用细菌修复受重金属污染的土壤和造纸业污水。

Environmental analysis, health and toxicology Pub Date : 2020-06-01 Epub Date: 2020-06-30 DOI:10.5620/eaht.e2020009
Uloma Linda Nwaehiri, Peter Ikechukwu Akwukwaegbu, Bertram Ekejiuba Bright Nwoke
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引用次数: 0

摘要

采用标准分析方法对造纸厂重金属污染土壤和污水的细菌修复进行了研究。对造纸厂进行了为期 6 个月的考察,每隔 30 天采集一次土壤和污水样本进行分析。土壤的 pH 值呈弱碱性,而污水呈酸性。与对照组相比,土壤的总有机碳(TOC)以及污水的浊度、生化需氧量(BOD)、化学需氧量(COD)和总有机碳(TOC)都有明显增加(P < 0.05)。从样本中分离出的细菌被分成两组,用于修复八种重金属。修复实验包括三个处理:处理 1(用蛋白细菌处理)、处理 2(用非蛋白细菌处理)和处理 3(不含细菌)(对照实验)。修复研究结果表明,与第 0 天相比,处理 1 和处理 2 在第 30-180 天期间土壤和污水样本中的所有重金属含量都有显著下降(P < 0.05)。土壤中重金属去除率最高的是处理 1 中的铬(Cr;0.00846 天-1),最低的是处理 1 中的镉(Cd;0.00403 天-1);而污水中重金属去除率最高的是处理 1 中的锌(Zn;0.01207 天-1),最低的是处理 1 中的镉(0.00391 天-1)。结论是从土壤和污水样本中分离出的细菌能够修复铅、砷(As)、铬、锌和镍(Ni)重金属的浓度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bacterial remediation of heavy metal polluted soil and effluent from paper mill industry.

Bacterial remediation of heavy metal polluted soil and effluent from paper mill industry.

Bacterial remediation of heavy metal polluted soil and effluent from paper mill industry.

Bacterial remediation of heavy metal polluted soil and effluent from paper mill industry.

Bacterial remediation of heavy metal polluted soil and effluent from paper mill was investigated using standard analytical methods. The paper mill was visited for 6 months at interval of 30 days to collect soil and effluent samples for the analysis. The pH of soil was slightly alkaline while effluent was acidic. There was a significant increase (P < 0.05) in total organic carbon (TOC) of soil; and turbidity, biochemical oxygen demand (BOD), chemical oxygen demand (COD) and TOC of effluent when compared to control. Bacteria isolated from the samples were grouped into two and used to remediate eight heavy metals. The remediation experiment consists of three treatments; Treatment 1 (treated with proteobacteria), Treatment 2 (treated with non-proteobacteria) and Treatment 3 (without bacteria) (control experiment). Result of the remediation study showed that there was a significant decrease (P < 0.05) in Treatment 1 and Treatment 2 of all the heavy metals in soil and effluent samples from day 30-180 when compared to day 0. The rate of removal of heavy metals in soil was highest in Treatment 1 for chromium (Cr; 0.00846 day-1) and lowest in Treatment 1 for cadmium (Cd; 0.00403 day-1) while the rate of removal in effluent was highest in Treatment 1 for zinc (Zn; 0.01207 day-1) and lowest in Treatment 1 for Cd (0.00391 day-1). It was concluded that bacteria isolated from soil and effluent samples were capable of remediating the concentration of Pb, arsenic (As), Cr, Zn and nickel (Ni) heavy metals.

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