Simulated In-Situ Immobilization of Heavy Metals in Selected Soils of Karnataka

Prasanna Meenakshi Suguru
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引用次数: 1

Abstract

Chemical remediation of heavy metal infested soils is gaining importance owing to the multifaceted approach in creating ideal physical, chemical and biological conditions in the rhizosphere ensuing higher productivity. Three representative soils belonging to Alfisols, Vertisols and Ultisols spiked with 100 ppm of each Pb, Ni and Cd was treated with ameliorants like agricultural lime, potassium di-hydrogen orthophosphate (KH2PO4) and compost. Sequential extraction procedure was adopted to determine the phyto-available fraction constituting water soluble, exchangeable and carbonate bound metal with the perspective of remediation. Potassium di-hydrogen orthophosphate was the most effective chemical in attenuating Pb as indicated by the lowest phyto-available fraction in soils followed by agricultural lime and compost. For Cd, agricultural lime was superior to other amendments in all the soils. However, among the different ameliorants compost was most efficient in immobilizing Ni in all the soils.
卡纳塔克邦土壤重金属模拟原位固定化研究
由于在根际创造理想的物理、化学和生物条件从而提高生产力的多方面方法,重金属侵染土壤的化学补救越来越重要。用农业石灰、正磷酸二氢钾(KH2PO4)和堆肥等改良剂处理了三种具有代表性的土壤,它们分别为Alfisols、versols和Ultisols, Pb、Ni和Cd的含量分别为100ppm。从修复的角度出发,采用顺序提取法确定了水溶性、可交换性和碳酸盐结合金属的植物有效组分。正磷酸二氢钾对铅的衰减效果最好,土壤中植物有效组分最低,其次是农业石灰和堆肥。对于Cd,农用石灰在所有土壤中均优于其他改良剂。在所有改良剂中,堆肥对土壤中镍的固定化效果最好。
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