Risk management approach using ash-based amendment blends for remediation of lead-contaminated urban soils and protection of public health

Loryssa M. Lake , Sarah B. Scott , Darryl B. Hood , Meagan Kellis , Mary M. Gardiner , Nicholas T. Basta
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Abstract

Anthropogenic activities have left a legacy of contaminated vacant land, which disproportionately affects lower income communities and can have detrimental impacts on human health, particularly children. A management solution is needed to address this widespread lead contamination in urban soils of vacant lots. In this study, high-Fe biosolids incinerator ash (BIA) was evaluated for its ability to sequester soil Pb. Five blends were created using BIA and different amount of other products (dredge, biosolids compost, and yard waste compost) to determine the most effective treatment to reduce Pb bioaccessibility in the soil. The sorption capacity of the BIA for Pb was evaluated by mixing the BIA with Pb(NO3)2 at 1000 to 100,000 ​mg ​Pb/kg BIA. The contaminated soil from Cleveland, OH was treated with five BIA-based blends at a 1:1 (w/w) ratio, and Pb bioaccessibility was evaluated using USEPA Method 1340 ​at pH 2.5 and the Physiologically Based Extraction Test (PBET) at pH 2.5. BIA was a strong sorbent for Pb, sorbing ∼100% of the Pb from solution at 10,000 ​mg/L with only 41% bioaccessibility based on Method 1340 ​at pH 2.5. The blend containing 4.5%, 10%, or 19% BIA reduced the Pb bioaccessibility by 48% from the control based on both bioaccessibility methods. The bioaccessible Pb determined by PBET was less than that by USEPA Method 1340 ​at pH 2.5. However, similar reductions in bioaccessible Pb between blend-treated soils and the unamended soil were observed for all bioaccessibility methods. Plant growth assays showed the blends to have little to no significant impact on clover growth, mortality, or flower production, with the blend containing 10% BIA showing greater biomass yield. Results showed BIA-based blends were able to reduce bioaccessible Pb in the soil. This remediation approach may improve the urban living environment and protects public health.

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利用混合土壤修复受铅污染的城市土壤并保护公众健康的风险管理方法
人为活动留下了受污染的空地,这对低收入社区的影响尤为严重,并可能对人类健康,尤其是儿童的健康产生不利影响。需要一种管理解决方案来解决城市空地土壤中普遍存在的铅污染问题。在这项研究中,对高铁生物固体焚烧炉灰(BIA)固存土壤中铅的能力进行了评估。研究人员使用 BIA 和不同数量的其他产品(疏浚土、生物固体堆肥和庭院垃圾堆肥)制作了五种混合物,以确定最有效的处理方法,降低土壤中铅的生物可及性。通过将 1000 至 100,000 mg Pb/kg BIA 与 Pb(NO3)2 混合,评估了 BIA 对铅的吸附能力。俄亥俄州克利夫兰市的受污染土壤用五种基于 BIA 的混合物以 1:1 (w/w)的比例进行了处理,并在 pH 值为 2.5 时使用美国环保局方法 1340 和 pH 值为 2.5 时使用生理学萃取试验 (PBET) 评估了铅的生物可吸附性。BIA 是一种强力的铅吸附剂,在 pH 值为 2.5 时,根据 1340 方法,它能从 10,000 mg/L 的溶液中吸附 ∼100% 的铅,而生物可吸附性仅为 41%。根据两种生物可及性方法,含有 4.5%、10% 或 19% BIA 的混合物比对照组的铅生物可及性降低了 48%。在 pH 值为 2.5 时,用 PBET 测定的生物可及铅低于用 USEPA 方法 1340 测定的生物可及铅。不过,在所有生物可及性方法中,经混合处理的土壤和未经改良的土壤中生物可及铅的减少量相似。植物生长测定显示,混合物对三叶草的生长、死亡率或花朵产量几乎没有显著影响,而含有 10% BIA 的混合物生物量产量更高。结果表明,基于 BIA 的混合物能够减少土壤中生物可获取的铅。这种修复方法可以改善城市生活环境,保护公众健康。
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