Combined modification of clay with sulfhydryl and iron: Toxicity alleviation in Cr-contaminated soils for mustard (Brassica juncea) growth

文献类型: 外文期刊

第一作者: Liu, Chengshuai

作者: Liu, Chengshuai;Fei, Yingheng;Liu, Chengshuai;Li, Fangbai;Chen, Manjia;Tong, Hui;Liu, Chuanping;Liao, Changzhong

作者机构:

关键词: Bentonite;Chromium;Soil remediation;Thiol modification;Thiol/Fe modification

期刊名称:JOURNAL OF GEOCHEMICAL EXPLORATION ( 影响因子:3.746; 五年影响因子:4.362 )

ISSN: 0375-6742

年卷期: 2017 年 176 卷

页码:

收录情况: SCI

摘要: Clays are promising adsorbents for heavy metal removal from the environment because they are economical, naturally abundant and environmentally stable. Application of natural clays, however, are typically limited due to their adsorption capacity and because they usually possess little redox potential except for some specific clays with special functional groups, restricting their application in the removal and detoxification of oxidized metal ions, such as Cr(VI). In the present study, natural bentonite was modified with thiol and iron functional groups to improve both its adsorption performance and reduction ability. Material characterization techniques confirmed the success of grafting the thiol group and pillaring the reduced Fe in the clay. Batch adsorption tests demonstrated an enhanced Cr-adsorption capability of the functionalized bentonite. Moreover, the reduced product, Cr(III),was accumulated in the reaction system, indicating a decrease in Cr(VI) toxicity due to its reduction to Cr(III)by the reduced iron functional group in the modified clay. Pot experiments, using mustard as the target seedling, further demonstrated that the thiol/Fe-modified clay could efficiently stabilize and detoxify Cr(VI) in the soil, therefore inhibiting its accumulation in the crop tissues and ultimately improving plant growth. The results suggested that this novel clay modified with sulfhydryl and iron might be a promising material for the stabilization and toxicity alleviation of Cr(VI)-contaminated soils. (C) 2016 Elsevier B.V. All rights reserved.

分类号:

  • 相关文献

[1]In situ stabilization remediation of cadmium (Cd) and lead (Pb) co-contaminated paddy soil using bentonite. Sun, Yuebing,Li, Ye,Xu, Yingming,Liang, Xuefeng,Wang, Lin,Sun, Yuebing,Xu, Yingming,Liang, Xuefeng,Wang, Lin. 2015

[2]Removal of rhodamine B using iron-pillared bentonite. Hou, Mei-Fang,Zhang, Wei-De,Hou, Mei-Fang,Tang, Xiao-Yan,Fan, Yan-Ning,Wan, Hong-Fu,Ma, Cai-Xia.

[3]Adsorption of 2-mercaptobenzothiazole from aqueous solution by organo-bentonite. Jing, Ping,Zhao, Ping,Hou, Meifang,Tang, Xiaoyan,Wan, Hongfu,Jing, Ping.

[4]Eco-physiological Responses of Rice (Oryza sativa L.) Roots to Zinc, Chromium Stress. Zhang, Qingsong,Zhu, Xuemei,Yang, Yuanxiang,Yuan, Weiding,Lin, Lijin,Liu, Qihua,Shao, Jirong. 2010

[5]Chemical properties of soil layers of restoration sites in phosphate mining area, China. Li, Gui-Xiang,Shao, Jin-Ping,Zhou, Bin,Bi, Bo,Fang, Xiang-Jing,Zhang, Ji,Wang, Yuan-Zhong,Xie, Kai-Ming. 2015

[6]Identification of genome-wide single-nucleotide polymorphisms (SNPs) associated with tolerance to chromium toxicity in spring wheat (Triticum aestivum L.). Almas, Fakhrah,Hassan, Adeel,Bibi, Arfa,Ali, Masab,Lateef, Sadia,Mahmood, Tariq,Quraishi, Umar Masood,Rasheed, Awais. 2018

[7]Phytoremediation of Zn- and Cr-Contaminated Soil Using Two Promising Energy Grasses. Li, C.,Xiao, B.,Wang, Q. H.,Yao, S. H.,Wu, J. Y.,Xiao, B.. 2014

[8]Micro/nanostructured hydroxyapatite structurally enhances the immobilization for Cu and Cd in contaminated soil. Dong, Anle,Ye, Xinxin,Zhang, Yunxia,Wang, Guozhong,Dong, Anle,Li, Hongying. 2016

[9]Phytotoxicity and accumulation of chromium in carrot plants and the derivation of soil thresholds for Chinese soils. Ding, Changfeng,Li, Xiaogang,Zhang, Taolin,Wang, Xingxiang,Ding, Changfeng,Zhang, Taolin,Wang, Xingxiang,Ma, Yibing,Wang, Xingxiang.

[10]Reductive immobilization of pertechnetate in soil and groundwater using synthetic pyrite nanoparticles. Huo, Lijuan,Qian, Tianwei,Zhao, Dongye,Xie, Wenbo,Zhao, Dongye,Huo, Lijuan,Guan, Xiaohong.

[11]Potential use of cotton for remediating heavy metal-polluted soils in southern China. Xiongfeng Ma,Cangsong Zheng,Wei Li,Dong, Helin,Yang, Daigang,Shaoying Ai,Zhigang Zhang,Xiaojian Zhou,Chaoyou Pang,Haodong Chen,Kehai Zhou,Mingdeng Tang,Linfeng Li,Yanhong Wang,Yichun Li,Lishuang Guo,Helin Dong,Daigang Yang. 2017

[12]Reduced Glutathione Mediates Phone-Ultrastrcture, Kinome and Transportome in Chromium-Induced Brassica napus L.. Gill, Rafaqat A.,Ali, Basharat,Yang, Su,Islam, Faisal,Gill, Muhammad Bilal,Mwamba, Theodore M.,Ali, Skhawat,Zhou, Weijun,Gill, Rafaqat A.,Ali, Basharat,Yang, Su,Islam, Faisal,Gill, Muhammad Bilal,Mwamba, Theodore M.,Ali, Skhawat,Zhou, Weijun,Gill, Rafaqat A.,Mao, Bizeng,Ali, Basharat,Tong, Chaobo,Liu, Shengyi. 2017

[13]Adsorption kinetics, isotherms and thermodynamics of Cr(III) on graphene oxide. Yang, Shuang,Pei, Zhiguo,Li, Chunmei,Lv, Jitao,Xie, Jieli,Wen, Bei,Zhang, Shuzhen,Li, Lingyun.

[14]Short-Term Chromium-Stress-Induced Alterations in the Maize Leaf Proteome. Wang, Rong,Huang, Ji-Chang,Gao, Fei,Guo, Bing-Qian,Zhou, Yi-Jun,Gao, Fei,Wang, Lei. 2013

[15]Alleviation of Chromium Toxicity by Silicon Addition in Rice Plants. Zeng Fan-rong,Qiu Bo-yin,Wu Fei-bo,Zhang Guo-ping,Zhao Fu-sheng,Ouyang You-nan. 2011

[16]The influence of biochar type on long-term stabilization for Cd and Cu in contaminated paddy soils. Li, Hongying,Ye, Xinxin,Geng, Zhigang,Zhou, Hongjian,Zhang, Yunxia,Zhao, Huijun,Wang, Guozhong,Li, Hongying,Guo, Xisheng,Zhao, Huijun.

[17]Evaluating the Effects of Silent Discharge Plasma on Remediation of Acid Scarlet GR-Contaminated Soil. Lu, Na,Li, Jie,Wu, Yan,Lou, Jing,Wang, Cui Hua. 2014

[18]Effect of Chromium Picolinate Supplementation on Growth Performance and Meat Characteristics of Swine. Dong, Baojun,Zhang, MinHong,Yang, Jiajun,Zhang, Hongbing,Dong, Baojun,Yang, Jiajun. 2011

[19]Modified natural diatomite and its enhanced immobilization of lead, copper and cadmium in simulated contaminated soils. Ye, Xinxin,Kang, Shenghong,Wang, Huimin,Zhang, Yunxia,Wang, Guozhong,Zhao, Huijun,Li, Hongying,Zhao, Huijun.

[20]The effect of different divalent cations on the reduction of hexavalent chromium by zerovalent iron. Hou, Meifang,Wan, Hongfu,Liu, Tinglin,Fan, Yanning,Liu, Xinming,Wang, Xugang.

作者其他论文 更多>>

微信小程序