Unraveling the competitive transport of metformin and erythromycin in saturated sandy soil: Experimental investigation, modeling insights and implications on SDGs

IF 6.6 Q1 ENGINEERING, ENVIRONMENTAL Journal of hazardous materials letters Pub Date : 2024-09-10 DOI:10.1016/j.hazl.2024.100124
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Abstract

The presence of metformin (MTN) and erythromycin (ETM) in groundwater is a growing global concern due to their persistence and toxicity. This study addresses a critical gap in understanding the fate and transport of these pharmaceutical and personal care products in saturated sandy soil columns at environmentally relevant concentrations, an underexplored area. The results show that MTN, due to its high mobility, appeared earlier in the soil column with a recovery rate exceeding 90 % and an adsorption coefficient (Kd) of 1.063 Lkg−1. In contrast, ETM, with a higher Kd value of 5.426 Lkg−1, exhibited delayed breakthrough and recovery of less than 15 %, indicating stronger adsorption potential. Desorption studies indicated a greater risk of MTN leaching into groundwater, while ETM remained strongly adsorbed to soil particles. Despite the limited organic matter content in sandy soil, a significant amount of ETM was adsorbed, suggesting sands' high adsorption capacity and potential for natural remediation. This research fills a knowledge gap regarding the adsorption capacity of sandy soils at environmentally relevant concentrations, providing essential insights for environmental risk assessments and groundwater contamination mitigation strategies, directly supporting Sustainable Development Goals 3 (Health and Well-being), 6 (Clean Water and Sanitation), and 14 (Life Below Water).

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揭示二甲双胍和红霉素在饱和砂质土壤中的竞争性迁移:实验研究、建模见解及对可持续发展目标的影响
由于二甲双胍(MTN)和红霉素(ETM)的持久性和毒性,它们在地下水中的存在日益受到全球关注。这项研究填补了在了解这些药物和个人护理产品在饱和砂质土柱中环境相关浓度下的归宿和迁移方面的一个重要空白,而这正是一个尚未充分开发的领域。结果表明,MTN 由于具有高流动性,较早出现在土壤柱中,回收率超过 90%,吸附系数 (Kd) 为 1.063 Lkg-1。相比之下,ETM 的 Kd 值较高,为 5.426 Lkg-1,它的突破时间较晚,回收率低于 15%,表明其吸附潜力较强。解吸研究表明,MTN 沥滤到地下水的风险更大,而 ETM 仍被土壤颗粒牢牢吸附。尽管砂质土壤中的有机物含量有限,但仍吸附了大量的 ETM,这表明砂土具有很高的吸附能力和自然修复的潜力。这项研究填补了沙质土壤在环境相关浓度下的吸附能力方面的知识空白,为环境风险评估和地下水污染缓解战略提供了重要见解,直接支持了可持续发展目标 3(健康与福祉)、目标 6(清洁水和卫生)和目标 14(水下生命)。
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来源期刊
Journal of hazardous materials letters
Journal of hazardous materials letters Pollution, Health, Toxicology and Mutagenesis, Environmental Chemistry, Waste Management and Disposal, Environmental Engineering
CiteScore
10.30
自引率
0.00%
发文量
0
审稿时长
20 days
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