Cadmium accumulation characteristics of the winter farmland weeds Cardamine hirsuta Linn. and Gnaphalium affine D. Don

文献类型: 外文期刊

第一作者: Liao, Ming'an

作者: Liao, Ming'an;Mei, Luoyin;Shi, Jun;Liu, Qihua

作者机构:

关键词: Cardamine hirsuta Linn;Gnaphalium affine D. Don;Cadmium;Hyperaccumulator

期刊名称:ENVIRONMENTAL MONITORING AND ASSESSMENT ( 影响因子:2.513; 五年影响因子:2.871 )

ISSN: 0167-6369

年卷期: 2014 年 186 卷 7 期

页码:

收录情况: SCI

摘要: In a preliminary study, we found that the cadmium (Cd) concentrations in shoots of the winter farmland weeds Cardamine hirsuta Linn. and Gnaphalium affine D. Don exceeded the critical value of a Cd-hyperaccumulator (100 mg kg(-1)), indicating that these two farmland weeds might be Cd-hyperaccumulators. In this study, we grew these species in soil containing various concentrations of Cd to further evaluate their Cd accumulation characteristics. The biomasses of C. hirsuta and G. affine decreased with increasing Cd concentrations in the soil, while the root/shoot ratio and the Cd concentrations in shoot tissues increased. The Cd concentrations in shoots of C. hirsuta and G. affine reached 121.96 and 143.91 mg kg(-1), respectively, at the soil Cd concentration of 50 mg kg(-1). Both of these concentrations exceeded the critical value of a Cd-hyperaccumulator (100 mg kg(-1)). The shoot bioconcentration factors of C. hirsuta and G. affine were greater than 1. The translocation factor of C. hirsuta was less than 1 and that of G. affine was greater than 1. These findings indicated that C. hirsuta is a Cd-accumulator and G. affine is Cd-hyperaccumulator. Both plants are distributed widely in the field, and they could be used to remediate Cd-contaminated farmland soil in winter.

分类号:

  • 相关文献

[1]Plant Hairy Roots for Remediation of Aqueous Pollutants. Zhou, Mei-Liang,Tang, Yi-Xiong,Wu, Yan-Min.

[2]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

[3]Manganese tolerance and accumulation in six Mn hyperaccumulators or accumulators. Tang, Xiumei,Gong, Chunfeng,Xu, GenDi,Liu, Peng,Tang, Xiumei,Tang, Xiumei.

[4]Effect of citric acid on phytoextraction and antioxidative defense in Solanum nigrum L. as a hyperaccumulator under Cd and Pb combined pollution. Xia, Jun,Miao, Chiyuan,Gao, Yang,Mao, Liang,Zhou, Pei,Shi, Wanjun,Luo, Chunyan. 2012

[5]Role of transpiration and metabolism in translocation and accumulation of cadmium in tobacco plants (Nicotiana tabacum L.). Liu, Haiwei,Wang, Haiyun,Wang, Haohao,Shi, Yi,Ma, Yibing.

[6]Distribution Characteristics of Soil Cadmium in Different Textured Paddy Soil Profiles and Its Relevance with Cadmium Uptake by Crops. Wang Zheng-yin,Qin Yu-sheng,Zhan Shao-jun,Yu Hua,Tu Shi-hua. 2013

[7]INTERCROPPING DIFFERENT VARIETIES OF RADISH CAN INCREASE CADMIUM ACCUMULATION IN RADISH. Liao, Ming'an,Mei, Luoyin,Liu, Qihua,Shi, Jun,Sun, Jinlong.

[8]Cadmium Accumulation in soil and Celery from a Long-Term Manure Applied Field Experiment. Sun, Qinping,Li, Jijin,Liu, Bensheng,Gao, Lijuan,Xu, Junxiang,Zou, Guoyuan,Liu, Baocun. 2013

[9]Oxidative Stress-Mediated Cytotoxicity of Cadmium in Chicken Splenic Lymphocytes. Li, Jin-Long,Tang, Zhao-Xin,Li, Jin-Long,Li, Shu,Xu, Shi-Wen,Li, Hui-Xin,Wang, Xiao-Long. 2010

[10]Effect of Dietary Cadmium on the Activity of Glutathione S-Transferase and Carboxylesterase in Different Developmental Stages of the Oxya chinensis (Orthoptera: Acridoidea). Zhang, Y. P.,Song, D. N.,Wu, H. H.,Yang, H. M.,Zhang, J. Z.,Ma, E. B.,Guo, Y. P.,Zhang, Y. P.,Li, L. J.. 2014

[11]Soil threshold values of total and available cadmium for vegetable growing based on field data in Guangdong province, South China. Sun, Fang Fang,Wang, Fu Hua,Wang, Xu,He, Wu,Wen, Dian,Wang, Qi Feng,Liu, Xiang Xiang,Sun, Fang Fang,Wang, Fu Hua,Wang, Xu,He, Wu,Wen, Dian,Wang, Qi Feng,Liu, Xiang Xiang. 2013

[12]Characterization of a Type 1 Metallothionein Gene from the Stresses-Tolerant Plant Ziziphus jujuba. Yang, Mingxia,Cao, Qiufen,Chen, Mingchang,Yang, Mingxia,Dong, Zhigang,Zhang, Fan,Wang, Fan,Cao, Qiufen,Chen, Mingchang. 2015

[13]Protective Effects of Quercetin on Cadmium-induced Cytotoxicity in Primary Cultures of Rat Proximal Tubular Cells. Wang Lin,Liu Gang,Wang Zhen Yong,Lin Shu Qian,He Yuan Long. 2013

[14]Antioxidative systems, metal ion homeostasis and cadmium distribution in Iris lactea exposed to cadmium stress. Guo, Qiang,Meng, Lin,Zhang, Ya-Nan,Mao, Pei-Chun,Tian, Xiao-Xia,Li, Shan-Shan,Zhang, Lin. 2017

[15]Removal of cadmium from contaminated Lentinula edodes by optimized complexation and coagulation. Wang, Yi,Wang, Chen,Cheng, Wei,Guo, Peng,Bian, Yinbing. 2017

[16]Cadmium and lead contamination in japonica rice grains and its variation among the different locations in southeast China. Cheng, FM,Zhao, NC,Xu, HM,Li, Y,Zhang, WF,Zhu, ZW,Chen, MX. 2006

[17]Cadmium Disrupts the Balance between Hydrogen Peroxide and Superoxide Radical by Regulating Endogenous Hydrogen Sulfide in the Root Tip of Brassica rapa. Lv, Wenjing,Shi, Zhiqi,Chen, Jian,Lv, Wenjing,Yang, Lifei,Lv, Wenjing,Shi, Zhiqi,Chen, Jian,Xu, Cunfa,Shao, Jinsong,Xian, Ming. 2017

[18]A Label-Free Aptamer-Based Fluorescent Assay for Cadmium Detection. Luan, Yunxia,Lu, Anxiang,Chen, Jiayi,Fu, Hailong,Xu, Li,Luan, Yunxia,Lu, Anxiang,Chen, Jiayi,Fu, Hailong,Xu, Li. 2016

[19]Comparison on cellular mechanisms of iron and cadmium accumulation in rice: prospects for cultivating Fe-rich but Cd-free rice. Gao, Lei,Chang, Jiadong,Chen, Ruijie,Li, Hubo,Lu, Hongfei,Xiong, Jie,Gao, Lei,Chang, Jiadong,Chen, Ruijie,Li, Hubo,Lu, Hongfei,Xiong, Jie,Tao, Longxing. 2016

[20]Speciation Analysis of Cadmium in Marine Bivalves by Size Exclusion Chromatography-High Performance Liquid Chromatography-Inductively Coupled Plasma Mass Spectrometry. Zhao Yan-Fang,Shang De-Rong,Ning Jin-Song,Zhai Yu-Xiu. 2012

作者其他论文 更多>>

微信小程序