[1]Influence of the system of rice intensification on rice yield and nitrogen and water use efficiency with different N application rates. Zhao, Limei,Wu, Lianghuan,Lu, Xinghua,Zhao, Limei,Li, Yongshan,Zhu, Defeng,Uphoff, Norman.

[2]Temporal changes of radiocesium in irrigated paddy fields and its accumulation in rice plants in Fukushima. Yang, Baolu,Ha, Yiming,Yang, Baolu,Onda, Yuichi,Wakiyama, Yoshifumi,Yoshimura, Kazuya,Sekimoto, Hitoshi.

[3]Phosphorus Adsorption and Bioavailability in a Paddy Soil Amended with Pig Manure Compost and Decaying Rice Straw. Liang, Yongchao,Guo, Bin,Liang, Yongchao,Li, Zhaojun,Han, Fengxiang. 2009

[4]Heavy metal contaminations in soil-rice system: source identification in relation to a sulfur-rich coal burning power plant in Northern Guangdong Province, China. Wang, Xiangqin,Liu Chuanping,Li, Fangbai,Xu, Xianghua,Lv, Yahui,Zeng, Xiaoduo.

[5]Predictive Model for Phosphorus Accumulation in Paddy Soils with Long-Term Inorganic Fertilization. Li, J. M.,Liu, J.,Xu, M. G.,Ma, Y. B.,Li, J. M.,Gao, J. S.. 2012

[6]How Red Mud-Induced Enhancement of Iron Plaque Formation Reduces Cadmium Accumulation in Rice with Different Radial Oxygen Loss. Liu, Zhiyan,Yang, Junxing,Wan, Xiaoming,Peng, Yisheng,Liu, Jie,Wang, Xuedong,Zeng, Min. 2016

[7]Delivery of roxarsone via chicken diet -> chicken -> chicken manure -> soil -> rice plant. Lu, Weisheng,Bai, Cuihua,Huang, Lianxi,He, Zhaohuan,Zhou, Changmin.

[8]Amelioration of Cadmium Polluted Paddy Soils by Porous Hydrated Calcium Silicate. Zhao, Xiu-Lan,Masaihiko, Saigusa.

[9]Increasing CO2 differentially affects essential and non-essential amino acid concentration of rice grains grown in cadmium-contaminated soils. Wu, Huibin,Wu, Huibin,Song, Zhengguo,Wang, Xiao,Liu, Zhongqi,Tang, Shirong.

[10]Effects of a diet containing genetically modified rice expressing the Cry1Ab/1Ac protein (Bacillus thuringiensis toxin) on broiler chickens. Li, Zeyang,Gao, Yang,Zhang, Minhong,Feng, Jinghai,Xiong, Yandan,Li, Zeyang.

[11]Analysis of N2O Emissions from Greenhouse Soil Under Different Irrigation Water and Nitrogen Conditions. Li, Yin-Kun,Wang, Li-Chun,Duan, Min-Jie. 2015

[12]Sewage irrigation increased methane and nitrous oxide emissions from rice paddies in southeast China. Zou, Jianwen,Liu, Shuwei,Qin, Yanmei,Pan, Genxing,Zhu, Dawei.

[13]Enhancement of tolerance of Indian mustard (Brassica juncea) to mercury by carbon monoxide. Meng, De Kun,Yang, Zhi Min,Chen, Jian. 2011

[14]Mercury contamination of fungi genus Xerocomus in the Yunnan province in China and the region of Europe. Kojta, Anna K.,Saba, Martyna,Falandysz, Jerzy,Zhang, Ji,Wang, Yuanzhong,Li, Tao. 2015

[15]Mercury Fluxes And Pools In Three Subtropical Forested Catchments, Southwest China. Wang, Zhangwei,Zhang, Xiaoshan,Zhijia, Ci,Xiao, Jingsong,Yu, Pingzhong.

[16]Effect of organic matter and pH on mercury release from soils. Yang, Yong-Kui,Zhang, Cheng,Shi, Xiao-Jun,Lin, Tao,Wang, Ding-Yong. 2007

[17]Estimation of mercury emission from different sources to atmosphere in Chongqing, China. Wang, Dingyong,He, Lei,Wei, Shiqiang,Feng, Xinbin. 2006

[18]Characteristics of dissolved organic matter (DOM) and relationship with dissolved mercury in Xiaoqing River-Laizhou Bay estuary, Bohai Sea, China. Jiang, Tao,Wang, Dingyong,Gao, Jie,Li, Chuxian,Jiang, Tao,Skyllberg, Ulf,Tang, Jianhui,Bjorn, Erik,Green, Nelson W..

[19]A reusable and sensitive biosensor for total mercury in canned fish based on fluorescence polarization. Shen, Tongfei,Yue, Qiaoli,Jiang, Xiuxiu,Wang, Lei,Xu, Shuling,Li, Haibo,Liu, Jifeng,Gu, Xiaohong,Zhang, Shuqiu.

[20]The effect of different TiO2 nanoparticles on the release and transformation of mercury in sediment. Zhang, Jinyang,Zhang, Jinyang,Li, Chuxian,Wang, Dingyong,Zhang, Cheng,Liang, Li,Zhou, Xiong,Wang, Dingyong,Zhang, Cheng.