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Lec25 Deserts

Deserts cover about 25% of the Earth's land surface and are primarily controlled by plate tectonics, characterized by extreme dryness and specialized ecosystems. There are various types of deserts, including subtropical, rain shadow, coastal, continental interiors, and polar deserts, each with distinct features and processes such as erosion by water and wind. Unique geological processes in deserts lead to specific landforms and soil characteristics, including desert varnish and wind erosion features like ventifacts and yardangs.

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12 views21 pages

Lec25 Deserts

Deserts cover about 25% of the Earth's land surface and are primarily controlled by plate tectonics, characterized by extreme dryness and specialized ecosystems. There are various types of deserts, including subtropical, rain shadow, coastal, continental interiors, and polar deserts, each with distinct features and processes such as erosion by water and wind. Unique geological processes in deserts lead to specific landforms and soil characteristics, including desert varnish and wind erosion features like ventifacts and yardangs.

Uploaded by

golar89685
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© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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ES313 Geomorphology and Earth Surface Processes

Dry Regions:
The Geology of Deserts

Part 1
• Deserts cover ~ 25% of land surfaces.
• The primary control on deserts? Plate tectonics!
• Unique and lovely, deserts are characterized by…
Deserts • Extreme dryness. They may be hot or cold.
• Specialized ecosystems and low human populations.
• Unique geologic processes.
• Land that is so extremely arid, that…
What Is a • Evaporation prevents permanent surface water.
Desert? • Vegetation covers less than 15% of its surface.
• Annual rainfall amounts to less than 10” (25 cm).
• Desert types exist in both hot and cold climates.
Hot vs. Cold Deserts • Hot deserts.
• Low latitudes.
• Low elevations.
• Far from oceans.

• Cold deserts.
• High latitudes.
• High elevations.
• Near cold ocean currents.
Desert Features

• Desert land surfaces often


include…
• Exposed bedrock.
• Accumulated clasts.
• Unweathered sediment.
• Precipitated salt.
• Windblown sand.
Types of Deserts
• 5 types – With distinctive
landscapes and biota.
• Subtropical deserts - Sahara,
Arabian, Kalahari, Thar.
• Rain shadow deserts - Eastern
Oregon).
• Coastal deserts - Atacama
(Peru).
• Continental interiors - Gobi
(Mongolia).
• Polar deserts (Antarctica).
• Due to patterns of atmospheric
convection.
Subtropical Deserts • Equator – 0o latitude.
• Solar energy evaporates
water, which rises as hot,
moist air.
• Rising air cools and
expands, forming
abundant rain.
• This air, stripped of
moisture, flows to the N
and S.
• Subtropics – 20o- 30o N & S.
• Sinking dry air wicks
water.
• Landscape below dries.
• Earth’s largest deserts.
Subtropical
Deserts
Arabian
Sahara
desert
desert

Namib and
Kalahari
desert
• Moist ocean winds are driven over mountains.
• Windward air is forced to rise, expand, and cool.
Rain shadow • Moisture condenses, becomes rain, and creates a rain
Deserts forest.
• Leeward air, stripped of moisture, sinks and drinks.
• Sinking air warms, compresses, and sucks water
out of land.
• Cool air over cold ocean water holds little
moisture.
• This air absorbs moisture when it
Coastal Deserts interacts with land.
• The Atacama desert (Peru) is the driest
place on Earth.
• Air loses moisture as it crosses continents.

Interior Deserts • Land far from ocean moisture can be arid.


• The Gobi desert in Mongolia is a prime
example.
• Above 66º N and S latitude there is little moisture.
Polar Deserts • Air circulation carries dry air to polar regions.
• It is so cold that the air can’t hold moisture.
Desert Processes • Deserts are characterized
by special processes.
• Erosion by water and
wind.
• Weathering.
• Soil formation.
• Deposition.

• These processes result in


unique landscapes.
• Physical weathering dominates.
Weathering • Rare chemical weathering leaches ions.
• Evaporation salts both break and cement grains.
Prehistoric rock paintings (petroglyphs) in rock shelters at
Bhimbetka, a world heritage site

• Exposed surfaces develop desert varnish.


• Dark surface coating of iron and manganese oxides.
Desert • Forms very slowly by bacterial activity, dust, and water.
• Native Americans left petroglyphs in desert varnish.
Varnish • Rock paintings at Bhimbetka, Bhopal.
• Petroglyph rock art at Daraki-Chattan near Bhanpura in Mandsaur, MP –
world’s oldest rock rock art (2-5 lakh years old)
• Desert soils are thin, with poorly defined horizons.
Desert Soils • They usually are colored like the bedrock nearby.
• Trace elements orchestrate wide color variations.
• Though rare, water shapes landscapes.
• Lack of roots magnifies sediment erosion and
transport.
Water Erosion • Torrential rains generate dangerous flash floods.
• Rapid flow of thick, muddy, and viscous water.
• Flash floods quickly infiltrate dry stream beds.
• Sparsely vegetated ground is
Wind Erosion and scoured by wind.
Transport • Sand and silt-sized sediment is
lifted and moved.
• Surface load – Grains
moved in contact with
land surface.
• Saltation – Sand skipped
and bounced by grain
impact.
• Suspended load –
Sediment carried in the
air.
• High winds can carry dust
across entire oceans.
Wind Erosion and
Transport
• Coarse clasts cannot be lifted and
moved by wind.
• Lag deposits form when finer
sediment is removed.
• Form desert pavement, a surface layer
of stones.
• Desert pavement is resistant to
erosion.
• Often coated with desert varnish.
Wind Erosion and Transport Ventifacts

Yardangs
• Grains in wind often “sandblast”
exposed surfaces.
• Ventifacts - Stones with wind-faceted
upper surfaces.
• Yardangs – Wind-sculpted bedrock
(also called Pedestal Rock).
Wind Erosion and
Transport • Deflation – Lowering
the land surface via
erosion.
• Concentrated wind
erosion creates a
blowout.
• Desert processes are
clearly operating on
Mars.

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