克尔卡河河口表层沉积物酸萃取相中钒的氧化还原分型

IF 3 3区 地球科学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Lucija Knežević , Nuša Cukrov , Elvira Bura Nakić
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引用次数: 0

摘要

本研究采用优化的 IC-UV/Vis 分析方法,研究了克尔卡河口地表沉积物酸萃取部分中 V 的氧化还原分型和迁移率。使用基于阴离子交换的色谱法分离了 V(IV) 和 V(V) 氧化还原物种,同时使用 HR ICP-MS 分析仪器测量了假总 V 浓度。从沉积物部分(pH = 5,盐酸)提取的 V 浓度和确定的假总 V 浓度用于计算富集因子(EF)和风险评估代码(RAC),以显示潜在的人为影响和环境风险。开发了一个简单的 PHREEQC 模型,以模拟沥滤沉积物相可能的再移动,评估氧底层海水中的钒分 子。研究结果表明,在克尔卡河口的表层沉积物中,酸萃取相中存在少量的钒。在富含粘土矿物、陆相沉积物和碳酸盐的地方,主要观察到较高的钒迁移率。受人类活动影响,富集程度较高,但流动性较低,这表明与流动性较低的沉积物相(可还原、有机和残留组分)结合。在酸性可萃取沉积物组分中,还原型 V(IV)物种占主导地位,这表明克尔卡河口沉积物中 V 的潜在毒性风险较低,即使在 V 的潜在再移动性较高的情况下也是如此。这凸显了 V 在自然河口系统中行为的复杂性,V 在自然河口系统中可能的再移动所带来的毒性风险仍不明确。这项研究的结果表明,有必要加强对流动沉积物相中 V 的标本分析,以便对其潜在毒性和生物地球化学循环有一个全面的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vanadium redox speciation in the acid-extractable phase of Krka River estuary surface sediment

This study investigated the redox speciation and mobility of V in the acid-extractable fraction of surface sediments from the Krka River estuary using an optimized IC-UV/Vis analytical method. The separation of V(IV) and V(V) redox species was done using anion-exchange based chromatographic method, while pseudo-total V concentrations were measured using HR ICP-MS analytical instrumentation. Extracted V concentrations from the sediment fraction (pH = 5, HCl) and determined pseudo-total V concentrations were used to calculate the Enrichment Factor (EF) and Risk Assessment Code (RAC), indicating potential anthropogenic influence and environmental risk. A simple PHREEQC model was developed to asses V speciation in the oxic bottom seawater layer simulating possible remobilization of the leached sediment phase. The results of the study show that minor fraction of V is present in the acid-extractable phase across the surface sediment of Krka River estuary. Higher V mobility is mostly observed at locations rich with clay minerals, terrigenous input, and carbonates. Anthropogenic influence was linked to higher enrichment but lower mobility, suggesting binding to less mobile sediment phases (reducible, organic and residual fractions). The predominance of reduced V(IV) species in the acid-extractable sediment fraction indicates a potentially low V toxicity risk in the sediments of Krka River estuary, even in cases of high potential remobilization of V. However, the model predicted complete oxidation of V(IV) to V(V) upon remobilization into the oxic bottom water layer. This highlights the complexity of V behavior in natural estuarine systems, where the toxicity risks of possible V remobilization still remain unclear. Results of this study demonstrate the need for the strengthening efforts in speciation of V in the mobile sediment phase to obtain a cohesive outlook on its potential toxicity and biogeochemical cycling.

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来源期刊
Marine Chemistry
Marine Chemistry 化学-海洋学
CiteScore
6.00
自引率
3.30%
发文量
70
审稿时长
4.5 months
期刊介绍: Marine Chemistry is an international medium for the publication of original studies and occasional reviews in the field of chemistry in the marine environment, with emphasis on the dynamic approach. The journal endeavours to cover all aspects, from chemical processes to theoretical and experimental work, and, by providing a central channel of communication, to speed the flow of information in this relatively new and rapidly expanding discipline.
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