Chemistry of Soil (CHM031) PDF

Summary

These notes cover the chemistry of soil, including soil colloids, horizons, weathering and erosion. The document also includes information on the rock cycle and types of rocks.

Full Transcript

Chemistry of Soil
Learning Objectives

Discuss the different types of soil colloids and
their properties.
 Greek: geo (earth), sphaira (ball/
globe)
portion of the earth that includes
the earth's interior, rocks and
minerals, landforms and the
processes that shape the earth's
surface.

http://kidspressmagazine.com/science-for-kids/misc/misc/layers-earth.html

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 (Mohorovičić discontinuity)

http://clarkscience8.weebly.com/earth-layers.html 4
http://clarkscience8.weebly.com/earth-layers.html

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http://clarkscience8.weebly.com/earth-layers.html

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ELEMENT ATOM % MASS %
Oxygen 53.3 49.5
Silicon 15.9 25.7
Hydrogen 15.1 0.9
Aluminum 4.8 7.5
Sodium 1.8 2.6
Iron 1.5 4.7
Calcium 1.5 3.4
Magnesium 1.4 1.9
Potassium 1 2.4
All others 3.7 1.4
TOTAL 100 100

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Lithosphere is mainly rocks and minerals.
Prominent among these are:

a. Silicate minerals (compounds of metals with
Si and O)
b. Carbonate minerals (metals combined with C
and O)
c. Oxide minerals (metals combined with O only)
d. Sulfide minerals (metals combined with S
only)

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Some non-silicate minerals of economic importance
MINERAL TYPE NAME CHEMICAL FORMULA SOURCE AND/OR USE

1. Oxide Hematite Fe2O3 iron ore; pigment

Magnetite Fe3O4 iron ore

Corundum Al2O3 gemstone; abrasive

2. Sulfide Galena PbS lead ore

Chalcopyrite CuFeS2 copper ore

3. Carbonate Calcite CaCO3 cement; lime

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▪ The upper layer of earth in which
plants grow
▪ typically black, dark brown or
reddish material consisting of a
mixture of organic remains, clay and
rock particles
▪ Natural product formed from
weathered rock by the action of
climate and living organisms

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 Weathering – alteration and breakdown of rock minerals and rock
masses when they are exposed to the sun, wind, rain or organisms
Physical weathering – mechanical disruption of rocks (granular
disintegration, exfoliation, etc.)
Chemical weathering – caused by OH-, mild acids, as well as H2O
& temperature
Biological weathering – due to vegetation, animals or
microorganisms
Erosion – the removal or transport of weathered/broken rock
materials downslope, and away from the original site of weathering;
may be aided by gravity, wind or water

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 zone of
leaching

zone of
accumulation

https://www.pmfias.com/soil-profile-soil-horizon-soil-types-sandy-clayey-loamy/
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▪ Most active portion of the soil and determine
the physical and chemical properties of a soil
▪ They are made up of the smallest particles of humus
and clay in the soil
▪ Only particles less than 0.001 mm are officially defined
as colloids
▪ Humus particles are tiny pieces of organic matter and
known as organic colloids
▪ Clay particles are known as inorganic colloids
Clay – any particle that is less than 0.002 mm in size

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1. Crystalline silicate clays
Phyllosilicates → tetrahedral and octahedral crystal
sheets
2. Non-crystalline silicate clays (Andisols)
Dominantly amorphous clays (allophane and imogolite)
3. Iron and aluminum oxides (Oxisols)
Dominantly gibbsite (Al oxide) and goethite (Fe oxide)
4. Organic (humus) colloids (Histosols)
Non-crystalline colloids dominated by long C-chain
molecules

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Phyllosilicates
Also called sheet silicates
Group of minerals that includes the micas, chlorite,
serpentine, talc and clay minerals
Basic structure of phyllosilicates is based on
interconnected six member rings of SiO4-4
tetrahedra that extend outward in infinite sheets
3 out of the 4 oxygens from each tetrahedral are
shared with other tetrahedral, which leads to a
basic structure of Si2O5-2

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Phyllosilicates
Most phyllosilicates contain the
hydroxyl ion, OH-, with the OH- located
at the center of the 6-membered rings
Thus, the group becomes Si2O5(OH)-3

https://www.tulane.edu/~sanelson/eens211
/phyllosilicates.htm

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Phyllosilicates
Examples of Phyllosilicates

Talc (soapstone)

Mica group: muscovite, biotite

Chlorite group
Phyllosilicates : TALC
also called soapstone
has the formula Mg3Si4O10(OH)2
Occurrence: found in low grade
metamorphic rocks that originated
as ultrabasic to basic igneous rocks
Rocks composed almost entirely of
talc have a greasy feel and referred Talc mine in Pakistan

to as soapstone

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 e.g. granite,
obsidian

e.g. marble,
gneiss

e.g. limestone,
sandstone

http://www.cet.edu/ete/modules/msese/earthsysflr/rock.html
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Phyllosilicates : MICA GROUP
Mica Group: Muscovite and Biotite
Muscovite (Al2K2O6Si)
Common constituent of Al-rich medium
grade metamorphic rocks
Also found in siliceous, Al-rich plutonic
igneous rocks (muscovite granites) but
has not been found as a constituent of
volcanic rocks
Has white to sometimes light brownish
color
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Phyllosilicates : MICA GROUP
Mica Group: Muscovite and Biotite
Biotite (K(Mg,Fe) 3(AlSi 3O 10)(F,OH) 2)
Found in hydrous ultrabasic rock like
kimberlite
Common in trachytic volcanic rocks,
granitic plutonic rocks and a wide
variety of metamorphic rocks
Brown to black in color

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Phyllosilicates : CHLORITE
Chlorite – has a complicated formula: (MgFeAl)3(SiAl)4O10(OH)6
Common mineral in low grade metamorphic rocks, where it occurs
in association with minerals like actinolite, epidote and biotite
In hand specimen, it is characterized by its green color; may be
green to pale yellow

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Andisols
Andisols – non-silicate crystalline clays; e.g. allophane and
imogolite
Volcanic ash is chemically/mineralogically distinct from most
other soil parent materials.
Composed largely of vitric or glassy materials containing
varying amounts of Al & Si.
It lacks a well-defined structure (i.e. amorphous), and is
quite soluble.

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Andisols Allophane
Allophane and Imogolite are common early-
stage residual weathering products of volcanic
glass and both have poorly-ordered structures.
Allophane forms inside glass fragments where
Si concentration and pH are high and has a
characteristic spherule shape.
Imogolite tends to form on the exterior of
Imogolite
glass fragments under conditions of lower pH
and Si concentration, and has a characteristic
thread-like morphology.

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Sesquioxides or Oxisols
Sesquioxides – iron and aluminum oxides
Dominantly gibbsite (Al-oxide) and goethite (Fe-
oxide)
Gibbsite
Found in many soils
Especially important in highly weathered soils of
warm humid regions
Consist of mainly either Al or Fe atoms coordinated
with O atoms;
Some, such as gibbsite (Al-oxide) and goethite (Fe-
oxide), form crystalline sheets; others form
amorphous coatings on soil particles Goethite

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Sesquioxides or Oxisols
The surface plane of
covalently bonded hydroxyl
groups gives these colloids
the capacity to strongly
adsorb certain ions

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Histosols
Humus – also called organic soil colloids; non-crystalline colloids
dominated by long C-chain molecules
1. Important in nearly all soils. They are not mineral or crystalline in
nature
2. Consist of long convoluted chains and rings of carbon bonded to
H, O and N
3. Very high capacity to adsorb water
4. Have high amounts of both positive and negative charges, but
net charge is always negative

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Histosols

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