利用化学和生物学评估方法研究咖啡渣及其生物炭对重金属污染水和土壤的修复效果。

The effectiveness of spent coffee grounds and its biochar on the amelioration of heavy metals-contaminated water and soil using chemical and biological assessments.

作者信息

Kim Min-Suk, Min Hyun-Gi, Koo Namin, Park Jeongsik, Lee Sang-Hwan, Bak Gwan-In, Kim Jeong-Gyu

机构信息

Division of Environmental Science and Ecological Engineering, College of Life and Environmental Sciences, Korea University, Seoul 136-713, Republic of Korea.

Division of Forest Soil & Water Conservation, Korea Forest Research Institute, Seoul 130-712, Republic of Korea.

出版信息

J Environ Manage. 2014 Dec 15;146:124-130. doi: 10.1016/j.jenvman.2014.07.001. Epub 2014 Aug 28.

DOI:10.1016/j.jenvman.2014.07.001

PMID:25242543

Abstract

Spent coffee grounds (SCG) and charred spent coffee grounds (SCG-char) have been widely used to adsorb or to amend heavy metals that contaminate water or soil and their success is usually assessed by chemical analysis. In this work, the effects of SCG and SCG-char on metal-contaminated water and soil were evaluated using chemical and biological assessments; a phytotoxicity test using bok choy (Brassica campestris L. ssp. chinensis Jusl.) was conducted for the biological assessment. When SCG and SCG-char were applied to acid mine drainage, the heavy metal concentrations were decreased and the pH was increased. However, for SCG, the phytotoxicity increased because a massive amount of dissolved organic carbon was released from SCG. In contrast, SCG-char did not exhibit this phenomenon because any easily released organic matter was removed during pyrolysis. While the bioavailable heavy metal content decreased in soils treated with SCG or SCG-char, the phytotoxicity only rose after SCG treatment. According to our statistical methodology, bioavailable Pb, Cu and As, as well as the electrical conductivity representing an increase in organic content, affected the phytotoxicity of soil. Therefore, applying SCG during environment remediation requires careful biological assessments and evaluations of the efficiency of this remediation technology.

摘要

废弃咖啡渣（SCG）和炭化废弃咖啡渣（SCG-char）已被广泛用于吸附或改良污染水或土壤的重金属，其效果通常通过化学分析来评估。在这项工作中，使用化学和生物学评估方法评估了SCG和SCG-char对金属污染水和土壤的影响；采用小白菜（Brassica campestris L. ssp. chinensis Jusl.）进行了植物毒性试验以进行生物学评估。当将SCG和SCG-char应用于酸性矿山排水时，重金属浓度降低，pH值升高。然而，对于SCG，植物毒性增加，因为SCG释放出大量溶解有机碳。相比之下，SCG-char没有出现这种现象，因为在热解过程中任何易释放的有机物都被去除了。虽然用SCG或SCG-char处理的土壤中生物可利用重金属含量降低，但仅在SCG处理后植物毒性才升高。根据我们的统计方法，生物可利用的铅、铜和砷，以及代表有机含量增加的电导率，影响了土壤的植物毒性。因此，在环境修复过程中应用SCG需要仔细进行生物学评估和对这种修复技术效率的评估。

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利用化学和生物学评估方法研究咖啡渣及其生物炭对重金属污染水和土壤的修复效果。

The effectiveness of spent coffee grounds and its biochar on the amelioration of heavy metals-contaminated water and soil using chemical and biological assessments.

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