The fluorine in surface waters: origin, weight on human health, and defluoridation techniques

IF 0.9 Q4 GEOSCIENCES, MULTIDISCIPLINARY

AIMS Geosciences Pub Date : 2022-01-01 DOI:10.3934/geosci.2022038

Matteo Serra, F. Fanari, F. Desogus, P. Valera

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Abstract

In order to understand the distribution of fluorine in surface environments, also linked to fluoride deposits, this paper discusses the role of rift systems in fluorine enrichment of surface waters, with two examples: the Sardinia Island and the East African Rift. The main goal of this study is aimed to highlighting the areas that could potentially host fluorine in the surface waters in order to make it easier the lecture also for people to search and read not experts in the field, such as the biomedical field. Furthermore, potentialities and limitations of the currently available defluoridation techniques were examined, in order to identify the best intervention technology. From a careful review of the literature, to the addition of the extensive field observations in Sardinia and Ethiopia carried by the authors in the previous decades, we highlight the origin, processes and evolution of F-migration in Rift systems. The given examples of Sardinia and Ethiopia show that the origin and consequent behaviour of fluorine is strictly controlled by the rift systems. In this framework, the availability of fluorine for surface waters depends on two possible types of sources: a direct supply and an indirect supply. Directly from spring waters and ground waters fed by hydrothermal systems related to rifting, and indirectly from the leaching of products of rift-related activities, such as fluorite-bearing deposits, sedimentary or meta-sedimentary rift-related sequences, and volcanic or metavolcanic complexes emplaced along rift structures. The whole geological history of a given area must be taken into account in interpreting its present fluorine geochemistry. In conclusion, we underline the aspects of a possible control of these areas where fluoride exposure might lead to a long-term harm to local communities and we point out the nowadays best remediation-technologies, discussing their pro and cons in their applicability to different scales and social-contexts.

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地表水中的氟:来源、对人体健康的影响和除氟技术

为了了解氟在地表环境中的分布，也与氟沉积有关，本文讨论了裂谷系统在地表水氟富集中的作用，并以撒丁岛和东非裂谷为例。这项研究的主要目的是强调地表水中可能含有氟的区域，以便于人们更容易搜索和阅读该领域的专家，例如生物医学领域。此外，还审查了现有除氟技术的潜力和局限性，以确定最佳干预技术。通过对文献的仔细回顾，加上作者在过去几十年在撒丁岛和埃塞俄比亚进行的广泛的实地观察，我们强调了裂谷系统f迁移的起源、过程和演化。撒丁岛和埃塞俄比亚的例子表明，氟的起源和随后的行为受到裂谷系统的严格控制。在这一框架内，地表水氟的供应取决于两种可能的来源:直接供应和间接供应。直接来自与裂谷有关的热液系统提供的泉水和地下水，间接来自与裂谷有关的活动的产物的浸出，如含萤石矿床、与沉积或变质沉积裂谷有关的序列，以及沿裂谷构造就位的火山或变质火山复合体。在解释某一地区目前的氟地球化学时，必须考虑到该地区的整个地质历史。最后，我们强调了可能控制氟化物暴露可能对当地社区造成长期危害的这些地区的各个方面，并指出了目前最好的补救技术，讨论了它们在不同规模和社会背景下的适用性的利弊。

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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来源期刊

AIMS Geosciences GEOSCIENCES, MULTIDISCIPLINARY-

自引率

7.70%

发文量

审稿时长

8 weeks