapes and landforms   35

TOPIC 1: LANDSCAPES AND LANDFORMS
Source 1.11 A karst landscape. These landscapes are characterised by eroded rock formations that result in
caves and sinkholes.

Montenegro in the Adriatic Sea, and offshore karst or flat-bottomed valleys
tower karst towers
from Yucatán in the Gulf of Mexico. and tropical-region tower or pinnacles remaining
Limestone regions and those with soluble karst, also occur. When dense, after limestone has been
weathered in tropical
rocks like gypsum have often developed compacted limestone is uplifted, regions
distinctive karst topography due to the action gorges can be cut through the characteristics the
of underground water. On the rock. Because surface water tangible and intangible
elements of a place or
karren small grooves or surface, small-scale features tends to disappear quickly environment
furrows in rock (usually
like karren are common. At into limestone terrain through
limestone) formed by
running water a slightly larger scale, various bedding planes and joints,
other features appear: sinkholes, and then enlarge them, another characteristic
disappearing streams and springs. More of limestone regions is the development of
extensive landforms, like limestone pavements, extensive cave systems.

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 36 Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

Source 1.12 The Nullarbor Plain is the world’s largest limestone karst landscape. Caves are a common feature.

Tectonic activity
Activity 1.4
Plate tectonics movements tend to influence
the formation of mountains over millions of
1 Suggest what conditions lead to years. Tectonic plate movements occur both on
the formation of a desert. continents and on ocean floors.
2 Describe how mountains are
Tectonic activity and volcanoes
formed.
By investigating patterns of divergent plate
3 List two landforms developed in boundaries the point
volcanic activity and the absolute where plates are pulled
limestone by groundwater, and two
amount of continental movement apart, allowing molten
developed in non-limestone areas. rock to emerge at the
over a number of years, Earth’s surface
4 Explain why groundwater is so scientists have proposed that collision plate
important to landform development plates are moving in different boundary the point
in limestone terrain. where two plates of
pathways and at different rates. similar strength or speed
Some plate boundary locations collide
and movements are unclear, convergent
(subduction) plate
and these are referred to as boundary the point
plate boundary zones. Different where two plates are
moving towards each
landforms are associated other and collide, with
with different kinds of plate one plate being pushed
beneath the other;
boundary, giving clues to the the lower plate is the
way plates are behaving. The ‘subducted’ plate

main plate boundary types are transform plate
boundary the point
described as divergent, collision, where two plates slide,
convergent (subduction) or grate or jerk past one
another
transform.

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 Chapter 1 Landscapes and landforms 37

1 Divergent (continental plates) 2 Divergent (oceanic plates)
(e.g. Rift Valley, Africa) (e.g. Mid-Atlantic Ridge)

TOPIC 1: LANDSCAPES AND LANDFORMS
volcano major volcanic activity

crust oceanic plate

magma rises through asthenosphere magma rises through
asthenosphere
weakened crust weakened crust

3 Collision (continental plates) 4 Subduction (continent/ocean)
(e.g. Andes, South America) (e.g. Ring of Fire, Pacific Ocean)

fold mountains trench

continental crust thickening of crust crust oceanic plate
from collision

asthenosphere asthenosphere

5 Transform boundary (plates moving past each other)
(e.g. San Andreas fracture zone)

(a) viewed from above (b) cross section
rocks often
do not match
on either side of
the boundary/fracture

boundary boundary

Source 1.13 Divergent/collision/subducting/transform plate boundaries

Volcanic activity occurs along collision, As many convergent plate boundaries are
convergent and divergent plate boundaries, on or near landmasses, explosive volcanism is
both under the oceans and what people generally experience. The ‘Ring
fault lines lines on the on landmasses, and along of Fire’ around the Pacific Ocean represents
earth’s surface that trace fault lines. Transform plate more than 1000 volcanoes that have appeared
a break
boundaries, where plates move on convergent plate boundaries. Of those
past each other, generally are volcanoes that have erupted during historical
not associated with volcanic activity. Much time, the highest is in the Andes in northern
of the volcanism found along convergent Chile, at an elevation of nearly 7000 metres.
plate boundaries is explosive, while most There is evidence of submarine volcanism
volcanic activity taking place along divergent having taken place over the last 150 years
boundaries involves non-explosive outpourings at depths of about 5300 metres in the Mid-
of lava. Atlantic Ridge (divergent plate boundary).

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 38  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

Source 1.14 Indonesia still has active volcanoes such as Ijen in Java. Ijen has the world’s largest acidic crater
lake, famous for its striking azure colour. Some workers make a living from carrying sulfur out of the crater.

Note this down 1.3
Copy the graphic organiser below and give an example of each boundary type and associated
landforms.

Nature of plate boundary Example (location) Landform/s
Collision Himalayas High mountains
Divergent
Convergent (subduction)
Transform

Activity 1.5

1 Using the internet, locate two maps showing:
a the Pacific ‘Ring of Fire’
b plate movements.
2 Identify the link between the types of plate boundaries around the Ring of Fire
(collision, convergent (subduction), divergent or transform).
3 Consider whether particular types of plate boundaries have caused the Ring of Fire.
4 Investigate the career of a vulcanologist. How do you become a vulcanologist? What
do vulcanologists do? And are there any famous vulcanologists? Choose one and
give a short summary of their career and major findings.

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 Chapter 1 Landscapes and landforms   39

RESEARCH 1.3 //////////////////

TOPIC 1: LANDSCAPES AND LANDFORMS
In groups, select one of the major continental or oceanic plates and use the internet to
gather information about the rate and direction of its movement. Assess what the likely
outcomes of this movement will be over the next century, and share your results with the
class in the form of a PowerPoint presentation.

1.4 Examining a landscape and its landforms
Mountain landscapes
Generally mountains are If the plates have
collision plate anticline the upward
boundary the point formed due to collision plate approximately the same rock bulging of rocks caused
where two plates of boundaries. These boundaries density, the collision forces by compression
similar strength or
occur when plates are moving parts of the landmasses syncline the downward
speed collide
squeezing of rocks
towards one another, resulting upwards. The top of a fold caused by compression
in the plates colliding. Even though plates is known as an anticline,
are moving slowly, they often adjust quickly, whereas the bottom of the
causing earthquakes. fold is the syncline, which represents the
0108 Tectonic plates

Divergent boundaries
Transform faults
Collision boundaries
Subduction boundaries

E u r a s ia n No r t h
p la t e Am e r ic a n
pla t e

Arabi an
pl ate Phi l i ppi nes
A f ri can Caribbean
pl ate Cocos
pl ate plate
plate
Pa c ific pla t e

Na z c a So ut h
I n d ia n – A u s t r a lia n pla t e
p la t e Am e r ic a n
pla t e

Ant a rc t ic pla t e
0 3000 6000 km

Source 1.15 Tectonic plates and their boundary conditions

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 40 Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

nearby rocks that have been folded over themselves or
monocline a simple fold recumbent folds those
that occurs singularly squeezed downwards into a overturned (‘reclining’), so that that have folded over
rather than as part of a convex shape. Monoclines are initially the youngest rocks themselves or appear
series of anticlines and to have flopped over,
synclines a more simple and gentle fold are on the surface. Recumbent strongly folded and
– for example, the Lapstone folds are frequently sighted in squeezed into sharp
folds as a result of great
Monocline at the eastern part strongly folded terrains like the horizontal pressure
of the Blue Mountains Range in New South European Alps.
Wales. Recumbent folds are those that have

Anticline
Recumbent fold
Monocline
Syncline

Imaginary land surface

Source 1.16 Different fold types

Source 1.17 Matterhorn in the Swiss Alps, part of the European Alps, which has many examples of
recumbent folds

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 Chapter 1 Landscapes and landforms   41

Geographical fact Geographical fact

TOPIC 1: LANDSCAPES AND LANDFORMS
The Himalayas mountain range grows by The Nullarbor Plain is the world’s largest
approximately 1 cm a year. Therefore limestone karst landscape, covering 270 000
Mt Everest will be another metre higher in square kilometres. Nullarbor means ‘no trees’.
100 years. Two-thirds of the Nullarbor is in WA and one-
third in SA.

Source 1.18 A famous example of an anticline
is the Himalayas, where the Indo-Australian
Plate is moving northwards and the Eurasian Source 1.19 The karst landscape of the
Plate is moving southwards. Nullarbor plain

Volcanoes tonnes of sulfur – more than six times the
amount from Mt Pinatubo (Philippines) in
In 1815, the largest volcanic eruption during
historical times took place in the Flores Sea 1991 – and large amounts of fluorine, which is

near Lombok in Indonesia. Tambora had toxic to people and livestock. The violence of
been considered an extinct volcano until then, the eruption sent plumes of ash up to 43 km
when approximately 50 km3 into the atmosphere, and explosions could be
caldera large basin- of dense rocks were ejected. heard up to 2000 km away.
shaped depression During the worst few days of the eruption,
caused when the summit Before the eruption, Tambora
of a volcano collapses stood at about 4300 metres many places within 600 km of the volcano
into the magma chamber
but the summit exploded, remained ‘pitch black’, and air temperatures
below or explosions
destroy the summit leaving a caldera measuring 6 dropped dramatically. Global temperatures may
pumice a light-coloured km wide and 1 km deep. The have dropped by up to 3°C. The after-effects of
rock with many holes
(vesicles) due to gases new summit reached only 2850 the volcanic eruption were severe. Immediately
mixing with rapidly metres, a collapse of nearly following the eruption and associated
solidifying lava and
trapping multiple air 1.5 km. Apart from massive earthquakes, tsunamis reached a maximum
bubbles. Pumice is light pumice flows, the volcano height of 4 metres and inundated low-lying
and floats on water.
ejected an estimated 60 million coastal areas. Ash build-up caused buildings to

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 42  Geography NSW Syllabus for the Australian Curriculum Stage 4 7 & 8

collapse and people had difficulty breathing. Hemisphere. On the positive side, sunsets and
At least 71 000 people are estimated to have twilights in places like London were spectacular.
died during the eruption or immediately However, the year following the eruption –
afterwards, when no food or uncontaminated 1816 – was called the ‘year without a summer’
water was available. in northeast North America and Europe. That
Up to 3 years after the eruption, pumice and year, the weather was much wetter than usual
tree trunks formed sea-borne rafts up to 5 km and cold temperatures shortened the growing
across, and posed a major hazard for shipping. season. Grain crops failed, potatoes rotted in
The massive quantities of ash ejected into the the wet ground and people suffered from major
atmosphere had climate impacts in the Northern outbreaks of typhus.

Source 1.20 This detailed astronaut photograph depicts the summit caldera of the volcano. The huge caldera –
6 kilometres in diameter and 1100 metres deep – formed when Tambora’s estimated 4000-metre high peak was
removed, and the magma chamber below emptied during the 1815 eruption.

Activity 1.6
Geographical fact
1 Locate the Tambora volcano on a map.
Pumice stones were used by clothing
2 Identify whether the Tambora volcano manufacturers to produce the original stone-
lies on or near a plate boundary. washed jeans.
3 Assess two impacts of the Tambora
eruption on human populations.

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 Chapter 1 Landscapes and landforms   43

Chapter summary

TOPIC 1: LANDSCAPES AND LANDFORMS
There are many different types of Rivers are agents of both deposition and
landscapes, including coastal, riverine, arid, erosion e.g. deltas.
mountain and karst. Arid regions tend to be deserts, often found
‘Weather’ and ‘climate’ do not have the around a latitude of 30° north/south of the
same meaning. Weather refers to daily Equator.
conditions in a particular location. Climate Karst landscapes are limestone regions
refers to long-term patterns in a particular where underground water causes distinctive
region. landforms such as karst towers or caves.
Landforms are created by weathering, Convergent, divergent, subduction and
erosion, transportation and deposition. transform plate boundaries lead to different
Coastal landforms are formed by types of landforms.
weathering, erosion and deposition,
particularly by water like the ocean e.g.
tides and ocean currents.

End-of-chapter questions
Short answer Extended response
1 List the two forces which act at different To what extent are landforms developed as
rates that contribute to the geomorphic a result of plate movements? Discuss this
processes that produce landforms. question in a short report by giving examples
2 Describe a karst landscape. of both large-scale and small-scale landforms,
showing your understanding of the role of plate
3 A year after the eruption of the Tambora
movements in landform development. What
volcano in 1815 what was the term for
other factors may affect landform formation?
the year in northeast North America and
Europe?

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