铜在河流沉积物中的分布以及与大小分化的溶解有机物和颗粒有机物的结合亲和力

Environments Pub Date : 2024-06-18 DOI:10.3390/environments11060129

Ming-Yuan Hung, Wei-Hsiang Huang, Hsiang-Chun Tsai, Chi-Ying Hsieh, Ting-Chien Chen

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引用次数: 0

摘要

本研究调查了沉积物溶解有机物和颗粒有机物（DOM 和 POM）中铜的大小分布情况。采用错流超滤（CFUF）系统将溶解有机物（DOM）和碱提取的颗粒有机物（AEOM）分成五个粒径组。结果表明，铜的质量主要分布在 DOM 的低分子量（<1 kDa，LMW）部分，平均范围为 78.1-83.1%。相反，高分子量（1 kDa-0.45 μm，HMW）AEOM 部分的铜质量分布较高，平均范围为 92.6-93.3%。在位点-1 中，Cu 与 AEOM 的结合亲和比（CuBAAEOM）介于 17.0 至 149.6 μmol/g-C 之间，在位点-2 中介于 20.6 至 143.7 μmol/g-C 之间。高分子量 CuBAAEOM 的比率明显高于低分子量比率。在位点-1 和位点-2 中，Cu 与 DOM 的结合亲和比（CuBADOM）分别为 5.6 至 358.6 μmol/g-C 和 17.2 至 126.6 μmol/g-C。然而，低分子量 CuBADOM 比率明显高于高分子量比率。光学指数表明，与 DOM 相比，AEOM 具有更多的芳香性以及陆生和同源贡献。光学指数与 CuBAAEOM 比率有明显的相关性，但与 CuBADOM 比率的相关性较弱。POM 与 DOM 之间的沉积物交换可能会影响铜的分布。DOM 具有低分子量成分，而 POM 则保留了高分子量有机物。

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Copper Distribution and Binding Affinity to Size-Fractioned Dissolved and Particulate Organic Matter in River Sediment

This study investigated the distribution of copper in sediment dissolved and particulate organic matter (DOM and POM) based on their size. The DOM and alkaline extracted POM (AEOM) were separated into five size fractions using a cross-flow ultrafiltration (CFUF) system. The results showed that Cu mass was mainly distributed in the low molecular weight (<1 kDa, LMW) fraction of the DOM with an average range of 78.1–83.1%. Conversely, the high molecular weight (1 kDa–0.45 μm, HMW) AEOM fraction had a higher distribution of Cu mass with an average range of 92.6-93.3%. The Cu and AEOM binding affinity ratios (CuBAAEOM) ranged from 17.0 to 149.6 μmol/g-C in site-1 and from 20.6 to 143.7 μmol/g-C in site-2. The HMW CuBAAEOM ratios were significantly higher than the LMW ratios. The Cu and DOM binding affinity ratios (CuBADOM) ranged from 5.6 to 358.6 μmol/g-C and 17.2 to 126.6 μmol/g-C in site-1 and site-2, respectively. However, the LMW CuBADOM ratios were significantly higher than the HMW ratios. Optical indices suggested that the AEOM had more aromaticity and terrestrial and allochthonous contributions than the DOM. The optical indices were significantly correlated with the CuBAAEOM ratios but weakly correlated with the CuBADOM ratios. Sediment exchange between POM and DOM may affect copper distribution. DOM has a low-molecular-weight composition, while POM retains high-molecular-weight organic matter.

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Environments

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