Soil Geochemical Mapping of the Sal Island (Cape Verde): Ecological and Human Health Risk Assessment

Land Pub Date : 2024-07-25 DOI:10.3390/land13081139
Luísa Diniz, Gelson Carlos, Carmelita Miranda, P. Dinis, Rosa Marques, Fernando Rocha, E. F. D. Silva, Agostinho A. Almeida, Marina M. S. Cabral-Pinto
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Abstract

Geochemical mapping is the base of knowledge needed to determine the critical contents of potential toxic elements and the potentially hazardous regions on the planet. This work presents maps of baseline values of chemical elements in the soils of Sal Island (Cape Verde) and the assessment of their ecological and human health risks. According to the results, Ba, Co, Ni, and V baseline values are above the international guidelines for agricultural and residential proposed uses. Arsenic in the soil overlying the Ancient Eruptive Complex shows a high potential ecological risk factor. It is not clear if high As contents in soils have a geogenic or anthropogenic source. Hazard indexes (HI) were calculated for children and adults. For children, HI is higher than 1 for Co, Cr, and Mn, indicating potential non-carcinogenic risk. These elements are present in high content in soils covering Quaternary sediments, the Monte Grande-Pedra Lume Formation, and the Ancient Eruptive Complex, inducing belief in a geogenic source. For the other elements and for adults, there is no potential non-carcinogenic risk. Cancer risk (CR) was calculated for As, Cd, Cr, and Ni exposures for adults and children, and the results are mainly lower than the carcinogenic target risk value, indicating no cancer risk. Only in a few soil samples are CR results slightly higher than the carcinogenic target risk of 1 × 10−4 2 × 10−6 for adults exposed to Cr by inhalation. It is important to emphasize that these results of the health risk associated with exposure are likely to overestimate the bioavailable fractions of the elements in the soil once it is used as aqua regia instead of physiological fluids to digest the soil. However, since measured concentrations of potential toxic elements in soil reveal that they can be harmful to both the environment and human health, regional activities such as agriculture or water exploitation must be controlled by competent authorities. These conclusions highlight the insights and the applicability of soil geochemistry surveys for future policy progress, which are particularly relevant in developing countries like the Cape Verde archipelago.
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萨尔岛(佛得角)土壤地球化学绘图:生态和人类健康风险评估
地球化学制图是确定地球上潜在有毒元素临界含量和潜在危险区域所需的知识基础。这项研究绘制了萨尔岛(佛得角)土壤中化学元素的基准值图,并对其生态和人类健康风险进行了评估。结果显示,钡、钴、镍和钒的基线值均高于农业和住宅拟议用途的国际准则。古火山喷发区上覆土壤中的砷显示出较高的潜在生态风险因素。目前尚不清楚土壤中的高砷含量是来自地质还是人为因素。对儿童和成人的危害指数(HI)进行了计算。对儿童而言,钴、铬和锰的危害指数高于 1,表明存在潜在的非致癌风险。这些元素在覆盖第四纪沉积物的土壤、Monte Grande-Pedra Lume 地层和古火山喷发复合体中含量较高,因此人们相信这些元素来自地质来源。对于其他元素和成人来说,没有潜在的非致癌风险。对成人和儿童暴露于砷、镉、铬和镍的致癌风险(CR)进行了计算,结果主要低于致癌目标风险值,表明没有致癌风险。只有少数土壤样本的 CR 结果略高于成人吸入铬的致癌目标风险值 1 × 10-4 2 × 10-6。需要强调的是,一旦将土壤用作王水而不是生理液来消化土壤,这些与接触有关的健康风险结果很可能会高估土壤中元素的生物可利用部分。然而,由于土壤中潜在有毒元素的测量浓度显示,它们可能对环境和人类健康都有害,因此农业或水资源开发等区域活动必须受到主管当局的控制。这些结论强调了土壤地球化学调查对未来政策进展的洞察力和适用性,这对佛得角群岛等发展中国家尤为重要。
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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