2016
DOI: 10.1016/j.geoderma.2016.04.005
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Pedogenesis significantly decreases the stability of water-dispersible soil colloids in a humid tropical region

Abstract: The stability of soil colloids influences soil physicochemical properties, soil development, and transfer of nutrients and contaminants to surface and ground waters. A better understanding of soil colloids stability dynamics during soil evolution is important for the evaluation of soil's capacity to retain nutrients and/or accommodate toxic contaminants. This study was aimed to determine changes in the stability of water-dispersible soil colloids that accompany mineral transformation and surface charge evoluti… Show more

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Cited by 22 publications
(5 citation statements)
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“…Inorganic molecules in clay can be interconnected through electrostatic attraction, thereby increasing the hardness of particles. The adsorption characteristics of clay also delayed the release of nutrients. , The clay used for granulation in this study contained 80% kaolinite (Table S1), and there was an intercalation phenomenon between kaolinite layers in the urea-water system (Figure S4). Studies have shown that the urea molecules between the kaolinite interlayer were distributed in double layers; the N–H bond and the C–O bond in urea have formed hydrogen bonds with the O–Si and H–O–Al on the upper and lower surfaces of the kaolinite, respectively; the water molecules between the kaolinite interlayer were distributed in three layers; and a small amount of water molecules were adsorbed on the kaolinite’s surface by generating hydrogen bonds (O–H–O–Si) with O–Si bonds, which protected the urea molecules from water immersion and prolonged the time of nutrient release.…”
Section: Resultsmentioning
confidence: 96%
“…Inorganic molecules in clay can be interconnected through electrostatic attraction, thereby increasing the hardness of particles. The adsorption characteristics of clay also delayed the release of nutrients. , The clay used for granulation in this study contained 80% kaolinite (Table S1), and there was an intercalation phenomenon between kaolinite layers in the urea-water system (Figure S4). Studies have shown that the urea molecules between the kaolinite interlayer were distributed in double layers; the N–H bond and the C–O bond in urea have formed hydrogen bonds with the O–Si and H–O–Al on the upper and lower surfaces of the kaolinite, respectively; the water molecules between the kaolinite interlayer were distributed in three layers; and a small amount of water molecules were adsorbed on the kaolinite’s surface by generating hydrogen bonds (O–H–O–Si) with O–Si bonds, which protected the urea molecules from water immersion and prolonged the time of nutrient release.…”
Section: Resultsmentioning
confidence: 96%
“…Wu, Liu, Li [64] found that more than 75% variable surface charge originated from soil organic matter. The reason why soil SOC and Fr-LFOC affect surface charge properties is that soil organic carbon is usually negatively charged, and studies have shown that every 1% increase in organic carbon content, can increase the soil charge by 1 cmol·kg −1 [65]. Soil organic carbon is generally present in organic colloids, and the organic colloid is an amphoteric colloid [66].…”
Section: Discussionmentioning
confidence: 99%
“…4). This could mainly be due to the reduced organic matter along the profile as previous reports indicated that the removal of organic matter from the soil directly reduced the SSA of the soil due to a reduction in the content of soil organic colloids (which are known to have larger surface area than the inorganic minerals in the soil) [73,74].…”
Section: Effect Of Organic Materials On Soil Ssamentioning
confidence: 94%