副研究员,博士,安徽大学兼职硕士导师。2001年6月毕业于湖南农业大学,获农业资源与环境专业学士学位。2004年6月毕业于浙江大学,获得植物营养学硕士学位。2008年6月毕业于中山大学,获得环境科学博士学位。2008年7月至2013年12月在华南农业大学从事环境科学与工程专业教学科研工作,2014年应聘到中国科学院亚热带农业生态研究所工作,先后任助理研究员和副研究员。主要从事重金属污染农田安全利用与修复和土壤氮循环及环境效应研究。先后主持国家自然科学基金、国家重点研发项目子课题、省自然科学基金、农业部财政部专项课题等10多项科研任务。发表论文100余篇,以第一作者或通讯作者在土壤及环境领域国际主流期刊上发表SCI论文20余篇,编写技术规程2项。兼任湖南省土壤肥料学会常务理事、副秘书长、青年工作委员会副主任。
国家重点研发计划子课题:流域面源污染绿色防控技术模式集成与示范(2024-2027)
国家重点研发项目子课题:南方重金属污染农田水稻和蔬菜安全生产技术集成示范(2023-2027)
湖南省自然科学基金面上项目:孕穗期施锌调控污染稻田水稻根际镉迁移的机制(2025-2027)
国家自然科学基金面上项目:水稻关键生育期氮运筹对镉吸收的调控机制(2022-2025)
湖南省重点研发课题:变更耕地地力快速提升关键技术研究与应用(2023-2025)
湖南省农业农村厅 湖南省财政厅项目:花垣县“锰三角”矿业污染涉农问题排查(2021-2022)
国家重点研发计划子课题:有色冶炼场地土壤多金属同步固化/钝化长效修复技术(2019-2023)
横向项目:镉砷复合污染同步钝化产品展示试验(祁阳)(2019-2021)
横向项目:镉砷复合污染同步钝化产品展示试验(慈利)(2018-2019)
湖南省农业农村厅 湖南省财政厅项目:非酸性土壤重金属污染耕地修复治理新产品集中展示(郴州)(2017-2018)
农业部/财政部专项课题:稻草离田土壤镉污染修复效应及生态补偿机制(2016-2017)
农业部/财政部专项课题:稻草离田与利用运转模式研究(2015-2016)
农业部/财政部专项课题:重金属污染稻区稻草移除与利用模式(2014-2015)
湖南省自然科学基金面上项目:有机肥和地下水位对水稻土镉化学行为的影响(2015-2017)
国家自然科学青年基金项目:生物质炭对镉在红壤-水稻系统中迁移转化的影响机制(2012-2014)
教育部博士点新教师联合基金:DMPP提高红壤稻田氮素利用调控机制(2012-2014)
广东省自然科学基金博士启动项目:重金属污染下水稻根际土壤有机碳与微生物群落演变(2009-2011)
第一或通讯作者论文
[1]Shen Zheng,Chao Xu*,Hanhua Zhu,Daoyou Huang,Huajing Wang,Quan Zhang,Xiaoxue Li,Qihong Zhu. Foliar application of zinc and selenium regulates cell wall fixation,physiological and gene expression to reduce cadmium accumulation in rice grains. Journal of Hazardous Materials,2024,480:136302.
[2]Xinhui Zhang,Hong Shuai,Chao Xu*,Zhongyuan Wang,Shen Zheng,Hanhua Zhu,Daoyou Huang,Quan Zhang,Qihong Zhu. Effects of EDTA·Na2Fe on phytoavailability of cadmium and arsenic to rice (Oryza sativa L.). Ecotoxicology and Environmental Safety,2024,265: 115525.
[3]Shen Zheng,Chao Xu*,Zunchang Luo,Hanhua Zhu,Hui Wang,Quan Zhang,Qihong Zhu,Daoyou Huang. Co-utilization of sepiolite and ferromanganese ore reduces rice Cd and As concentrations via soil immobilization and root Fe-Mn plaque. Science of the Total Environment,2024,908: 168269.
[4]Chao Xu*,Shen Zheng,Daoyou Huang,Quan Zhang,Min Xiao,Jingjing Fan,Qihong Zhu,Hanhua Zhu*. Phytoavailabity of cadmium in rice amended with organic materials and lime: Effects of rhizosphere chemical changes and cadmium sequestration in iron plaque. Ecotoxicity and Environmental Safety,2023,265: 115525
[5]Shen Zheng,Chao Xu*,Guanghui Lv,Hong Shuai,Quan Zhang,Qihong Zhu,Hanhua Zhu,Daoyou Huang. Foliar zinc reduced Cd accumulation in grains by inhibiting Cd mobility in the xylem and increasing Cd retention ability in roots. Environmental Pollution,2023,333: 122046.
[6]Shen Zheng,Yulin Liao,Chao Xu*,Yi Wang,Quan Zhang,Qihong Zhu,Hanhua Zhu,Yuqing Sun,Yaoyu Zhou,Delai Zhong,Daoyou Huang. Milk vetch returning reduces rice grain Cd concentration in paddy fields: Roles of iron plaque and soil reducing-bacteria. Chemosphere,2022,308: 136158.
[7]Qingyun Zhou,Hui Wang,Chao Xu*,Shen Zheng,Meiyan Wu,Quan Zhang,Yulin Liao,Hanhua Zhu,Qihong Zhu,Daoyou Huang. Nitrogen application practices to reduce cadmium concentration in rice (Oryza sativa L.) grains. Environmental Science and Pollution Research,2022,29: 50530-50539.
[8]Shen Zheng,Hong Shuai,Chao Xu*,Guanghui Lv,Xiangdng Zhu*,Quan Zhang,Qihong Zhu,Avelino Núñez-Delgado,Manuel Conde-Cid,Yaoyu Zhou,Daoyou Huang. Foliar application of Zn reduces Cd accumulation in rice grains of late rice by regulating the antioxidant system,enhancing Cd chelation onto cell wall of leaves,and inhibiting Cd translocation in rice. Science of the Total Environment,2021,770: 145302.
[9]Chao Xu*,Qian Xiang,Qihong Zhu,Hanhua Zhu,Daoyou Huang,Yangzhu Zhang. Effects of controlled-release ureas on heavy-metal mobility in multimetal-contamianated soil. Pedosphere,2020,30(2):263-271.
[10]Guanghui Lv,Hui Wang,Chao Xu*,Hong Shuai*,Zunchang Luo,Quan Zhang,Hanhua Zhu,Shuai Wang,Qihong Zhu,Yangzhu Zhang,Daoyou Huang. Effectiveness of simultaneous foliar application of Zn and Mn or P to reduce Cd concentration in rice grains: a field study. Environmental Science and Pollution Research,2019,26: 9305-9313.
[11]Zhongyuan Wang,Hui Wang,Chao Xu*,Guanghui Lv,Zunchang Luo,Hanhua Zhu,Shuai Wang,Qihong Zhu,Daoyou Huang,Baizhong Li. Foliar application of Zn-EDTA at early filling stage to increase grain Zn and Fe,and reduce grain Cd,Pb and grain yield in rice (Oryza sativa L.). Bulletin of Environmental Contamination and Toxicology,2020,105 (3):428-432.
[12]Chao Xu*,Qian Xiang,Hanhua Zhu,Shuai Wang,Qihong Zhu,Daoyou Huang,Yangzhu Zhang*. Effect of biochar from peanut shell on speciation and availability of lead and zinc in an acidic paddy soil. Ecotoxicity and Environmental Safety,2018,164: 554-561.
[13]Quan Zhang,Li Zhang,Tongtong Liu,Bo Liu,Daoyou Huang,Qihong Zhu,Chao Xu*. The influence of liming on cadmium accumulation in rice grains via iron-reducing bacteria. Science of the Total Environment,2018,645: 109-118.
[14]Chao Xu*,Haoxiang Chen,Qian Xiang,Hanhua Zhu,Shuai Wang,Qihong Zhu,Daoyou Huang,Yangzhu Zhang*. Effect of peanut shell and wheat straw biochar on the availability of Cd and Pb in a soil-rice (Oryza sativa L.) system. Environmental Science and Pollution Research,2018,25: 1147-1156.
[15]Hui Wang,Chao Xu*,Zunchang Luo*,Hanhua Zhu,Shuai Wang,Qihong Zhu,Daoyou Huang,Yangzhu Zhang,Jie Xiong,Yanbing He. Foliar application of Zn can reduce Cd concentrations in rice (Oryza sativa L.) under field conditions. Environmental Science and Pollution Research,2018,25: 29287-29294.
[16]Chao Xu*,Dong Wen,Qihong Zhu,Hanhua Zhu,Yangzhu Zhang,Daoyou Huang. Effects of peanut shell biochar on the adsorption of Cd(II) by paddy soil. Bulletin of Environmental Contamination and Toxicology,2017,98: 413-419.
[17]Chao Xu*,Zisong Wu,Qihong Zhu,Hanhua Zhu,Yangzhu Zhang *,Daoyou Huang. Effect of coated urea on cadmium accumulation in Oryza sativa L. grown in contaminated soil. Environmental Monitoring and Assessment,2015,187 (11):DOI 10.1007/s10661-015-4935-2.
[18]Chao Xu,Lianghuan Wu,Xiaotang Ju,Fusuo Zhang. Role of nitrification inhibitor DMPP (3,4-dimethylpyrazole phosphate) on NO3--N accumulation in greengrocery (Brassica campestris L. ssp. Chinensis) and vegetable soil. Journal of Environment Sciences China, 2005,17 (1):81-83.
[19]Chao Xu,Lianghuan Wu,Xiaotang Ju,Fusuo Zhang. Effects of nitrogen fertilizer with the new nitrification inhibitor DMPP (3,4-dimethylpyrazole phosphate) on nitrate accumulation and quality of cabbage(Brassica campastris L. ssp. pekinesis). Agricultural Sciences in China,2004,3 (8):622-626.
[20]马梦雪,王中元,许超*,王华静,张泉,黄道友,朱奇宏,朱捍华. 海泡石和铁锰矿粉组配对水稻Cd吸收的影响. 中国环境科学,2023,43 (S1):205-212.
[21]李小雪,汪毅,许超*,王华静,张泉,朱奇宏,朱捍华,黄道友. 氮素抑制剂对水稻吸收转运镉的影响. 中国环境科学,2023,43 (6):3034-3041.
[22]肖敏,范晶晶,王华静*,许超*,张泉,陈心胜,朱捍华,朱奇宏,黄道友. 紫云英还田配施石灰对水稻镉吸收转运的影响. 中国环境科学,2022,42 (1):276-284.
[23]吕光辉,许超*,王辉,帅红,王帅,李佰重,朱奇宏,朱捍华,黄道友. 叶面喷施不同浓度锌对水稻锌镉积累的影响. 农业环境科学学报,2018,37 (7):1521-1528.
[24]陈少毅,许超*,张文静,吴启堂. 生物质炭与氮肥配施降低水稻重金属含量的盆栽试验. 农业工程学报,2014,30 (14):189-197.
[25]向倩,许超*,张杨珠,吴良欢. 控释尿素对污染土壤镉有效性的影响. 中国环境科学,2014,34 (12),3150-3156.
[26]梁佩筠, 许超*,吴启堂,吴良欢,卢镜钊. 淹水条件下不同控释氮肥对污染红壤中重金属有效性的影响. 生态学报,2013,33(9):2919-2929.
[27]许超,夏北成. 玉米幼苗根际土壤微生物活性对芘污染的响应. 生态学报,2010,30 (5):1296-1305.
[28]许超,林小方,夏北成. 玉米幼苗根系分泌物对芘污染的响应. 生态学报,2010,30 (12):3280-3288.
[29]许超,夏北成,吴海宁,林小方,仇荣亮. 酸性矿山废水污灌区水稻土重金属的形态分布及生物有效性. 环境科学,2009,30 (3) 900-906.
[30]许超,夏北成. 运用多隔层根箱研究黑麦草根际微域中芘的降解. 土壤学报,2009,46 (3):426-433.
技术规程
许超,朱奇宏,朱捍华,饶中秀,王帅,黄道友. 湖南省农业技术规程:《镉污染稻田安全利用 田间水分管理技术规程(HNZ 143-2017)》. (技术规程)