Responses of Selenastrum capricornutum, Eisenia fetida, Brassica nigra and Sorghum bicolor to sent phone battery toxicity

Multidisciplinary Science Journal Pub Date : 2024-01-16 DOI:10.31893/multiscience.2024107

O. Ubani, B. Uba, S. J. Modise, E. Okoye, Sylvia C. Omeazu, Chiamaka R. Ndibe, O. Umeh, C. U. Dokubo

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Abstract

Indiscriminate release of spent phone battery in the environment poses a danger to human and animal life. Assessment of their toxicity using bioassays, therefore, becomes imperative. In this study, the Organization for Economic Co-Operation and Development (OECD) standardized toxicity tests exhibited a high degree of sensitivity in evaluating various endpoints across different trophic levels and taxonomic groups. These tests encompass a range of parameters, including mortality rate (h), growth inhibition (ECx), germination, and root length (ECx), providing a comprehensive assessment of spent phone battery toxicity. The responses of Selenastrum capricornutum, Eisenia fetida, Brassica nigra and Sorghum bicolor to spent phone battery toxicity were investigated. Standard methods of analysis for heavy metal, microalgal toxicity, earthworm mortality and phytotoxicity were adopted. S. capricornutum, B. nigra and S. bicolor seeds were exposed for 72 h and 5 d at concentrations ranging from 0 to 100 mg/L or mg/kg while Eisenia fetida exposed for 48 h and 14 d at concentrations ranging from 0 mg/L to 2.10 LC50 mg/kg for Gionee phone battery and 0 mg/L to 3.50 LC50 mg/kg for Lenovo battery samples. The result showed that all the spent phone battery samples (Gionee and Lenovo) had WHO and FEPA exceeded the limits of the heavy metals analyzed. The order of toxicity to S. capricornutum growth is Lenovo > Gionee > positive control K2Cr2O7 after 72 h exposure. On E. fetida, Gionee > Lenovo after 48 h and 14th-day treatments while boric acid > Gionee > Lenovo as well as boric acid > Lenovo > Gionee were observed on B. nigra and S. bicolor, respectively after 5 d exposure. The responses of the model organisms in this study necessitate the establishment of stringent implemental management measures by government and environmental policymakers to effectively address the problems and challenges associated with e-waste.

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硒角藻、Eisenia fetida、黑甘蓝和双色高粱对手机电池毒性的反应

在环境中任意释放废旧手机电池会对人类和动物的生命造成危害。因此，使用生物测定法评估其毒性势在必行。在这项研究中，经济合作与发展组织（OECD）的标准化毒性测试在评估不同营养级和分类群体的各种终点时表现出高度的灵敏性。这些测试包含一系列参数，包括死亡率（h）、生长抑制（ECx）、发芽率和根长（ECx），可对废旧手机电池的毒性进行全面评估。研究了硒角藻、Eisenia fetida、黑甘蓝和双色高粱对废旧手机电池毒性的反应。采用了重金属、微藻毒性、蚯蚓死亡率和植物毒性的标准分析方法。在 0 至 100 毫克/升或毫克/千克的浓度范围内，将毛角藻、黑麦草和双色小麦种子暴露 72 小时和 5 天；在 0 毫克/升至 2.10 LC50 毫克/千克的浓度范围内，将 Gionee 手机电池样本中的 Eisenia fetida 暴露 48 小时和 14 天；在 0 毫克/升至 3.50 LC50 毫克/千克的浓度范围内，将联想电池样本暴露 48 小时和 14 天。结果表明，所有废旧手机电池样品（Gionee 和联想）中的重金属含量均超过了世界卫生组织和欧洲环保局规定的限值。暴露 72 小时后，对羊角藻生长的毒性顺序为联想 > Gionee > 阳性对照 K2Cr2O7。对 E. fetida 而言，48 小时和 14 天处理后，Gionee > Lenovo，而对 B. nigra 和 S. bicolor 而言，5 天接触后，硼酸 > Gionee > Lenovo，硼酸 > Lenovo > Gionee。本研究中模式生物的反应表明，政府和环境决策者有必要制定严格的实施性管理措施，以有效应对与电子废物相关的问题和挑战。

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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Multidisciplinary Science Journal

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