Fe/Mn- and P-modified drinking water treatment residuals reduced Cu and Pb phytoavailability and uptake in a mining soil
- Authors
- Wang, Quan; Shaheen, Sabry M.; Jiang, Yahui; Li, Ronghua; Slany, Michal; Abdelrahman, Hamada; Kwon, Eilhann; Bolan, Nanthi; Rinklebe, Joerg; Zhang, Zengqiang
- Issue Date
- Feb-2021
- Publisher
- ELSEVIER
- Keywords
- Industrial wastes; toxic metal(loid)s; immobilization; phytoavailability; mining soil
- Citation
- JOURNAL OF HAZARDOUS MATERIALS, v.403
- Indexed
- SCIE
SCOPUS
- Journal Title
- JOURNAL OF HAZARDOUS MATERIALS
- Volume
- 403
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/190169
- DOI
- 10.1016/j.jhazmat.2020.123628
- ISSN
- 0304-3894
- Abstract
- Management of industrial hazardous waste is of great concern. Recently, aluminum rich drinking water treatment residuals (Al-WTR) received considerable attention as a low-cost immobilizing agent for toxic elements in soils. However, the suitability and effectiveness of modified Al-WTR as stabilizing agent for toxic metals such as Cu and Pb in mining soil is not assessed yet. We examined the impact of different doses (0, 0.5, 1.5, and 2.5%) of raw and Fe/Mnand Pmodified Al-WTR on the bioavailability and uptake of Cu and Pb by ryegrass in Cu and Pb contaminated mining soil. The addition of Fe/Mn-and Pmodified Al-WTR to the soil reduced significantly the concentrations of Pb (up to 60% by Fe/Mn-Al-WTR and 32% by P-Al-WTR) and Cu (up to 45% by Fe/Mn-Al-WTR and 18% by P-Al-WTR) in the shoots and roots of ryegrass as compared to raw Al-WTRs and untreated soil. Our results demonstrate that modification of the raw Al-WTR increased its pH, CEC, specific surface area, active functional groups (Fe-O and Mn-O), and thus increased its immobilization efficiency. Our results highlight the potential of the modified Al-WTR, particularly the Fe/Mn-Al-WTR, for the remediation of Cu and Pb contaminated soils and recommend field scale verification.
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