Evaluating the bioavailability of rare earth elements in paddy soils and their uptake in rice grains for human health risk.

IF 3.2 3区环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL

Environmental Geochemistry and Health Pub Date : 2025-01-13 DOI:10.1007/s10653-025-02360-9

Zzu-Ying Huang, Chien-Hui Syu, Zeng-Yei Hseu

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引用次数: 0

Abstract

Rare earth elements (REEs) are a critical global focus due to their increasing use, raising concerns about their environmental distribution and human exposure, both vital to food safety and human health. Surface soil (0-30 cm) and corresponding rice grain samples (n = 85) were collected from paddy fields in Taiwan. This study investigated the total REE contents in soil through aqua regia digestion, as well as their labile forms extracted using 0.05 M ethylenediaminetetraacetic acid (EDTA), 0.10 M hydrogen chloride (HCl), and 0.01 M calcium chloride (CaCl₂). The REE concentrations in the rice grains (Oryza sativa L.) were also analyzed. The estimated daily intake (EDI) of REEs through rice consumption for males was 1.3 times higher than that for females. Children under 12 years of age, regardless of gender, had the highest EDI of REEs compared to other age groups. High rice consumption and a high proportion of children are potentially at higher risk for elevated REE exposure. The transport of REEs from soil to rice demonstrated their shift of fractionation by the lower ratio of light REEs and heavy REEs in rice grain compared to soil and their upper continental crust (UCC)-normalized patterns. Empirical equations were developed to estimate the concentrations of REEs in rice grains based on soil pH, clay content, organic carbon, cation exchange capacity, dithionite-citrate-bicarbonate extractable iron, and labile REEs. This study provides critical insights into the health risks of REEs, clarifying their human exposure and the bioavailability from paddy soil to rice.

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评价水稻土中稀土元素的生物利用度及其在稻米中的吸收对人类健康的风险。

稀土元素的使用日益增加，引起了人们对其环境分布和人类暴露的关注，这对食品安全和人类健康至关重要。本研究采自台湾稻田表层土壤（0 ~ 30 cm）及相应的稻米样本（n = 85）。研究了王水消解土壤中稀土元素的含量，以及0.05 M乙二胺四乙酸（EDTA）、0.10 M氯化氢（HCl）和0.01 M氯化钙（CaCl2）提取土壤中稀土元素的活性形态。对水稻籽粒（Oryza sativa L.）的稀土元素含量进行了分析。男性每日通过食用大米摄入的稀土元素（EDI）是女性的1.3倍。与其他年龄组相比，12岁以下的儿童，无论性别，具有最高的EDI ree。高大米消费量和高比例的儿童可能面临较高的稀土元素暴露风险。稀土元素从土壤向水稻的运移表明，与土壤及其上大陆地壳（UCC）归一化模式相比，水稻籽粒中轻稀土元素和重稀土元素的比例较低。根据土壤pH值、粘土含量、有机碳、阳离子交换容量、二硫代-柠檬酸盐-碳酸氢盐可萃取铁和易挥发性稀土，建立了水稻籽粒中稀土浓度的经验方程。这项研究为ree的健康风险提供了重要的见解，阐明了它们的人类暴露和水稻土壤对水稻的生物利用度。

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

Environmental Geochemistry and Health 环境科学-工程：环境

CiteScore

8.00

自引率

4.80%

发文量

279

审稿时长

4.2 months

期刊介绍： Environmental Geochemistry and Health publishes original research papers and review papers across the broad field of environmental geochemistry. Environmental geochemistry and health establishes and explains links between the natural or disturbed chemical composition of the earth’s surface and the health of plants, animals and people. Beneficial elements regulate or promote enzymatic and hormonal activity whereas other elements may be toxic. Bedrock geochemistry controls the composition of soil and hence that of water and vegetation. Environmental issues, such as pollution, arising from the extraction and use of mineral resources, are discussed. The effects of contaminants introduced into the earth’s geochemical systems are examined. Geochemical surveys of soil, water and plants show how major and trace elements are distributed geographically. Associated epidemiological studies reveal the possibility of causal links between the natural or disturbed geochemical environment and disease. Experimental research illuminates the nature or consequences of natural or disturbed geochemical processes. The journal particularly welcomes novel research linking environmental geochemistry and health issues on such topics as: heavy metals (including mercury), persistent organic pollutants (POPs), and mixed chemicals emitted through human activities, such as uncontrolled recycling of electronic-waste; waste recycling; surface-atmospheric interaction processes (natural and anthropogenic emissions, vertical transport, deposition, and physical-chemical interaction) of gases and aerosols; phytoremediation/restoration of contaminated sites; food contamination and safety; environmental effects of medicines; effects and toxicity of mixed pollutants; speciation of heavy metals/metalloids; effects of mining; disturbed geochemistry from human behavior, natural or man-made hazards; particle and nanoparticle toxicology; risk and the vulnerability of populations, etc.