A review of arsenic speciation in freshwater fish: Perspectives on monitoring approaches and analytical methods

IF 5.7 3区 环境科学与生态学 Q1 Environmental Science
Adam T Lepage, Brian Laird, Kelly Skinner, John M. Gunn, Gretchen L. Lescord
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引用次数: 0

Abstract

Arsenic accumulation in fish poses concerns for subsistence and recreational fishers worldwide. However, the toxicity of arsenic to consumers strongly depends on the chemical forms, or species, present. Risk assessments often rely on total arsenic concentrations ([As]), adjusting for assumed small percentages of the most harmful inorganic species. While studies on arsenic speciation in marine fish are widespread, and commonly report less toxic arsenobetaine (AsB) as the dominant form, fewer studies have been conducted on freshwater fish, where arsenic speciation may be more variable. To assess these findings, we conducted a systematic literature review on arsenic speciation in freshwater fish using Covidence© review management software. From over 1100 screened studies, 41 were selected for inclusion based on predefined criteria. These studies reported highly variable arsenic speciation patterns in freshwater fish, calling into question the assumption that AsB is the dominant form present. Sites with suspected or known arsenic contamination issues were prominent, with >50% of data reviewed originating from a contaminated river or lake, but the effect of contamination on arsenic speciation was variable. Although AsB and other organic forms typically dominated, some studies (6/41; 15%) identified fish with elevated concentrations of inorganic arsenic (>1 mg/kg dry wt.), most often corresponding to over 20% of total arsenic. Furthermore, arsenic speciation results accounted for a highly variable proportion of total [As] in fish, often less than 50%. Assuming 20% inorganic arsenic appears to be a poor approximation that cannot be applied to all fish. Based on this considerable variability, we recommend the direct measurement of arsenic species whenever possible, especially when total [As] is elevated above relevant guidelines for the most toxic species (e.g., 0.1-2 mg/kg inorganic arsenic wet wt.). We also recommend future works communicate their results in more detail, including complete description of QAQC protocols, to improve the potential for future meta-analyses. Additional work is needed to characterize arsenic speciation in freshwater fish and assess the toxicity of various arsenic species to accurately evaluate the environmental and human health risks associated with arsenic in fish.
淡水鱼中砷的种类研究综述:监测方法和分析方法展望
砷在鱼类中的积累引起了全世界自给性和休闲性捕鱼者的关注。然而,砷对消费者的毒性在很大程度上取决于存在的化学形式或种类。风险评估通常依赖于总砷浓度([As]),并根据假定的最有害无机物种的小比例进行调整。有关海水鱼体内砷种类的研究非常普遍,通常报告的主要形式是毒性较低的砷甜菜碱(AsB),但对淡水鱼进行的研究较少,因为淡水鱼体内砷种类的变化可能更大。为了评估这些发现,我们使用 Covidence© 综述管理软件对淡水鱼中砷的种类进行了系统的文献综述。根据预先设定的标准,我们从 1100 多项经过筛选的研究中选出 41 项纳入研究。这些研究报告了淡水鱼体内高度多变的砷分型模式,从而对 AsB 是主要存在形式的假设提出了质疑。疑似或已知存在砷污染问题的地点非常突出,所审查的数据中有 50% 以上来自受污染的河流或湖泊,但污染对砷标本的影响却各不相同。虽然 AsB 和其他有机形式通常占主导地位,但一些研究(6/41;15%)发现鱼类体内的无机砷浓度较高(>1 毫克/千克干重),通常占砷总量的 20%以上。此外,砷分类结果在鱼类总[砷]中所占比例变化很大,通常低于 50%。假定无机砷含量为 20%似乎是一个较差的近似值,不能适用于所有鱼类。基于这种巨大的可变性,我们建议尽可能直接测量砷的种类,特别是当总[砷]含量高于毒性最强种类的相关准则(如 0.1-2 毫克/千克无机砷湿重)时。我们还建议未来的研究工作更详细地交流其结果,包括完整地描述 QAQC 协议,以提高未来荟萃分析的潜力。还需要开展更多的工作来确定淡水鱼体内砷的种类特征,并评估各种砷的毒性,以准确评估鱼体内砷对环境和人类健康造成的风险。
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来源期刊
Environmental Reviews
Environmental Reviews ENVIRONMENTAL SCIENCES-
CiteScore
9.80
自引率
3.50%
发文量
45
审稿时长
>12 weeks
期刊介绍: Published since 1993, Environmental Reviews is a quarterly journal that presents authoritative literature reviews on a wide range of environmental science and associated environmental studies topics, with emphasis on the effects on and response of both natural and manmade ecosystems to anthropogenic stress. The authorship and scope are international, with critical literature reviews submitted and invited on such topics as sustainability, water supply management, climate change, harvesting impacts, acid rain, pesticide use, lake acidification, air and marine pollution, oil and gas development, biological control, food chain biomagnification, rehabilitation of polluted aquatic systems, erosion, forestry, bio-indicators of environmental stress, conservation of biodiversity, and many other environmental issues.
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