Effects of Biochar on Arsenic-Contaminated Soil: Chemical Fractionation, Vegetation Growth, and Oral Bioaccessibility.

IF 2.7 3区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Environmental Management Pub Date : 2024-10-24 DOI:10.1007/s00267-024-02067-0
Jacqueline Zanin Lima, Valéria Guimarães Silvestre Rodrigues
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Abstract

Contamination by arsenic (As) is a pressing environmental and public health issue requiring urgent remediation strategies. One cost-effective and eco-friendly method involves adding stabilizing agents to soils to reduce As mobility. However, remediation projects must also address potential ecotoxicological effects. These effects may include harmful impacts on both aquatic and terrestrial organisms, including plants, disruption of ecosystem balance, and the potential bioaccumulation of toxic substances in the food chain. Biochar from organic fraction of municipal solid waste (OFMSW) shows promise for As-contaminated soil remediation. Pot experiments were conducted with soil contaminated with As (100 mg kg-1) and amended with biochar produced at three different temperatures (300, 500, and 700 °C) and addition rates (1 and 5%, w/w). Chemical fractionation showed higher As concentration in a less accessible fraction (F4). Biochar amendments did not significantly differ from the control in As immobilization, but enhanced maize (Zea mays) growth and reduced As uptake, with the most promising results seen with 1% of biochar produced at 700 °C. The bioaccumulation factor (BCF) and translocation factor (TF) were both lower than 1, indicating a low absorption of As and minimal translocation from the root to the shoot. The bioaccessible percentage was higher in the samples treated with biochar compared to the control. According to the results, biochar showed no satisfactory potential for As immobilization and its approach of pretreatment/modification should be tested regarding possible improvements in the immobilization performance of As. Since most contaminations involve multiple contaminants simultaneously, it is essential to test the interactions between arsenic and other pollutants to understand the effects of biochar in such complex scenarios, which will be explored in future studies. Graphical abstract.

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生物炭对砷污染土壤的影响:化学分馏、植被生长和口腔生物可及性。
砷(As)污染是一个紧迫的环境和公共卫生问题,迫切需要采取补救策略。一种既经济又环保的方法是在土壤中添加稳定剂,以降低砷的流动性。然而,修复项目还必须解决潜在的生态毒理学影响。这些影响可能包括对水生和陆生生物(包括植物)的有害影响、生态系统平衡的破坏以及有毒物质在食物链中的潜在生物累积。从城市固体废弃物(OFMSW)的有机成分中提取的生物炭有望用于砷污染土壤的修复。对受到砷(100 mg kg-1)污染的土壤进行了盆栽实验,并用在三种不同温度(300、500 和 700 ℃)和添加率(1% 和 5%,w/w)下生产的生物炭进行了改良。化学分馏结果表明,在不太容易接触到的部分(F4)中,砷浓度较高。生物炭添加剂在固定砷方面与对照组没有明显差异,但能促进玉米(Zea mays)的生长并减少砷的吸收。生物累积系数(BCF)和易位系数(TF)均低于 1,表明玉米对砷的吸收率低,从根部到芽的易位极小。与对照组相比,用生物炭处理过的样品的生物可吸收百分比更高。结果表明,生物炭在固定砷方面的潜力并不令人满意,应测试其预处理/改性方法,以了解是否有可能改善砷的固定性能。由于大多数污染同时涉及多种污染物,因此有必要测试砷和其他污染物之间的相互作用,以了解生物炭在这种复杂情况下的效果,这将在今后的研究中进行探讨。图表摘要。
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来源期刊
Environmental Management
Environmental Management 环境科学-环境科学
CiteScore
6.20
自引率
2.90%
发文量
178
审稿时长
12 months
期刊介绍: Environmental Management offers research and opinions on use and conservation of natural resources, protection of habitats and control of hazards, spanning the field of environmental management without regard to traditional disciplinary boundaries. The journal aims to improve communication, making ideas and results from any field available to practitioners from other backgrounds. Contributions are drawn from biology, botany, chemistry, climatology, ecology, ecological economics, environmental engineering, fisheries, environmental law, forest sciences, geosciences, information science, public affairs, public health, toxicology, zoology and more. As the principal user of nature, humanity is responsible for ensuring that its environmental impacts are benign rather than catastrophic. Environmental Management presents the work of academic researchers and professionals outside universities, including those in business, government, research establishments, and public interest groups, presenting a wide spectrum of viewpoints and approaches.
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