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Different extractable pools of Cd and Pb in agricultural soil under amendments: Water-soluble concentration sensitively indicates metal availability

Wang, Zidi ; Tang, Wenyao ; Ding, Xiaodong ; Dong, Qiang ; Guo, Yingying ; Liu, Guangliang ; Liu, Yanwei ; Liang, Yong ; Yin, Yongguang ; Cai, Yong ; Jiang, Guibin

Journal of environmental sciences (China), 2025-04, Vol.150, p.297-308 [Periódico revisado por pares]

Elsevier B.V

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  • Título:
    Different extractable pools of Cd and Pb in agricultural soil under amendments: Water-soluble concentration sensitively indicates metal availability
  • Autor: Wang, Zidi ; Tang, Wenyao ; Ding, Xiaodong ; Dong, Qiang ; Guo, Yingying ; Liu, Guangliang ; Liu, Yanwei ; Liang, Yong ; Yin, Yongguang ; Cai, Yong ; Jiang, Guibin
  • Assuntos: Enriched stable isotopes ; Heavy metals ; Sequential extraction ; Soil amendments ; Soil pH ; Water-soluble concentrations
  • É parte de: Journal of environmental sciences (China), 2025-04, Vol.150, p.297-308
  • Descrição: Identification of the most appropriate chemically extractable pool for evaluating Cd and Pb availability remains elusive, hindering accurate assessment on environmental risks and effectiveness of remediation strategies. This study evaluated the feasibility of European Community Bureau of Reference (BCR) sequential extraction, Ca(NO3)2 extraction, and water extraction on assessing Cd and Pb availability in agricultural soil amended with slaked lime, magnesium hydroxide, corn stover biochar, and calcium dihydrogen phosphate. Moreover, the enriched isotope tracing technique (112Cd and 206Pb) was employed to evaluate the aging process of newly introduced Cd and Pb within 56 days’ incubation. Results demonstrated that extractable pools by BCR and Ca(NO3)2 extraction were little impacted by amendments and showed little correlation with soil pH. This is notable because soil pH is closely linked to metal availability, indicating these extraction methods may not adequately reflect metal availability. Conversely, water-soluble concentrations of Cd and Pb were markedly influenced by amendments and exhibited strong correlations with pH (Pearson's r: -0.908 to -0.825, P < 0.001), suggesting water extraction as a more sensitive approach. Furthermore, newly introduced metals underwent a more evident aging process as demonstrated by acid-soluble and water-soluble pools. Additionally, water-soluble concentrations of essential metals were impacted by soil amendments, raising caution on their potential effects on plant growth. These findings suggest water extraction as a promising and attractive method to evaluate Cd and Pb availability, which will help provide assessment guidance for environmental risks caused by heavy metals and develop efficient remediation strategies.
  • Editor: Elsevier B.V
  • Idioma: Inglês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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