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Soil develops from parent material by the processes of soil formation • The process of formation soil from the hard rock (eg. granite) are divided into two stages • Rock weathering • Soil formation • The mineral matter inherited form rocks are referred to as soil parent material
The principle parent materials of organic soils are formed due to decomposing of plant materials • The most important properties of parent’s materials are texture and mineral composition
Rocks - formed by the cooling of a molton mass called magma • The most common igneous rocks are basalt and granite • Basalt rock - most common lava rock which is the principle hard rock underlying the ocean basins • Basalt rock due to weathering produces a large percentage of clay and less percentage of stone
Granite rock - weathers to coarse grained rocks to produce much sandier soil • Granite usually produces a deeper soil than basalt • Igneous rocks – source - 10% of the earth soil area • The remaining 90% of the land area has a mantle of sedimentary or metamorphic rocks
Sedimentary rocks • Are formed by the cementation of iron of materials deposited by wind, water, ice or gravity • Cementation is by iron, aluminum, silicon, CaCO3 etc) • Sedimentary rocks are shale, limestone, quartz stones etc
METAMORPHIC ROCKS • Are formed under heat and pressure • Sandstone can change to quartzite, shale to slate and limestone to marble
SOIL FORMATION • Weathering - responsible for the formation of the regolith and in turn the soil • Weathering - combination of destruction and synthesis • Simultaneously rock fragments and the minerals therein are attached by weathering forces • These changes are accompanied by a continued decrease in particle size and by release of soluble constituents.
PROCESS OF WEATHERING • Mechanical disintegration • Chemical decomposition I. Mechanical a. Temperature : differential expansions of minerals, frost betion and exfoliation. b. Erosion and deposition – by water ice wind c. Plant and animal influences
II. Chemical a. Hydrolysis b. Hydration c. Carbonation and related acidic processes d. Oxidation e. Solution
MECHANICAL FORCES OF WEATHERING Temperature • Sudden or wide variations of temperature influence the disintegration of rocks • Warming and cooling process are effective in disintegration of parent materials
Freezing of water It widens the cracks and dislodges rocks to fragments • Water Water has a tremendous cutting power in the valleys of rivers • Ice Ice is an erosive and transporting agency which disintegrates rocks • Wind Wind always had been important transporting agent for dust storms • Plants Mosses and lichens produces organic materials - help in disintegration and the growth of roots in the rocks crevices and thus disintegration of rock
CHEMICAL PROCESS OF WEATHERING – DECOMPOSITION • Hydrolysis It is a decomposition reaction especially in case of feldspars & mica • Hydration It is the processes of attachment of H+ and OH- ions to the compounds 2 Fe2O3+3H2O 2 Fe2O3 H2O Hematite (red) Limonite (Yellow)
Units of unit weight and density • The SI unit of mass density (r) is kilograms per cubic meter (kg/m3). • The SI unit of force is Newton, therefore, the unit weights of soils are typically expressed in kN/m3 Relationship between unit weight and density The unit weights of soil in kN/m3 can be obtained from densities in kg/m3as • The density of water rw varies slightly, depending on the temperature. At 4Co , water’s density is equal to 1000 kg/m3 or 1 g/cm3
Carbonation Hydrogen ion, carbonic acid, HNO3, H2SO4 CaCO3 + H2CO3 Ca(HCO3)2 Calcite Carbonic Acid Soluble Bicarbonate • Oxidation Fe++ Fe+++ 4FeO+O2 2Fe2O3 Ferrous Oxide Hematite
Solution Dissolved CO2 and H+ ions Fig. : How various kinds of parent’s material are formed transported & deposited
Soil parent materials or weathered soils • Residual parent material • Alluvial debris • Alluvial stream deposits • Marine sediments • Lacustrine • Glacial • Eolian (Sand size) silt size- Transported by wind
Factors influencing soil formation • Climatic condition - particularly temperature and precipitation • Living organism - especially native vegetation • Nature of parent material – Texture & structure of soil • Chemical & mineralogical composition of soil • Topography of the area • Time of soil formation
Soil profile • Horizontal distribution of soil layers are called soil horizons • The vertical sequence of soil horizons are termed as soil profile • Soil forming processes are grouped under four heads-O,A, Band C Consolidated bed rock.
O Group: The organic horizons which lie above the mineral soil • A group: The mineral horizons which are at or near the surface characterized by maximum leaching • B Group: The layer in which deposition from above or even below • It is the region of maximum accumulation of materials such as oxides of iron and aluminum and silicate clays • These materials may have washed downward from the surface layers or they have formed in the B horizon • In the arid region calcium carbonate and calcium sulphate may be accumulated
A & B horizon together is called the solum • C- Horizon: It is the unconsolidated material underlying the solution. Least weathered accumulation of Ca , Mg carbonate, cementation, some times high bulk density fragipans • R-Horizon: Consolidated bed rock. It may or may not be like the parent rock from which the solution is formed
