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[1]Chuan Wu, Wenhui An, Ziyu Liu, Jun Lin, Ziyan Qian, Shengguo Xue.The effects of biochar as the electron shuttle on the ferrihydrite reduction and related arsenic (As) fate, https://doi.org/10.1016/j.jhazmat.2019.121391.[J]:Journal of Hazardous Materials,2019
[2]Chuan Wu, Lizheng Shi, Shengguo Xue, Waichin Li, Xingxing Jiang, Manikandan Rajendran.Effect of sulfur-iron modified biochar on the available cadmium and bacterial community structure in contaminated soils.[J]:Science of the Total Environment,2019,647:1158–1168
[3]Chuan Wu,Mengqian Cui, Shengguo Xue, Waichin Li, Liu Huang, Xingxing Jiang, ZiYan Qian.Remediation of arsenic-contaminated paddy soil by iron-modified biochar,https://doi.org/10.1007/s11356-018-2268-8.[J]:Environmental Science and Pollution Research,2018
[4]Qi Zou, Wenhui An, Chuan Wu*, Waichin Li, Anqin Fu, Ruiyang Xiao, Huikang Chen, Shengguo Xue*.Red mud?modified biochar reduces soil arsenic availability and?changes bacterial composition:Environmental Chemistry Letters,2018,16:615–622
[5]Jingtao Hou, Yongjin Xiang, Dan Zheng, Yuanzhi Li, Shengguo Xue*, Chuan Wu*, William Hartley, Wenfen.Morphology-dependent enhancement of arsenite oxidation to arsenate on birnessite-type manganese oxide.[J]:Chemical Engineering Journal,327:235–243
[6]Xiangfeng Kong, Tao Tian, Shengguo Xue*, William Hartley, Longbin Huang, Chuan Wu*, Chuxuan Li..Development of alkaline electrochemical characteristics demonstrates soil formation in bauxite residue undergoing natural rehabilitation.[J]:Land Degradation & Development,2018,29:58-67
[7]Shengguo Xue, Lizheng Shi, Chuan Wu*, Hui Wu, Yanyan Qin , Weisong Pan, William Hartley, Mengqian Cu.Cadmium, lead, and arsenic contamination in paddy soils of a mining area and their exposure effects on human HEPG2 and keratinocyte cell-lines.[J]:Environmental Research,2017,156:23–30
[8]Weisong Pan, Chuan Wu*, Qiming Wang, Zhaohong Su, Hui Zhou, Anna King Chuen Chung, William Hartley.Effect of wetland plants and bacterial inoculation on dissipation of phenanthrene.[J]:International Journal of Phytoremediation,2017,19(10):870-876
[9]Chuan Wu, Liu Huang, Sheng-Guo Xue*, Li-Zheng Shi, William Hartley, Mengqian Cui, Ming-Hung Wong.Arsenic sorption by red mud-modified biochar produced from rice straw.[J]:Environmental Science and Pollution Research,2017:DOI:10.1007/s11356-0
[10]Jingtao Hou, Yongjin Xiang, Dan Zheng, Yuanzhi Li, Shengguo Xue*, Chuan Wu*, William Hartley, Wenfen.Morphology-dependent enhancement of arsenite oxidation to arsenate on birnessite-type manganese oxide.[J]:Chemical Engineering Journal,2017,327:235–243
[11]Chuan Wu, Qi Zou, Shengguo Xue, Weisong Pan, Liu Huang, William Hartley, Jingyu Mo, Minghuang Wong.The effect of silicon on iron plaque formation and arsenic accumulation in rice genotypes with different radial oxygen loss (ROL).[J]:Environmental Pollution,2016,212:27-33
[12]Chuan Wu, Zhihong Ye, Hui Li, Shengchun Wu, Dan Deng, Yongguan Zhu, Minghung Wong.Do radial oxygen loss and external aeration affect iron plaque formation and arsenic accumulation and speciation in rice?.[J]:Journal of Experimental Botany,2012,63:2961-2970
[13]Chuan Wu, Zhihong Ye, Wensheng Shu, Yongguan Zhu, Minghung Wong.Arsenic accumulation and speciation in rice are affected by root aeration and variation of genotypes.[J]:Journal of Experimental Botany,2011,62:2889-2898
[14]Shengguo Xue*, Feng Zhu, Xiangfeng Kong, Chuan Wu*, Ling Huang, Nan Huang, William Hartley.A review of the characterization and revegetation of bauxite residues (Red mud).[J]:Environmental Science and Pollution Research,2016,23:1120–1132
[15]Chuan Wu, Liu Huang, Shengguo Xue, Weisong Pan, Qi Zou, William Hartley, Minghuang Wong.Oxic and anoxic conditions affect arsenic (As) accumulation and arsenite transporter expression in rice.[J]:Chemosphere,2017,168:969-975
[16]Chuan Wu, Qi Zou, Shengguo Xue, Weisong Pan, Xu Yue, William Hartley, Liu Huang, Jingyu Mo.Effect of silicate on arsenic fractionation in soils and its accumulation in rice plants.[J]:Chemosphere,2016,165:478-486
[17]Chuan Wu, Qi Zou, Shengguo Xue, Jingyu Mo, Weisong Pan, Laiqing Lou, Ming Hung Wong.Effects of silicon (Si) on arsenic (As) accumulation and speciation in rice (Oryza sativa L.) genotypes with different radial oxygen loss (ROL).[J]:Chemosphere,2015,138:447–453
[18]Chuan Wu, Qiongli Wang, Shengguo Xue, Weisong Pan, Laiqing Lou, Daojun Li, William Hartley.Do aeration conditions affect arsenic and phosphate accumulation and phosphate transporter expression in rice (Oryza sativa L.)?:Environmental Science and Pollution Research,2017
[19]Chuan Wu, Hui Li, Zhihong Ye, Fuyong Wu, Minghung Wong.Effects of As levels on radial oxygen loss and As speciation in rice.[J],2013,20:8334-8341
[20]Shengguo Xue, Feng Zhu, Chuan Wu*, Jie Lei, William Hartley, Weisong Pan.Effects of manganese on the microstructures of Chenopodium ambrosioides L., a manganese tolerant plant.[J]:International Journal of Phytoremediation,2016,18:710–719
[21]Weisong Pan, Chuan Wu*, Shengguo Xue, William Hartley.Arsenic dynamics in the rhizosphere and its sequestration on rice roots as affected by root oxidation.[J]:Journal of Environmental Sciences(26):892-899
[22]Chuan WU, Liu HUANG, Sheng-guo XUE, Wei-song PAN, William Hartley, Qi ZOU, Jing-yu MO.Effect of arsenic on the spatial pattern of radial oxygen loss (ROL) and iron plaque formation in rice.[J]:Transactions of Nonferrous Metals Society of China,2017
[23]Chuan Wu, Bin Liao, Shenglong Wang, Jun Zhang, Jintian Li.Pb and Zn accumulation in a Cd-hyperaccumulator (Viola baoshanensis).[J]:International Journal of Phytoremediation,2010,12:574–585
[24]Chuan Wu, Wei-song Pan, Sheng-guo Xue*, Jing-yu Mo, Ming-hung Wong.Effects of root oxidation ability and P on As mobility and bioavailability in rice.[J]:Journal of Central South University,2015,22:74?81
[25]吴川,莫竞瑜,薛生国*,罗超睿.不同渗氧能力水稻品种对砷的耐性和积累:生态学报,2014,34(4):807-813
[26]吴川 ,黄柳,薛生国*,邹奇,史力争.赤泥对砷污染的调控研究进展.[J]:环境化学,2016,35(1):141-149
[27]Hu Li, Chuan Wu, Zhihong Ye, Shengchun Wu, Fuyong Wu, Minghung Wong.Uptake kinetics of different arsenic species in lowland and upland rice colonized with Glomus intraradices.[J]:Journal of Hazardous Materials,2011,194:414-421
[28]William Hartley, Chuan Wu, N.M. Dickinson, P. Riby, N.W. Lepp, M.H. Wong.Arsenic mobility and bioavailability in flooded industrially polluted UK soils.[J]:Land Contamination & Reclamation,2010,18(3):267-278
[29]Xiangfeng Kong, Meng Li, Shengguo Xue?, William Hartley, Chengrong Chen, Chuan Wu, Xiaofei.Acid transformation of bauxite residue: Conversion of its alkaline characteristics.[J]:Journal of Hazardous Materials,2017,324:382–390
[30]Xiangfeng Kong , Ying Guo, Shengguo Xue*, William Hartley, Chuan Wu, Yuzhen Ye, Qingyu Cheng.Natural evolution of alkaline characteristics in bauxite residue.[J]:Journal of Cleaner Production,2017,143:224-230
[31]Shengguo Xue, Jun Wang, Chuan Wu, Song Li, William Hartley, Hao Wu, Feng Zhu, Mengqian Cui.Physiological response of Polygonum perfoliatum L. following exposure to elevated manganese concentrations.[J]:Environ Sci Pollut Res,2017
[32]Feng Zhu, Shengguo Xue*, William Hartley, Ling Huang, Chuan Wu, Xiaofei Li.Novel predictors of soil genesis following natural weathering processes of bauxite residues.[J]:Environmental Science and Pollution Research,2016,23:2856–2863
[33]Feng Zhu, Jiayi Zhou, Shengguo Xue, William Hartley, Chuan Wu, Ying Guo.Aging of bauxite residue in association of regeneration: a comparisonof methods to determine aggregate stability & erosion resistance.[J]:Ecological Engineering,2016,92:47–54
[34]Feng Zhu, Xiaofei Li, Shengguo Xue, William Hartley, Chuan Wu, Fusong Han.Natural plant colonization improves the physical condition of bauxite residue over time.[J]:Environmental Science and Pollution Research,2016
[35]Xunwen Chen, Hui Li, Waifung Chan, Chuan Wu, Fuyong Wu, Shengchun Wu, Minghung Wong.Arsenite transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenite stress.[J]:Chemosphere,2012,89:1248-1254
[36]XW Chen, FY Wu, H Li, WF Chan, C Wu, SC Wu, MH Wong.Phosphate transporters expression in rice (Oryza sativa L.) associated with arbuscular mycorrhizal fungi (AMF) colonization under different levels of arsenate stress.[J]:Environmental and Experimental Botany,2013,87:92– 99
[37]Jie Lei, Shengguo Xue*, Chuan Wu*, Jun Wang, Bo Hu.Manganese stress on chemical composition of Chenopodium ambrosioides L. by FTIR spectroscopy.[C]:International Symposium on Public Health and Envir
[38]H Li, YB Man, ZH Ye, C Wu, SC Wu, MH Wong.Do arbuscular mycorrhizal fungi affect arsenic accumulation and speciation in inrice with different radial oxygen loss?.[J]:Journal of Hazardous Materials,2013,262:1098– 1104
[39]Shengguo Xue*, Fenghao Liu, Chuan Wu*, Jun Wang, Chao Wu.Physiological response of Commelina communis L. to manganese stress by using of FTIR spectroscopy:Environmental Pollution and Public Health,2012
[40]黄 玲,李义伟,薛生国,朱锋,吴川,王琼丽.氧化铝赤泥堆场盐分组成变化.[J]:中国有色金属学报,2016,26(11):2433-2438
[41]薛生国,刘丰豪,吴川,黄艳红,吴超.超富集植物垂序商陆的锰吸收动态研究.[J]:中南大学学报自然科学版,2012,43(2):424-428
[42]Chuan Wu, Hui Li, Minghung Wong.Potential strategies for mitigating As contamination in rice grain.[C]:The 4th International Congress on Arsenic in the E,2012
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