A comprehensive trial on PFAS remediation: hemp phytoextraction and PFAS degradation in harvested plants†

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Sara L. Nason, Sara Thomas, Chelli Stanley, Richard Silliboy, Maggie Blumenthal, Weilan Zhang, Yanna Liang, Jasmine P. Jones, Nubia Zuverza-Mena, Jason C. White, Christy L. Haynes, Vasilis Vasiliou, Michael P. Timko and Bryan W. Berger
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Abstract

Per- and polyfluoroalkyl substances (PFAS) are a class of recalcitrant, highly toxic contaminants, with limited remediation options. Phytoremediation – removal of contaminants using plants – is an inexpensive, community-friendly strategy for reducing PFAS concentrations and exposures. This project is a collaboration between the Mi'kmaq Nation, Upland Grassroots, and researchers at several institutions who conducted phytoremediation field trials using hemp to remove PFAS from soil at the former Loring Air Force base, which has now been returned to the Mi'kmaq Nation. PFAS were analyzed in paired hemp and soil samples using targeted and non-targeted analytical approaches. Additionally, we used hydrothermal liquefaction (HTL) to degrade PFAS in the harvested hemp tissue. We identified 28 PFAS in soil and found hemp uptake of 10 of these PFAS. Consistent with previous studies, hemp exhibited greater bioconcentration for carboxylic acids compared to sulfonic acids, and for shorter-chain compounds compared to longer-chain. In total, approximately 1.4 mg of PFAS was removed from the soil via uptake into hemp stems and leaves, with an approximate maximum of 2% PFAS removed from soil in the most successful area. Degradation of PFAS by HTL was nearly 100% for carboxylic acids, but a portion of sulfonic acids remained. HTL also decreased precursor PFAS and extractable organic fluorine. In conclusion, while hemp phytoremediation does not currently offer a comprehensive solution for PFAS-contaminated soil, this project has effectively reduced PFAS levels at the Loring site and underscores the importance of involving community members in research aimed at remediating their lands.

Abstract Image

全氟辛烷磺酸修复综合试验:大麻植物萃取和收获植物中 PFAS 的降解
全氟烷基和多氟烷基物质(PFAS)是一类难降解的高毒性污染物,其修复方案十分有限。植物修复--利用植物去除污染物--是降低 PFAS 浓度和暴露的一种成本低廉、对社区友好的策略。该项目由米克马克民族、Upland Grassroots 和多家机构的研究人员合作开展,他们利用大麻进行了植物修复现场试验,以清除前洛林空军基地土壤中的 PFAS,该基地现已归还给米克马克民族。我们使用靶向和非靶向分析方法对配对大麻和土壤样本中的 PFAS 进行了分析。此外,我们还使用水热液化 (HTL) 技术降解收获大麻组织中的 PFAS。我们在土壤中发现了 28 种 PFAS,并发现大麻吸收了其中的 10 种 PFAS。与之前的研究一致,大麻对羧酸的生物富集度高于对磺酸的生物富集度,对短链化合物的生物富集度高于对长链化合物的生物富集度。通过对大麻茎叶的吸收,总共从土壤中清除了约 1.4 毫克的 PFAS,在最成功的区域,从土壤中清除的 PFAS 最多约为 2%。HTL 对羧酸类全氟辛烷磺酸的降解率接近 100%,但仍有部分磺酸残留。高温催化还能减少前体全氟辛烷磺酸和可萃取有机氟。总之,虽然大麻植物修复目前还不能为受 PFAS 污染的土壤提供全面的解决方案,但该项目已有效降低了 Loring 遗址的 PFAS 含量,并强调了让社区成员参与旨在修复其土地的研究的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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