在尼日利亚扎姆法拉州Bagega金矿村进行去污演习后,疫情后动物接触铅

M. Tijjani, Bello Mohammed Agaie, Kenneth Idowu Onifade, A. Mainasara, I. Yusuf, Abdulyakeen Olawale Tijjani
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引用次数: 1

摘要

这项研究的重点是对尼日利亚Bagega村手工采金造成的环境铅污染进行评价,这是在进行清理工作一年后进行的。水样采集自土坝、水龙头和水井,植物和土壤样本采集自牧场、居民区和金矿附近的地点。用原子吸收分光光度计对样品进行消化和铅浓度分析。建议的水中铅含量安全水平为0.01 ppm,分析的所有水源都显示铅浓度升高。土坝、自来水和井水铅浓度分别为31.49±7.1、5.98±1.5和7.14±1.2 ppm。放牧区铅浓度为4.6±7.5 mg/kg,居住区和矿区附近铅浓度分别为46.84±10和1153±165 mg/kg。两种植物阴道树(Alysicarpus vaginalis)和马地黄(Digitaria desoutis)具有独特的高生物积累比,表明它们有可能成为铅的高积累者。鉴于国际标准接受的铅含量为420ppm及以下,居民区和牧场可能是安全的,但矿区附近的有毒浓度可能不安全。对于动物饲料,除阴道草外,所有植物成分的铅含量均较低。本研究提示土壤修复可能是一种有效的去污方法。此外,研究区内的食草植物并不是动物铅暴露的重要来源。然而,水体可能构成动物和人类接触铅的可能途径。因此,有必要通过固定矿区的铅来防止水污染,因为铅可能会浸出到水体中。关键词:动物,Bagega,采矿,环境,净化
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Post-epidemic lead exposure to animals following a decontamination exercise in gold mining village of Bagega, Zamfara State, Nigeria
This study focused on the evaluation of environmental lead contamination due to artisanal gold mining at a Nigerian village of Bagega one year after a clean-up exercise was carried out. Water samples were collected from earthen dams, faucets and wells, while plant and soil samples from grazing fields, residential areas and sites within the vicinity of the gold mine. The collected samples were digested and analyzed for lead concentration using the atomic absorption spectrophotometer. The recommended safe level of lead in water is 0.01 ppm and all the sources of water analyzed showed elevated lead concentrations. Water from the earthen dam, tap and well had lead concentrations of 31.49±7.1, 5.98±1.5 and 7.14±1.2 ppm, respectively. In the grazing area, the lead concentration was 4.6±7.5 mg/kg, whereas in the residential area and mining vicinity, the concentrations were 46.84±10 and 1153± 165 mg/kg, respectively. Two plants, Alysicarpus vaginalis and Digitaria debilis had a uniquely high bioaccumulation ratio, suggesting their potential as hyperaccumulators of lead. Given that international standards accept lead levels of 420 ppm and below, the residential area and the grazing fields may be safe, but the vicinity of the mine which had a toxic concentration could be unsafe. For animal feed, all plant ingredients analyzed accumulated low levels of lead except for A. vaginalis. This study suggests that soil remediation may be an effective decontaminating procedure. Additionally, grazing plants in the study area are not important sources of lead exposure to animals. However, water bodies may constitute a probable route of lead exposure to both animals and humans. Therefore, there is a need to prevent water contamination by immobilizing lead from the mining site which could be potentially leached into water bodies. Key words: Animals, Bagega, mining, environment, decontamination.
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