EFFICIENCY OF BIOCHAR FOR CADMIUM IMMOBILIZATION IN CONTAMINATED SOIL

Abstract

Biochar is an alternative cost effective adsorbent for removing of cadmium (Cd) from aqueous solution. The process of carbonization of cassava stem and rice husk were made by pyrolysis at the temperature of 300, 400, and 500ºC. The obtained biochars were activated by an alkaline solution of 1.63 M of KOH plus second pyrolysis. Adsorption efficiencies were studied using the batch static method under laboratory conditions. The Cd removal efficiency of activated cassava stem and rice husk biochar were increased from 52.43-59.17% to 79.28-84.45% and 13-20% to 95-97%, respectively. The activated biochar at a pyrolysis temperature of 300ºC showed the highest Cd removal efficiency both cassava stem and rice husk biochar. The study on the use of biochar to immobilize Cd in soil was conducted in greenhouse condition. The cassava stem biochar was produced through low temperature pyrolysis was applied to natural Cd contaminated soil that also had a high zinc concentration. The green bean plant, Vigna radiata L., was planted in three different application rates of biochar-amended soil, including 5, 10 and 15%, respectively. The results showed the positive effect of biochar on promoting plant growth with 10% biochar-amended soil the optimum concentration for stimulating plant growth and seed yield and 15% biochar-amended soil causing an adverse effect to plant growth. The biochar significantly reduced Cd and Zn bioavailability in soil by increasing biochar concentration. Contradictory, the increase of Cd uptake in plants was observed with increasing biochar concentrations, but cause no significant change for Zn uptake. The results also showed that the combined approach of biochar-amended soil can promote plant growth and increase Cd uptake could be an alternative cost-effective method for decreasing Cd mobility in soil. Cd bioaccumulation in plant root to soil was higher than one, while the translocation factor from root to shoot was less than one. This indicated that cultivation of V. radiata L. coupled with biochar addition is an appropriate method for enhancing phytostabilization efficiency of V. radiata L. in Cd polluted sites.