PFAS fate using lysimeters during degraded soil reclamation using biosolids.

IF 2.2 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Lynda Peter, Mahsa Modiri-Gharehveran, Odiney Alvarez-Campos, Gregory K Evanylo, Linda S Lee
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Abstract

Carbon- and nutrient-rich biosolids are used in agriculture and land reclamation. However, per- and polyfluoroalkyl substances (PFAS) typically present in biosolids raise concerns of PFAS leaching to groundwater and plant uptake. Here, we investigated PFAS persistence and leaching from biosolids applied to a site constructed artificially to mimic degraded soils. Treatments included biosolids and biosolids blended with mulch applied at different rates to attain either one and five times the agronomic N rate for vegetable crops and a control treatment with synthetic urea and triple superphosphate fertilizer. Leachates were collected for a 2-year period from 15-cm depth zero-tension drainage lysimeters. Soils were analyzed post biosolids application. PFAS were quantified using isotope-dilution, solid-phase extraction and liquid chromatography tandem mass spectrometry. Leachate profiles exemplified an initial high total PFAS concentration, followed by a sharp decline and subsequent small fluctuations attributed to pre-existing soil conditions and rainfall patterns. Quantifiable PFAS in leachate were proportional to biosolids application rates. Short-chain perfluoroalkyl acids (CF2 < 6) were dominant in leachate, while the percentage of longer chains homologues was higher in soils. A 43% biosolids blend with mulch resulted in 21% lower PFAS leachate concentrations even with the blend application rate being 1.5 times higher than biosolids due to the blend's lower N-content. The blending effect was more pronounced for long-chain perfluoroalkyl sulfonic acids that have a greater retention by soils and the air-water interface. Biosolids blending as a pragmatic strategy for reducing PFAS leachate concentrations may aid in the sustainable beneficial reuse of biosolids.

在使用生物固体进行降解土壤改良的过程中,使用溶胞仪测定 PFAS 的归宿。
富含碳和养分的生物固体可用于农业和土地开垦。然而,生物固体中通常含有的全氟烷基和多氟烷基物质(PFAS)引起了人们对 PFAS 向地下水沥滤和植物吸收的担忧。在此,我们对施用生物固体的 PFAS 持久性和沥滤进行了研究,生物固体施用在人工建造的模拟退化土壤的场地上。处理方法包括以不同比例施用生物固体和生物固体与地膜混合,以达到蔬菜作物农艺氮含量的 1 倍和 5 倍,以及施用合成尿素和三过磷酸钙的对照处理。从 15 厘米深的零张力排水渗滤池收集渗滤液,为期两年。对施用生物固体后的土壤进行了分析。采用同位素稀释、固相萃取和液相色谱串联质谱法对 PFAS 进行量化。渗滤液剖面显示,最初的全氟辛烷磺酸总浓度较高,随后急剧下降,随后出现小幅波动,这归因于先前存在的土壤条件和降雨模式。渗滤液中可量化的 PFAS 与生物固体施用率成正比。短链全氟烷基酸(CF2
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来源期刊
Journal of environmental quality
Journal of environmental quality 环境科学-环境科学
CiteScore
4.90
自引率
8.30%
发文量
123
审稿时长
3 months
期刊介绍: Articles in JEQ cover various aspects of anthropogenic impacts on the environment, including agricultural, terrestrial, atmospheric, and aquatic systems, with emphasis on the understanding of underlying processes. To be acceptable for consideration in JEQ, a manuscript must make a significant contribution to the advancement of knowledge or toward a better understanding of existing concepts. The study should define principles of broad applicability, be related to problems over a sizable geographic area, or be of potential interest to a representative number of scientists. Emphasis is given to the understanding of underlying processes rather than to monitoring. Contributions are accepted from all disciplines for consideration by the editorial board. Manuscripts may be volunteered, invited, or coordinated as a special section or symposium.
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