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Applied Soil Chemistry


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is shown by accomplishment of latosolization even on rocks which are acidic in nature, subject to condition intensity factor are sufficiently large. According to Williams et al., in the year 1949. [60–62], it was reported that minerals chemical weathering is highly comprehensive in cool temperature regions, also in presence of snow cover. Retzer et al., in the year 1949 [63–65], reported mineral colloids formation in the Rocky Mountains old soils, where cold temperature condition exists.

       2.3.2.2 Leaching and Water Contribution

       2.3.2.3 Acidity Factor

      Material pH value and water moving through it has a considerable role in the nature and rate of chemical weathering. As per Jackson et al., in the year 1948 [38], it was reported that the enhancement in acidity has a positive contribution in the rate function of weathering. Graham et al., in the year 1941b [81–83], reported feldspar faster decomposition when acidified clay is present. The procedure shows faster elimination of cations (metallic) by exchange materials and simultaneously hydrogen is released during the process of hydroxylation reaction as the product of weathering. Additionally, with acid saturation exchange, also the influence of specific acid likes sulphuric and carbonic acid should be under consideration. Truog and Attoe et al., in the year 1946 [84–86], reported release of potassium dilute acid from soil. Loss of mica and depotassication, with increment in kaolinite and vermiculite are highly enhanced with the arrival of leaching, which lowers the pH of the soil lower to 7, as reported by Jackson and Hseung in the year 1952 [87–89]. Gibbsite and kaolinite are formed because of the enhancement of the acidic condition of soil, in case of minerals containing high quantity of silica. This was explained by Hendricks and Ross et al. [90–92], in the year 1945, as high rate of elimination of silica and metallic ions due to leaching prior to recombination with sesquioxides. Even though, boehmite, gibbsite, and kaolinite are structurally hydroxyl compounds, but they act chemically like acid anhydrides or insoluble weak acids, weaker in comparison to silicic acid.

       2.3.2.4 Biotic Processes Factor

       2.3.2.5 Reduction and Oxidation Factor