[1]Distribution of anthropogenic cadmium and arsenic in arable land soils of Hainan, China. Wang, Dengfeng,Dang, Zhiguo,Feng, Huande,Wang, Rongxiang.

[2]Background Estimation and Distribution of Anthropogenic Input of Cadmium in Arable Land Soil. Wang, Dengfeng.

[3]Agricultural image target segmentation based on fuzzy set. Gao, Ronghua,Wu, Huarui,Gao, Ronghua,Wu, Huarui,Gao, Ronghua,Wu, Huarui. 2015

[4]Cadmium-induced oxidative stress and response of the ascorbate-glutathione cycle in Bechmeria nivea (L.) Gaud. Liu, Yunguo,Wang, Xin,Zeng, Guangming,Qu, Dan,Gu, Jiajia,Zhou, Ming,Chal, Liyuan. 2007

[5]Removal of Cd, Pb and Cu from Water Using Thiol and Humic Acid Functionalized Fe2O3 Nanoparticles. Wang Meng,Chen Shibao. 2012

[6]Tissue-specific accumulation of cadmium and its effects on antioxidative responses in Japanese flounder juveniles. Cao, Liang,Huang, Wei,Shan, Xiujuan,Dou, Shuozeng,Huang, Wei,Shan, Xiujuan,Ye, Zhenjiang.

[7]Thermal Effects on the Stability and Antioxidant Activity of an Acid Polysaccharide Conjugate Derived from Green Tea. Chen, Xiaoqiang,Ye, Yang,Cheng, Hao,Jiang, Yongwen,Wu, Yalin.

[8]Trace Elements and Heavy Metals in Asian Rice-Derived Food Products. Guo, Kai,Wells, Shenita,Han, Fengxiang X.,Arslan, Zikri,Sun, Hua,Zhang, Jiuquan.

[9]The bioaccumulation of Cd in rice grains in paddy soils as affected and predicted by soil properties. Ye, Xinxin,Wu, Liang,Sun, Bo,Ye, Xinxin,Li, Hongying,Ma, Yibing,Wu, Liang. 2014

[10]Coupling biological assays with diffusive gradients in thin-films technique to study the biological responses of Eisenia fetida to cadmium in soil. Gu, Xueyuan,Liu, Zhimin,Wang, Xiaorong,Luo, Jun,Ma, Lena Q.,Xue, Yingang,Liu, Zhimin,Zhang, Hao,Davison, William,Ma, Lena Q.,Xue, Yingang. 2017

[11]Cd accumulation and subcellular distribution in two ecotypes of Kyllinga brevifolia Rottb as affected by Cd treatments. Hao, Xiaoqing,Li, Tingxuan,Yu, Haiying,Zhang, Xizhou,Zheng, Zicheng,Chen, Guangdeng,Zhang, Shujin,Zhao, Li,Pu, Yong,Hao, Xiaoqing,Zhang, Shujin,Pu, Yong.

[12]Iron nutrition affects cadmium accumulation and toxicity in rice plants. Shao, Guosheng,Chen, Mingxue,Wang, Weixia,Mon, Renxiang,Zhang, Guoping.

[13]Amending the seedling bed of eggplant with biochar can further immobilize Cd in contaminated soils. Li, Zhongyang,Qi, Xuebin,Fan, Xiangyang,Du, Zhenjie,Hu, Chao,Zhao, Zhijuan,Liu, Yuan,Li, Zhongyang,Qi, Xuebin,Fan, Xiangyang,Du, Zhenjie,Hu, Chao,Zhao, Zhijuan,Liu, Yuan,Isa, Yunusa. 2016

[14]Adsorption of aqueous Cd2+, Pb2+, Cu2+ ions by nano-hydroxyapatite: Single- and multi-metal competitive adsorption study. Chen, S. B.,Ma, Y. B.,Chen, S. B.,Chen, L.,Xian, K.. 2010

[15]Comparison of Soybean Cultivars Enriching Cd and the Application Foreground of the Low-Accumulating Cultivar in Production. Wang, Siqi,Wei, Shuhe,Wang, Siqi,Chen, Yanqiu,Ljupco, Mihajlov. 2017

[16]Tolerance and Removal Mechanisms of Heavy Metals by Fungus Pleurotus ostreatus HAAS. Yang, Suqin,Sun, Xiaoxue,Yang, Suqin,Li, Xuanzhen,Shen, Yanping,Chang, Cheng,Guo, Erhui,Zhao, Yong,Li, Xuanzhen,La, Guixiao.

[17]In Situ Field-Scale Remediation of Low Cd-Contaminated Paddy Soil Using Soil Amendments. Ai, Shao-ying,Wang, Yan-hong,Tang, Ming-deng,Li, Yi-Chun,Li, Lin-feng,Ai, Shao-ying,Wang, Yan-hong,Tang, Ming-deng,Li, Yi-Chun,Li, Lin-feng,Ai, Shao-ying,Wang, Yan-hong,Tang, Ming-deng,Li, Yi-Chun.