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the results of this study show that the two forms of biochar produce a great impact on the organic matter in the soil. the quantitative values of om are also related to the amount of biochar that is added to the soil (wang et al. 2015). the addition of both rice husk and sugarcane bagasse biochar increases the om content of the soil. the highest om value was observed in the soil amended with 10% uncharred sugarcane bagasse biochar. however, the application of the biochar generally reduced the total n (tn) content of the soil. the decrease in the tn content may be due to the adsorption of the nutrient content of the raw material onto the biochar. also, the interaction between the biochar and the soil may affect the nitrogen transfer process, thus decreasing the soil nitrogen content.
the results in fig. 1 and table 2 indicate that the application of both uncharred and charred rice husk and sugarcane bagasse can reduce the amount of soil cracking compared to the control. however, the rate of reduction was much higher for the biochar-amended soil than for the uncharred and charred rice husk and sugarcane bagasse-amended soils. in other words, the application of rice husk and sugarcane bagasse in combination with biochar can reduce the formation of desiccation cracks much more effectively than the application of either of these materials alone.
the results also show that the biochar application did not reduce the occurrence of desiccation cracking (table 2 ). this might be due to the high water holding capacity (whc) of the biochar, which assists in maintaining soil moisture and prevents the formation of cracks (zong et al. 2014 ). the whc of biochar increases as its temperature increases. at 250°c, the whc of the biochar is approximately 10%. as the temperature increases, the whc of the biochar increases. at 500°c, the whc of the biochar is about 80% (dasari and bhattacharya, 2015). the desiccation cracks were bigger in the control than in the amended soils. this is due to the fact that the biochar and the uncharred and charred rice husk and sugarcane bagasse provide a net negative charge to the soil by carrying hydrogen (h+) and electrons. as these materials adsorb positively charged ions (h+) in the soil solution, their net charge becomes positive (dasari and bhattacharya, 2015). these negative charges can minimize the formation of cracks by counteracting the swelling force of the soil caused by the negative charges of the clay particles (zong et al.
the shrinkage of soil, in turn, is mainly caused by the swelling of the soil. shrinkage of soil causes cracks in the soil. shrinkage of soil also causes the loss of soil mass and the loosening of soil particles. therefore, an investigation was conducted to evaluate the shrinkage of soil, and the effect of raw materials and biochars on the shrinkage of the soil was determined. the study aimed to provide a better understanding of the impact of organic materials towards the shrinkage of expansive soils. in the first phase of the study, the effect of varying amounts of rice husk and sugarcane bagasse (raw material and biochar) applications towards the shrinkage of the soil was determined. to accomplish this aim, the shrinkage of soil was measured, and the effect of these materials on the shrinkage of the soil was determined. the study also investigated the effect of these materials on the shrinkage and cracking dynamics of the soil. the study also aimed at providing a better understanding of the impact of organic wastes towards the shrinkage behavior and cracking dynamics of expansive soils as well as to gain a deeper insight into the factors controlling soil expansion.
in the current study, the effect of varying amounts of rice husk and sugarcane bagasse (raw material and biochar) applications towards the shrinkage of the soil was determined. in this study, the shrinkage of soil was measured, and the effect of these materials on the shrinkage of the soil was determined. the study also investigated the effect of these materials on the shrinkage and cracking dynamics of the soil. the study also aimed at providing a better understanding of the impact of organic materials towards the shrinkage behavior and cracking dynamics of expansive soils as well as to gain a deeper insight into the factors controlling soil expansion.
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