Weathering and Soil Formation
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Transcript Weathering and Soil Formation
Weathering and Soil
Formation
What is
weathering?
Weathering
The breaking down of rocks and other
materials on the Earth’s surface
2 types:
Mechanical
Chemical
Mechanical weathering
Rocks are broken into smaller pieces and
different shapes
Chemical makeup of rocks does not
change
Beginning of process: rocks are sharp
and angular
As process continues, rocks are smooth
and have rounded edges
Mechanical Weathering
Caused by several agents:
Temperature
Frost action
Organic activity
Gravity
Abrasion
Temperature
During the day, sun heats outside of rock and it
expands
During the night, the outside of the rock cools
and contracts
Cycle of heating and cooling continues each
day, and parts of rock crack or peel off
Causes exfoliation: rocks break off in curved
sheets or slabs
Frost Action: see
demonstration
Frost Action
Water gets into cracks of rocks, where it
freezes
Freezing water expands inside crack of
rock, and crack grows until it forces rock
to break
Can you think of examples of this you
have seen before?
Organic Activity
Roots of plants loosen rocks
Plant growing in a rock’s crack can make
crack grow as roots grow and spread
Called root-pry: breaking apart of rocks
caused by plant roots
Gravity
Gravity pulls loose rocks down cliffs of
mountains: called a landslide
Rocks that fall collide with other rocks
and break them into smaller pieces
Abrasion
Wearing away by solid particles carried in
the wind and water
wind and water pick up particles that
have been eroded
Sharp edges of sand and particles cut
into exposed rocks
Chemical Weathering
Weathering that causes changes in the
chemical makeup of rocks
Minerals can be added or removed from
rocks
Substances react chemically with rocks
and break them down
Causes of chemical
weathering
Water
Oxidation
Carbonation
Sulfuric Acid
Plant Acids
Water
Can dissolve minerals that hold rocks
together
Can form acids when it mixes with certain
gases
These acids speed up rock decomposition
Can combine with a mineral to form a
new mineral
Oxidation
Process in which oxygen combines with
another substance
Forms a new substance
Example: iron and oxygen combine to
form iron oxide (rust)
Indicated by its color
Carbonation
Carbonic acid reacts chemically with
other substances
Carbonic acid: weak acid formed when
carbon dioxide dissolves in rain
Sulfuric acid
Sulfur oxides are a byproduct of burning
coal
When sulfur oxides dissolve in rainwater,
they form sulfuric acid
Sulfuric acid is a strong acid that quickly
wears away rocks and metals
Plant acids
Plans produce weak acids that dissolve
certain minerals
Example: mosses, which grow in damp
areas, produce weak acids that seep into
rocks and dissolve certain minerals
Rate of weathering
Rate of weathering: how fast weathering
takes place
Depends on several factors:
Type of rock
Stable rock: rock that can resist chemical
weathering
Time
Size of exposed surface area
Assignment – pick one!
Draw a comic strip (at least 6 frames) that
shows the difference between mechanical
and chemical weathering and gives 2
examples of each.
Pretend you are a rock. Write a plea to
nature asking it to stop weathering you so
much. Your plea must show the difference
between mechanical and chemical
weathering and give 2 examples of each.
Due Friday, 2/26
What do you think happens to the small
pieces of rock that are broken off by
weathering?
They form soil!
Soil is formed when rocks are
continuously broken down by
weathering.
Why do we need soil?
Why we need soil
Very important for all living things
Plants need minerals and water found in
soil to grow
Animals either eat these plants or eat
other animals that eat the plants
Humans eat plants or eat the animals
that eat the plants
Soil
Residual soil: soil that remains on top of
the rock it came from
Transported soil: soil that moves away
from its origin
Bedrock: layer of rock beneath the soil
Soil from organic material
Humus: part of the soil formed by
decaying organic material
Comes from living things
Decay means to break down plants and
animals into what they are made of
Humus is important for plant growth (fills soil
with nutrients plants need)
What do you think soil is
made of?
Ingredients of soil
2 main ingredients:
Humus (organic material)
Pieces of weathered rock (80% of soil)
Most abundant minerals: clay and quartz
Other ingredients:
Air
Water
Where is the air and water?
Pore spaces: space between soil
particles
Fill with air and water
Plant roots get the oxygen they need
from the air found in pore spaces
Plants use minerals that are dissolved in
the water in pore spaces
Soil Composition Varies
Different types of rocks being broken
down = different types of soil
Different types of weathering = different
types of soil
Mechanical weathering: soil is similar to rock
being weathered
Chemical weathering: soil is different from
rock it came from
Soil Texture
Different size particles give soil different
texture
Largest particles: gravel (2-64 mm in
diameter)
Gravel breaks down into sand (less than
2 mm in diameter)
Silt is made of broken rock crystals (less
than 1/16 mm in diameter)
Clay has smallest particles (less than
1/256 mm in diameter)
Soil has layers
Layers of soil are called horizons
You can take a cross section of soil to
see the different horizons – called a soil
profile
Soil with 3 layers: mature soil
Soil with 2 layers: immature soil
Uppermost layer
Called the A horizon
Soil here is topsoil
Contains mostly humus
Living organisms add minerals to it
regularly
Many pore spaces
Fertile soil – good for planting
Middle layer
Called the B horizon
Soil here is called subsoil
Minerals are washed by water from
topsoil down into B horizon: called
leaching
Made of minerals from leaching, clay,
and some humus
Bottom layer
Called the C horizon
Made of partly weathered rock
Continues until you reach the
unweathered parent rock
Composition is similar to parent rock
below the soil
Factors affecting soil
formation
Type of weathering
Climate: How can rain and temperature
change things?
Type of rock
What the region looks like