Influence of pyrolytic and non-pyrolytic rice and castor straws on the immobilization of Pb and Cu in contaminated soil.

IF 0.8 4区 教育学 Q1 HISTORY
Muhammad Shahid Rizwan, Muhammad Imtiaz, Muhammad Afzal Chhajro, Guoyong Huang, Qingling Fu, Jun Zhu, Omar Aziz, Hongqing Hu
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引用次数: 32

Abstract

Soil contamination with heavy metals has become a global environmental health concern. In the present study, European Community Bureau of Reference (BCR) sequential extraction and toxicity characteristic leaching procedure (TCLP) techniques were used to evaluate the Pb and Cu subsequent transformations, immobilizing impact of pyrolytic and non-pyrolytic rice and castor straws and their efficiency to reduce the metals mobility and leachability in the polluted soil. Obtained results highlight the potential of biochar over non-pyrolytic residues to enhance the immobilization of Pb and Cu in the soil. Castor leaves-derived biochar (CLB), castor stem-derived biochar (CSB), and rice straw-derived biochar (RSB) prominently decreased the mobility (acid-soluble fraction) of Pb 49.8%, 31.1%, and 31.9%, respectively, while Cu decreased 15.8%, 11.5%, and 12%, respectively, as compare to control. Sequential extraction showed that biochar treatments prominently modified the proportioning of Pb and Cu from acid soluble to a less bioavailable fraction and increased the geochemical stability in the polluted soil as compared to relative feedstocks as well as the controlled soil. Additionally, the soil pH increased markedly after the addition of biochar. Compared with control, the TCLP-extractable Pb and Cu were reduced to 29.2-41.4% and 5.7-22.8% from the soil respectively by the application of CLB. The immobilization and reduction in leachability of Pb and Cu were correlated with the soil pH. The biochar effect on the Pb immobilization was much better as compared to Cu in co-contaminated soil. Overall addition of CLB offered the best results and could be effective in both Pb and Cu immobilization thereby reducing their mobility and bioavailability in the co-contaminated soil.

热解和非热解稻草和蓖麻秸秆对污染土壤中铅和铜固定化的影响。
土壤重金属污染已成为全球环境健康问题。在本研究中,欧洲共同体参照局(BCR)采用了序贯萃取和毒性特征浸出程序(TCLP)技术来评估铅和铜的后续转化、热解和非热解稻草和蓖麻秸秆的固定作用以及它们降低金属在污染土壤中的流动性和浸出性的效率。研究结果表明,与非热解残留物相比,生物炭具有提高土壤中铅和铜固定化的潜力。与对照组相比,蓖麻叶生物炭(CLB)、蓖麻茎生物炭(CSB)和稻草生物炭(RSB)分别显著降低了铅的迁移率(酸溶部分)49.8%、31.1% 和 31.9%,而铜则分别降低了 15.8%、11.5% 和 12%。顺序萃取结果表明,与相对原料和对照土壤相比,生物炭处理显著改变了铅和铜的比例,使其从酸性可溶部分变为生物可利用性较低的部分,并提高了污染土壤的地球化学稳定性。此外,添加生物炭后,土壤 pH 值明显提高。与对照组相比,施用 CLB 后,土壤中 TCLP 可提取的铅和铜分别降低了 29.2-41.4% 和 5.7-22.8%。铅和铜的固定化和浸出率的降低与土壤的 pH 值有关。与共污染土壤中的铜相比,生物炭对铅的固定效果要好得多。总的来说,添加 CLB 的效果最好,可以有效固定铅和铜,从而降低它们在共污染土壤中的流动性和生物利用率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.80
自引率
33.30%
发文量
85
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