利用生物炭稳定受污染洪泛区沉积物中的汞:对汞修复的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Brittany E. Jensen, Breann Spencer, Xiaoyu Xu
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引用次数: 0

摘要

重大天气事件会导致遗留汞(Hg)污染的移动和再移动,并在沉积物中固着。使用生物炭作为土壤改良剂进行修复是固定和降低汞毒性的有效技术。本研究探讨了生物炭的应用是否能有效稳定洪泛区沉积物中的可变汞(LaHg)。研究人员进行了模拟污染事件和洪水条件的受控中型模拟实验。洪泛区的沉积物每年都会定期发生洪水,我们收集了这些沉积物。在沉积物中添加无机汞,使用不同类型的生物炭,并模拟洪水事件。四种生物炭,即纯稻壳(RH)、纯花生壳(PH)、硫改性稻壳(SMRH)和硫改性花生壳(SMPH),施用量分别为 10 克/千克和 40 克/千克(即 RH 10、RH 40;PH 10、PH 40;SMRH 10、SMRH 40;SMPH 10、SMPH 40)。通过与氧化还原电位测量相结合,分析了总汞、甲基汞和喇汞的浓度。结果表明,SMRH 10、PH 10、PH 40、SMPH 10 和 SMPH 40 通过稳定和减少洪泛区沉积物中的 LaHg 种类,成功地修复了汞。不过,未硫酸盐化和硫酸盐化的花生壳(PH 10、PH 40、SMPH 10 和 SMPH 40)具有较高的汞甲基化潜力,因为它们倾向于创造有利于硫酸盐还原反应的还原性微环境。此外,硫改性生物炭在高施用率(即 40 克/千克)下往往会提高汞甲基化的可能性。因此,我们建议使用相对较低的施用率(SMRH 10)来修复洪泛区沉积物中的汞。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Utilizing biochars to stabilize mercury in contaminated floodplain sediment: Implications on mercury remediation

Utilizing biochars to stabilize mercury in contaminated floodplain sediment: Implications on mercury remediation

Major weather events contribute to the mobility and remobilization of legacy mercury (Hg) contamination and sequestration within sediments. Remediation using biochar as a soil amendment is a useful technique to immobilize and decrease Hg toxicity. This study explored whether biochar application is effective at stabilizing labile mercury (LaHg) from floodplain sediment. Controlled mesocosms simulating contamination events and flooding conditions were conducted. Floodplain sediment, which experiences annual periodic flooding, was collected. Sediment was spiked with inorganic Hg, applied with different types of biochar, and experienced simulated flooding events. Four types of biochar, pure rice husk (RH), pure peanut hull (PH), sulfur-modified rice husk (SMRH), and sulfur-modified peanut hull (SMPH), were applied at 10 and 40 g/kg rates (i.e., RH 10, RH 40; PH 10, PH 40, SMRH 10, SMRH 40, SMPH 10, SMPH 40). Total Hg, methylmercury, and LaHg concentrations were analyzed by coupling with redox potential measurements. Results indicate that SMRH 10, PH 10, PH 40, SMPH 10, and SMPH 40 successfully remediate Hg by stabilizing and reducing LaHg species from floodplain sediment. However, a high Hg methylation potential was observed with unsulfated and sulfated peanut hulls (PH 10, PH 40, SMPH 10, and SMPH 40), as they tend to create a reducing microenvironment that favors sulfate reduction reactions. Additionally, sulfur-modified biochar tends to promote Hg methylation potential at high application rates (i.e., 40 g/kg). We thus recommend using SMRH at a relatively low application rate (SMRH 10) for the remediation of Hg from floodplain sediment.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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