LESSON_8-EXOGENIC-PROCESSES.pdf

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EARTH’S MATERIALS
AND PROCESSES
EXOGENIC
PROCESSES
Exogenic processes
are responsible for shaping the
Earth’s surface and forming the
geologic features that are seen on the
surface of the Earth.
come from forces ON OR ABOVE the
Earth's surface
 WEATHERING A

EROSION B

MASS WASTING C

SEDIMENTATION D
WEATHERING
WEATHERING
the process by which rocks break into smaller
pieces whether physically (disintegration) or
chemically (decomposition).
 TYPES OF
WEATHERING
MECHANICAL WEATHERING
the breakdown of rock into smaller pieces by
physical means. (ice, wind, water, gravity,
plants, animals).
There is no change in chemical composition of
rocks.
EXAMPLES OF MECHANICAL WEATHERING
FROST WEDGING- a process in which water freezes in a
crack of a rock and then the expansion edges the rock apart
EXAMPLES OF MECHANICAL WEATHERING
PRESSURE-RELEASE- a process wherein tectonic forces lift
deeply buried rocks close to the surface and then erosion
removes overlying rock, removing the pressure and
causing rock to expand and fracture
EXAMPLES OF MECHANICAL WEATHERING
ABRASION- a process that consists of grinding and
rounding of rock surfaces by friction and impact caused by
waves and glaciers.
EXAMPLES OF MECHANICAL WEATHERING
ORGANIC ACTIVITY- a process in which a crack in a rock
is expanded by plant roots or broke by animals and human
activities.
EXAMPLES OF MECHANICAL WEATHERING
THERMAL EXPANSION AND CONTRACTION- occurs
when temperature changes rapidly, causing the surface of
the rock to heat or cool
CHEMICAL WEATHERING
the process by which rocks break
down as a result of chemical
reactions.
It decomposes rocks through a
chemical change in its minerals.
CHEMICAL WEATHERING

Some of its causes are oxidation,
leaching, hydration, and carbonation.
EXAMPLES OF CHEMICAL WEATHERING
a. DISSOLUTION
- a process in which a mineral or rock
dissolves in water forming a solution like halite
(rock salt) dissolved in water.
EXAMPLES OF CHEMICAL WEATHERING
b. HYDROLYSIS
- a process in which a mineral reacts with
water to form a new mineral that has water as
part of its crystal structure like feldspar to clay.
EXAMPLES OF CHEMICAL WEATHERING
c. OXIDATION
- a process in which a mineral
decomposes when it reacts with oxygen
like the rusting of iron.
EROSION
EROSION
Erosion is the process of
transporting weathered sediment by
agents of erosion and to different
places.
Weathered materials are removed
from the original site and
transported away by natural agents.
AGENTS OF EROSION
 Running water is considered as the major and universal
agent of soil erosion.
 Other causes are gravity, human activities and animals.
AGENTS OF EROSION
 Running water is considered as the major and universal
agent of soil erosion.
 Other causes are gravity, human activities and animals.
TYPES OF EROSION DUE TO GLACIERS
GLACIERS- large, moving
ice that can erode land in
two ways:
a. Plucking
As glacier flows over a fractured bedrock
surface, it loosens and lifts blocks of rock
and incorporates them into the ice.
b. Abrasion
As the ices and its load of rock fragments
slide over the bedrock, they function like
sandpaper to polish and smoothen the
surface below.
MASS WASTING
MASS WASTING
Mass wasting is the mass movement
of rocks and soil.
It is the step that follows weathering.
The driving force of mass wasting is
gravity.
Mass wasting is triggered and controlled by the
following factors:

a. Water- When the pores in sediments become filled with
water, the cohesion among particles is destroyed, allowing
them to slide past one another with relative ease. It also adds
weight to a mass of water causing the material to slide or move
downslope.
Mass wasting is triggered and controlled by the
following factors:

b. Over Steepened Slopes- triggers movements of
unconsolidated granular materials. It produces unstable slopes
and mass movements in cohesive soils, regolith and bedrock.
Mass wasting is triggered and controlled by the
following factors:

c. Vegetation removal- Plants protect against erosion and
contribute to the stability of slopes because their root systems
binds soil and regolith together. When plants are removed or
lacking, mass wasting is enhanced, especially if slopes are
steep and water is plentiful.
Mass wasting is triggered and controlled by the
following factors:

d. Earthquakes- An earthquake and its aftershocks can
dislodge enormous volumes of rocks and unconsolidated
materials.
SEDIMENTATION

The process of separating small
particles and sediments in water. This
process happens naturally when water is
still because gravity will pull the heavier
sediments down to form a sludge layer.