Characterizing PFASs in aquatic ecosystems with 3D hydrodynamic and water quality models

IF 14 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environmental Science and Ecotechnology Pub Date : 2024-08-08 DOI:10.1016/j.ese.2024.100473
Jingjie Zhang , Huiting Chen , Nguyen Viet Tung , Amrita Pal , Xuan Wang , Hanyu Ju , Yiliang He , Karina Yew-Hoong Gin
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Abstract

Understanding how per- and polyfluoroalkyl substances (PFASs) enter aquatic ecosystems is challenging due to the complex interplay of physical, chemical, and biological processes, as well as the influence of hydraulic and hydrological factors and pollution sources at the catchment scale. The spatiotemporal dynamics of PFASs across various media remain largely unknown. Here we show the fate and transport mechanisms of PFASs by integrating monitoring data from an estuarine reservoir in Singapore into a detailed 3D model. This model incorporates hydrological, hydrodynamic, and water quality processes to quantify the distributions of total PFASs, including the major components perfluorooctanoate (PFOA) and perfluorooctane sulfonate (PFOS), across water, particulate matter, and sediments within the reservoir. Our results, validated against four years of field measurements with most relative average deviations below 40%, demonstrate that this integrated approach effectively characterizes the occurrence, sources, sinks, and trends of PFASs. The majority of PFASs are found in the dissolved phase (>95%), followed by fractions sorbed to organic particles like detritus (1.0–3.5%) and phytoplankton (1–2%). We also assess the potential risks in both the water column and sediments of the reservoir. The risk quotients for PFOS and PFOA are <0.32 and < 0.00016, respectively, indicating an acceptable risk level for PFASs in this water body. The reservoir also exhibits substantial buffering capacity, even with a tenfold increase in external loading, particularly in managing the risks associated with PFOA compared to PFOS. This study not only enhances our understanding of the mechanisms influencing the fate and transport of surfactant contaminants but also establishes a framework for future research to explore how dominant environmental factors and processes can mitigate emerging contaminants in aquatic ecosystems.

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利用三维水动力和水质模型确定水生生态系统中全氟辛烷磺酸的特征
了解全氟和多氟烷基物质(PFASs)是如何进入水生生态系统的具有挑战性,这是因为物理、化学和生物过程之间存在着复杂的相互作用,而且在流域范围内还受到水力和水文因素以及污染源的影响。全氟辛烷磺酸在各种介质中的时空动态在很大程度上仍不为人所知。在此,我们将新加坡一个河口水库的监测数据整合到一个详细的三维模型中,展示了 PFASs 的归宿和迁移机制。该模型结合了水文、流体力学和水质过程,量化了水库中总全氟化合物(包括主要成分全氟辛酸(PFOA)和全氟辛烷磺酸(PFOS))在水体、颗粒物和沉积物中的分布。我们的研究结果经过四年的实地测量验证,大多数相对平均偏差低于 40%,这表明这种综合方法可以有效地描述全氟辛烷磺酸的发生、来源、汇和趋势。大部分 PFASs 存在于溶解相中(95%),其次是吸附在有机颗粒上的部分,如残渣(1.0%-3.5%)和浮游植物(1%-2%)。我们还评估了水库水体和沉积物中的潜在风险。全氟辛烷磺酸和全氟辛酸的风险商数分别为 0.32 和 0.00016,表明该水体中全氟辛烷磺酸的风险水平可以接受。即使外部负荷增加了十倍,水库也表现出很强的缓冲能力,尤其是在管理与全氟辛烷磺酸相关的风险方面。这项研究不仅加深了我们对影响表面活性剂污染物归宿和迁移机制的理解,还为未来的研究建立了一个框架,以探索主导环境因素和过程如何减轻水生生态系统中新出现的污染物。
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来源期刊
CiteScore
20.40
自引率
6.30%
发文量
11
审稿时长
18 days
期刊介绍: Environmental Science & Ecotechnology (ESE) is an international, open-access journal publishing original research in environmental science, engineering, ecotechnology, and related fields. Authors publishing in ESE can immediately, permanently, and freely share their work. They have license options and retain copyright. Published by Elsevier, ESE is co-organized by the Chinese Society for Environmental Sciences, Harbin Institute of Technology, and the Chinese Research Academy of Environmental Sciences, under the supervision of the China Association for Science and Technology.
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