仇广乐
文章来源:本站原创    发布时间:2020-10-27      【字号:


姓名:仇广乐
性别:男
学位:博士
职称:研究员,博士生导师
工作单位:中国科学院地球化学研究所环境地球化学国家重点实验室
地址:贵州省贵阳市观山湖区林城西路99号;550081
Tel:15186996727/18985580178;Fax:0851-85891609
E-mail:
qiuguangle@vip.skleg.cn

简历:
1989年09月-1993年06月:中国地质大学(武汉),攻读学士学位
1993年07月-2002年06月:北京首钢地质勘探公司
1998年09月-2001年06月:吉林大学,攻读在职硕士学位
2002年07月-2005年09月:中国科学院地球化学研究所,攻读博士学位
2005年10月-2010年12月:中国科学院地球化学研究所,副研究员
2007年04月-2009年03月:美国环境保护署,在职博士后
2011年01月-至今 :中国科学院地球化学研究所,研究员、博士生导师

研究方向:
微量元素生物地球化学与生态效应 
大气颗粒物源解析 

承担科研项目情况:
1.岩溶地质高背景镉污染稻田土壤生态修复与安全生产技术示范,贵州省科技厅农业攻关项目,编号黔科合支撑[2020]1Y123号,总经费60万元,2020年3月-2023年3月,项目负责人;
2.森林虫害人工巢箱招引鸟类绿色防控技术研究,贵州省科技厅农业攻关项目,编号黔科合支撑[2019]2307号,总经费50万元,2019年1月-2021年12月,项目负责人;
3.我国汞矿区陆生食物链汞传递及其生物地球化学机制,编号41573135,国家自然科学基金面上项目,总经费85.216万元,2016年1月-2019年12月,项目负责人;
4.科技部973计划专题项目-汞矿区汞循环研究,编号2013CB430004-01,国家科技部项目,专题经费100万元,2013年1月-2017年12月,专题负责人;
5.表生环境中“新沉降”大气汞的地球化学过程与生态效应研究,编号41073098,国家自然科学基金面上项目,总经费80万元,2012年1月-2015年12月,项目负责人;
6.贵州典型汞污染区稻田土壤汞甲基化作用机理研究,编号41073098,国家自然科学基金面上项目,总经费54万元,2011年1月-2013年12月,项目负责人;
7.贵阳市大气气溶胶重金属、挥发性有机物污染物污染特征及源解析研究,贵阳市科技重大专项项目,经费30万元,2011年9月-2014年9月,课题负责人;
8.硒的微生物地球化学过程与矿化机制,编号KZCX2-YW-JC101,中国科学院知识创新工程重要方向项目,经费40万元,2010年1月-2012年12月,课题负责人;
9.西南喀斯特地区矿山环境重金属复合污染的生物地球化学与生物修复研究,编号KZCX2-YW-135,中国科学院知识创新工程重要方向项目,经费22万元,2009年1月-2011年12月,课题负责人;
10.区域大气汞源解析模型的建立及应用,编号40773067,国家自然科学基金面上项目,总经费41万元,2008年1月-2010年12月,项目负责人;
11.西南汞矿区稻米富集甲基汞机理研究,编号40503009,国家自然科学基金青年基金,总经费34万元,2006年1月-2008年12月,项目负责人;1
12.
贵州汞矿区稻米富集甲基汞的机理研究,中国科学院专项资金项目,总经费10万元,2006年7月-2009年6月,项目负责人;
13.万山特区汞污染土壤的植物修复试验研究,编号:黔科合J字[2007]2166号,贵州省基金项目,总经费3.6万元,2007年7月-2010年7月,项目负责人。

获奖情况:
中国科学院院长优秀奖
中国科学院优秀博士学位论文奖
中国科学院优秀教师

代表论著:
1.Luo K, Xu Z, Wang X, Quan R, Lu Z, Bi W, Zhao H, Qiu G*. 2020. Terrestrial methylmercury bioaccumulation in a pine forest food chain revealed by live nest videography observations and nitrogen isotopes. Environmental Pollution, 263, https://doi.org/10.1016/j.envpol.2020.114530  
2.Xu X, Han J, Pang J, Wang X, Lin Y, Wang Y, Qiu G*. 2020. Methylmercury and inorganic mercury in Chinese commercial rice: Implications for overestimated human exposure and health risk. Environmental Pollution, 258, https://doi.org/10.1016/j.envpol.2019.113706 
3.Xu X, Han J, Abeysinghe KS, Atapattu AJ, de Silva PMCS, Xu Z, Long S, Qiu G*. 2020. Dietary exposure assessment of total mercury and methylmercury in commercial rice in Sri Lanka. Chemosphere, https://doi.org/10.1016/j.chemosphere.2019.124749  
4.Ao M, Xu X, Qin S, Wu Y*, Zhang C, Meng B, Shang L, Qian X, Qiu G*. 2020. Newly deposited atmospheric mercury in simulated-rice ecosystem at an active mercury mining region: High loading, accumulation, and availability. Chemosphere, 238, https//:doi.org/10.1016/j.chemosphere.2019.124630  
5.Lu Q, Xu Z, Xu X, Liu L, Liang L, Chen Z*, Dong X, Li C, Wang Y, Qiu G*. 2019. Cadmium contamination in a soil-rice system and the associated health risk: an addressing concern caused by barium mining. Environmental Ecotoxicology and Safety, 183, https://doi.org/10.1016/j.ecoenv.2019.109590   
6.Lu Q, Xu X, Xu Z, Shang L, Guo J, Xiao D*. Qiu G*. 2019. Barium concentration, phytoavailability, and risk assessment in soil-rice systems from an active barium mining region. Applied Geochemistry, 106: 142-148. 
7.Qiu G*, Abeysinghe KS, Yang XD, Xu Z, Xu X, Luo K, Goodale E. 2019. Effects of selenium on mercury bioaccumulation in a terrestrial food chain from an abandoned mercury mining region. Bulletin of Environmental Contamination and Toxicology, 102: 329-334. 
8.Xu X, Yan M, Liang L, Lu Q, Han J, Liu L, Feng X, Guo J, Wang Y, Qiu G*. 2019. Impacts of selenium supplementation on soil mercury speciation, and inorganic mercury and methylmercury uptake in rice (Oryza sativa L). Environmental Pollution, 2019, 249: 647-654. 
9.Xu Z, Abeysinghe KS, Xu X, Gu C, Liang L, Lu Q, Zhang Y, Zheng L, Wang WX, Qiu G*. 2019. New insights into the chemical forms of anomalous methylmercury in songbird feathers from a contaminated site. Chemosphere, 2019, 225: 803-809. 
10.Fan X, Chen Z*, Liang L, Qiu G*. 2019. Atmospheric PM2.5-bound polycyclic aromatic hydrocarbons (PAHs) in Guiyang City, Southwest China: concentration, seasonal variation, sources and health risk assessment. Archives of Environmental Contamination and Toxicology, 76: 102-113. 
11.Lu Q, Xu X, Xu Z, Liang L, Shang L, Xiao D, Zhang S, Jiang Y, Qiu G*. 2018. Barium concentrations and speciation in surface waters collected from an active barium mining area in Guizhou Province, southwestern China. Environmental Science and Pollution Research, 25: 7608-7617.
12.Xu X, Meng B, Xu Z, Feng X, Jiang Y, Gu C, Zhong W, Hu Y, Qiu G*. 2018. The impact of an abandoned mercury mine on the environment in the Xiushan region, Chongqing, southwestern China. Applied Geochemistry, 88: 267-275.
13.Qian X, Wu Y, Zhou H, Xu X, Xu Z, Shang L, Qiu G*. 2018. Total mercury and methylmercury accumulation in wild plants grown at wastelands composed of mine tailings: Insights into potential candidates for phytoremediation. Environmental Pollution, 239: 757-767.  
14.Abeysinghe KS, Qiu G*, Goodale E*, Anderson CWN, Bishop K, Evers DC, Goodale MW, Hintelmann H, Liu S, Mammides C, Quan RC, Wang J, Wu P, Xu X, Yang XD, Feng X. 2017. Mercury flow through an Asian rice-based food web. Environmental Pollution, 229:219-228. 
15.Xu X, Meng B, Zhang C, Feng X, Gu C, Guo J, Bishop K, Xu Z, Zhang S, Qiu G*. 2017. The impact of a coal-fired power plant on inorganic mercury and methyl-mercury distribution in rice (Oryza staiva L.) in the vicinity of the plant. Environmental Pollution, 223: 11-18. 
16.Abeysinghe KS, Yang XD*, Goodale E, Anderson CWN, Bishop K, Cao A, Feng X, Liu S, Mammides C, Meng B, Quan RC, Sun J, Qiu G*. 2017. Total and methylmercury concentrations over a gradient of contamination in earthworms living in rice paddy soil. Environmental Toxicology and Chemistry, 36(5): 1202-1210. 
17.Qiu G, Feng X, Meng B, Zhang C, Gu C, Du B, Lin Y. 2013. Environmental geochemistry of an abandoned mercury mine in Yanwuping, Guizhou Province, China. Environmental Research, 125: 124-130.  
18.Qiu G, Feng X, Meng B, Sommar J, Gu C. 2012. Environmental geochemistry of an active Hg mine in Xunyang, Shaanxi Province, China. Applied Geochemistry, 27(12): 2280-2288.  
19.Qiu G, Feng X, Jiang G. 2012. Synthesis of current data for Hg in areas of geologic resource extraction contamination and aquatic systems in China. Science of the Total Environment, 421-422: 59-72. 
20.Qiu G, Feng X, Meng B, Wang X. 2012. Methylmercury in rice (Oryza sativa L.) grown from the Xunyang Hg mining area, Shaanxi province, northwestern China. Pure and Applied Chemistry, 84:281-289. 
21.Liu N, Qiu G*, Landis MS, Feng X, Fu X, Shang L. 2011. Atmospheric mercury species measured in Guiyang, Guizhou province, southwest China. Atmospheric Research, 100(1): 93-102. 
22.Qiu G, Feng X, Wang S, Fu X, Shang L. 2009. Mercury distribution and speciation in water and fish from abandoned Hg mines in Wanshan, Guizhou province, China. Science of the Total Environment, 407(18): 5162-5168. 
23.Qiu G, Feng X, Li P, et al. 2008. Methylmercury accumulation in rice (Oryza sativa L.) grown at abandoned mercury mines in Guizhou, China. Journal of Agricultural and Food Chemistry, 56(7): 2465-2468.  
24.Qiu G, Feng X, Wang S, Xiao T. 2006. Mercury contaminations from historic mining to water, soil and vegetation in Lanmuchang, Guizhou, southwestern, China. Science of the Total Environment, 368(1): 56-68. 
25.Qiu G, Feng X, Wang S, Shang L. 2006. Environmental contamination of mercury from Hg-mining areas in Wuchuan, northeastern Guizhou, China. Environmental Pollution, 142(3): 549-558.  
26.Qiu G, Feng X, Wang S, Shang L. 2005. Mercury and methylmercury in riparian soil, sediments, mine-waste calcines, and moss from abandoned Hg mines in east Guizhou province, southwestern China. Applied Geochemistry, 20(3): 627-638.