Two main types of weathering are mechanical and chemical. Mechanical weathering involves physical breakdown of rocks without chemical changes, such as through frost wedging or salt crystal growth. Chemical weathering involves chemical reactions that break down minerals, such as oxidation or hydrolysis reactions with air or water. The rate of chemical weathering is influenced by climate factors like temperature and rainfall. Over time, weathering of rocks forms soil through the accumulation of mineral particles and organic materials. Different climate and relief conditions lead to different soil types.
2. Two types of weathering are recognized: mechanical
and chemical. Both proceed at the same time, but at a
given site one type will be predominant.
In their resistance to weathering, rocks are not
homogeneous. One may weather faster or slower than
another. Parts of the same rock may weather at
different rates.
Introduction:
3. weathering
• Mechanical weathering – physical breakdown of
rocks without changing the composition (freeze
thaw)
• Chemical weathering – breakdown of minerals by
chemical reactions with air or water
4. Chemical Weathering
2 3
1
solution Oxidation Hydrolysis
When soluble minerals such as halite
(NaCl) come in contact with water, the
positively charged sodium ions are
attracted to the negative end of the water
molecules, and negatively charged
chloride ions are attracted to the positive
end of the water molecules .
Oxidation is a chemical
weathering reaction whereby
metal elements like iron
combine with oxygen to form
oxides.
In the chemical weathering reaction
known as hydrolysis, hydrogen ions
(H+) contained in water replace
positive ions in a mineral.
6. How does
soil form?
●
formed from the
weathering of rocks. It is
made up mainly of
mineral particles,
organic materials, air,
water and living
organisms.
9. Mechanical
Weathering
When a rock undergoes mechanical weathering, it is
broken into smaller and smaller pieces. In nature, four
physical processes are especially important in breaking
rocks into smaller fragments. These including frost
wedging, salt crystal growth, expansion resulting from
unloading, and biological activity.
10. Another expansive force that can split rocks is created
by the growth of salt crystals. Rocky shorelines and arid
regions are common settings for this process to occur.
Salt crystals weaken the rock by pushing apart the
surrounding grains or enlarging tiny cracks in exposed
rock formations.
(SALT CRYSTAL GROWTH)
(Frost wedging)
Frost wedging is the process by which water seeps
into cracks in a rock, expands on freezing, and
thus enlarges the cracks.
Mechanical weathering
11. Mechanical weathering
Granite layers form when large masses of igneous rock
are exposed by erosion. The outer layers expand more
than the rock below and thus separate from the rock
body. Continued weathering eventually causes the slabs
to separate and spall off, creating exfoliation domes.
(SHEETING)
Weathering caused by plants, animals and
microorganisms. Plants, animals, and microorganisms
release acid-forming chemicals that cause weathering
and also contribute to the cracking of rocks and
landforms. It is the disintegration of rocks as a result of
the action of living things.
(Biological activity)
14. yer on the Earth's surface. It is made up
erial. It is usually made up of weathering
composed of mainly water and nutrients
supports life and hence it can be ideal
r plant growth (Akitt, 2018).
Desecribing soil
16. Resources of this presentation
● Akitt, J. W. (2018). Some observations on the
greenhouse effect at the Earth's
surface. Spectrochimica Acta Part A: Molecular
and Biomolecular Spectroscopy, 188, 127-134.
● Malyan, S. K., Kumar, A., Baram, S., Kumar, J.,
Singh, S., Kumar, S. S., & Yadav, A. N. (2019). Role
of fungi in climate change abatement through
carbon sequestration. In Recent advancement
in white biotechnology through fungi (pp. 283-
295). Springer, Cham.
●
● Prosvirnikov, D. B., Baigildeeva, E. I., Sadrtdinov, A.
R., & Fomin, A. A. (2017, May). Modelling heat and
mass transfer processes in capillary-porous
materials at their grinding by pressure release.
In 2017 International Conference on Industrial
Engineering, Applications and Manufacturing
(ICIEAM) (pp. 1-7). IEEE.