刘娟
博士,教授,硕士研究生导师,意大利帕多瓦大学中方博导
广东省杰出青年科学基金获得者,
入选“广州市高层次人才”、“广州大学青年拔尖人才”
广州大学环境科学与工程学院
广州大学城外环西路230号,510006
联系方式:liujuan858585@163.com
研究专长
重金属环境地球化学及同位素地球化学;废水处理;土壤/沉积物修复;重金属/新型环境污染物毒理学;环境与健康等
课题组简介和历届研究生培养情况:
本课题组有良好的科研氛围,与英国牛津大学、澳洲昆士兰大学、德国莱比锡大学、意大利帕多瓦大学、香港理工大学、香港科技大学、香港城市大学、台湾大学、清华大学、中山大学、华南理工大学、中国科学院广州地球化学研究所、中国科学院地球化学研究所(贵阳)、中国科学院地球环境研究所、中国科学院地理科学与资源研究所和西北大学大陆动力学国家重点实验室等境内外知名高等学府或科研机构建立了良好的学术合作关系。课题组注重因材施教,关心学生的成长和发展,培养的学生大多数获得一、二等奖学金,其中表现优异的学生获得国家奖学金;部分学生毕业后分别进入澳洲昆士兰大学、意大利帕多瓦大学、南京大学、中山大学、华南理工大学、中国科学院广州地球化学研究所等继续深造,攻读博士学位。
教育背景:
2007/11-2009/12,德国莱比锡大学同位素交叉学科研究所,中德联合培养博士
2006/09-2010/07,中国科学院广州地球化学研究所,环境科学,博士
工作经历:
2020/10--至今,广州大学,环境科学与工程学院,历任副研究员、教授
2019/03--2019/09,香港理工大学,土木与环境工程系,访问学者
2016/12--2018/03,英国牛津大学,地球科学系,访问学者,合作者: Alex Halliday院士
2018/09--2020/10,广州大学,大湾区环境研究院,副研究员
2015/01--2018/08,广州大学,珠三角水质安全与保护协同创新中心,历任助研、副研
2011/06--2014/12,广州大学环境科学与工程学院,讲师
2011/03--2012/08,台湾大学地质科学系暨研究所,博士后
学术兼职
欧洲地球化学学会会员、英国爱尔兰矿物学会会员、中国矿物岩石地球化学终生会员、国家自然科学基金委通讯评审专家、广东省科技业务平台评审专家、广东省环境损害司法鉴定机构评审专家;国际环境地球化学协会(ISEG)、中英环境资源学会(UK-CARE)、国际泛太平洋人类世(APPA)理事会理事;Chemosphere和Elementa: Science of the Anthropocence等SCI期刊客座编辑(Guest Editor);Environmental Science and Technology、Environment International、Water Research、Journal of Hazardous Materials、Science of the Total Environment、Critical Reviews in Environmental Science and Technology、Environmental Pollution、Environmental Geochemistry and Health、Journal of Geochemical Exploration和Environmental Science and Pollution Research等多个SCI期刊审稿人。
科研项目
主持国家自然科学基金项目和广东省自然科学基金项目等10余项,并以核心完成人之一参与完成国家自然科学基金重点项目、环保部环保公益性科研专项等多项项目。主要项目情况如下:
(1) 国家自然科学基金面上项目,典型污染土壤-水稻体系中铊迁移转化特征与铊同位素分馏机制研究,2022/01-2025/12,61万,在研,主持
(2) 国家自然科学基金面上项目,含铊硫铁矿利用区河流沉积物中铊的迁移富集机制与来源示踪,2019/01-2022/12,59万,在研,主持
(3) 国家自然科学基金面上项目,典型铅锌冶炼过程中铊同位素分馏特性及环境示踪意义,2016/01-2019/12,73万,已结题,主持
(4) 国家自然科学基金青年项目,含铊资源利用中铊的同位素分馏及环境铊污染的源识别,2013/01-2015/12,26万,已结题,主持
(5) 广东省自然科学基金杰出青年项目,农田土壤铊环境地球化学过程研究,2021/01-2024/12,100万,在研,主持
(6) 国家自然科学基金委-贵州省喀斯特研究中心项目,喀斯特地区重金属污染过程与防控机制研究子课题,2017/01-2021/12,51万(总经费2520万),已结题,主持
(7) 广东省自然科学基金自由申请项目,广东北江典型沉积物剖面铊污染源解析及累积机制的研究,2014/10-2016/10,10万,已结题,主持
(8) 广东高校优秀青年创新人才培养计划,利用树轮地球化学指标高分辨率重建粤西云浮黄铁矿的环境污染史,2013/01-2014/12,3万元,已结题,主持
发表论文
发表SCI论文70余篇,其中第一/通讯作者SCI论文50余篇(含JCR一区论文40余篇)、ESI高被引论文10篇。主要论文如下:
(1) Liu J, OuYang QE, Wang LL, Wang J, Zhang Q, Wei XD, Lin YY, Zhou YT, Yuan WH, Xiao TF. Quantification of smelter-derived contributions to thallium contamination in river sediments: Novel insights from thallium isotope evidence. Journal of Hazardous Materials. 2022, 424, 127594.
(2) Liu J*, Yin ML, Xiao TF, Zhang CS, et al.. Thallium isotopic fractionation in industrial process of pyrite smelting and environmental implications. Journal of Hazardous Materials. 2020, 384: 121378.
(3) Jiang YJ, Wei XD, He HP, She JY, Liu J*, Fang F, Zhang WL, Liu YY, Wang J, Xiao TF, Tsang DC. Transformation and fate of thallium and accompanying metal (loid) s in paddy soils and rice: A case study from a large-scale industrial area in China. Journal of Hazardous Materials. 2022, 423, 126997.
(4) Zhong QH, Qi JY, Liu J*, Wang J, Lin K, Ouyang QE, Zhang X, Wei XD, Xiao TF, El-Naggar A, Rinklebe J, Thallium isotopic compositions as tracers in environmental studies: A review. Environment International. 2022, 162, 107148.
(5) Ren SX, Wei XD, Wang J, Liu J*, OuYang QE, Jiang YJ, Hu HY, Huang YL, Zheng WT, Nicoletto C, Renella G. Unexpected enrichment of thallium and its geochemical behaviors in soils impacted by historically industrial activities using lead-zinc carbonate minerals. Sci. Total Environ. 2022, 153399.
(6) Zhong, QH, Yin, ML., Zhang, Q., Beiyuan, JZ, Liu, J*, et al. Cadmium isotopic fractionation in lead-zinc smelting process and signatures in fluvial sediments. Journal of Hazardous Materials. 2021, 411: 125015.
(7) Zhou YT, He HP, Wang J, Liu J*, Lippold H, Wang LL, Lin YY, Fang F, Huang YL, Jiang YJ, Xiao TF, Yuan WH, Wei XD, Tsang DC. Stable isotope fractionation of thallium as novel evidence for its geochemical transfer during lead-zinc smelting activities. Science of The Total Environment, 2022, 803, 150036. 3
(8) She JY, Wang J, Wei XD, Zhang Q, Xie ZY, Beiyuan JZ, Xiao EZ, Yang X, Liu J*, et al.. Survival strategies and dominant phylotypes of maize-rhizosphere microorganisms under metal(loid)s contamination, Science of The Total Environment, 2021, 774: 145143.
(9) Wang J, Wang LL, Wang YX, Tsang D. C. W, Yang X., Beiyuan, JZ, Yin ML, Xiao TF, Jiang YJ, Lin WL, Zhou YC, Liu J*, et al.. Emerging risks of toxic metal(loid)s in soil-vegetables influenced by steel-making activities and isotopic source apportionment. Environment International, 2021, 146: 106207.
(10) Wei XD, Zhou YT, Tsang D, Song L, Zhang CS, Yin ML, Liu J*, et al. Hyperaccumulation and transport mechanism of thallium and arsenic in brake ferns (Pteris vittata L.): A case study from mining area. Journal of Hazardous Materials. 2020, 388: 121756.
(11) Liu J*, Ren SX, Cao JL, et al.. Highly efficient removal of thallium in wastewater by MnFe2O4-biochar composite. Journal of Hazardous Materials. 2021, 401: 123311.
(12) Wei XD, Wang J, She JY, Sun J, Liu J*, et al.. Thallium geochemical fractionation and migration in Tl-As rich soils: the key controls. Science of The Total Environment. 2021, 784,146995
(13) Liu J, Wang J, et al.. Emerging thallium pollution in China and source tracing by thallium isotopes. Environmental Science and Technology. 2018, 52: 11977–11979.
(14) Liu J, Luo XW, Sun YQ, et al.. Thallium pollution in China and removal technologies for waters: A review. Environment International. 2019, 126: 771–790.
(15) Liu J, Zhou YC, She JY, et al., Song L. Quantitative isotopic fingerprinting of thallium associated with potentially toxic elements (PTEs) in fluvial sediment cores with multiple anthropogenic sources. Environmental Pollution. 2020, 266: 115252.
(16) Liu J, Yin ML, Zhang WL, et al.. Response of microbial communities and interactions to thallium in contaminated sediments near a pyrite mining area. Environmental Pollution. 2019, 248: 916–928.
(17) Liu J, Li N, Zhang WL, et al.. Thallium contamination in farmlands and common vegetables in a pyrite mining city and potential health risks. Environmental Pollution. 2019, 248: 906–915.
(18) Liu J*, Wei XD, Zhou YT, et al.. Thallium contamination, health risk assessment and source apportionment in common vegetables. Science of the Total Environment. 2020, 703: 135547. Liu J, Yin ML, Luo XW, et al.. The mobility of thallium in sediments and source apportionment by lead isotopes. Chemosphere. 2019, 219: 864–874.
(19) Zhong QH, Zhou YC, Tsang D, Liu J*, et al.. Science of the Total Environment. 2020, 736: 139585.
(20) Zhou YT, Wang LL, Xiao TF, Chen YH, Beiyuan JZ, She JY, Zhou YC, Yin ML, Liu J*, et al.. Legacy of multiple heavy metal(loid)s contamination and ecological risks in farmland soils from a historical artisanal zinc smelting area. Science of the Total Environment. 2020, 720: 137541.
(21) Wei XD, Zhou YT, Jiang YJ, Tsang D, Zhang CS, Liu J*,et al.. Health risks of metal(loid)s in maize (Zea mays L.) in an artisanal zinc smelting zone and source fingerprinting by lead isotope. Science of the Total Environment. 2020, 742: 140321.
(22) Wang J, She JY, Zhou YC, Tsang D, Beiyuan JZ, Xiao TF, Dong XJ, Chen YH, Liu J*, et al.. Microbial insights into the biogeochemical features of thallium occurrence: A case study from polluted river sediments. Science of the Total Environment. 2020, 739: 139957.
(23) Li N, Yin ML, Tsang D, Yang ST, Liu J*, et al.. Mechanisms of U(VI) removal by biochar derived from Ficus microcarpa aerial root: A comparison between raw and modified biochar. Science of the Total Environment. 2019, 697: 134115.
(24) Yin ML, Sun J, Chen YH, Wang J*, Shang JY, Belshaw N, Shen CC, Liu J*, et al.. Mechanism of uranium release from uranium mill tailings under long-term exposure to simulated acid rain: Geochemical evidence and environmental implication. Environmental Pollution. 2019, 244: 174–181.
(25) Wang J, Fang F, Zhou YC, Yin ML, Liu J*, et al.. Facile modification of graphene oxide and its application for the aqueous uranyl ion sequestration: Insights on the mechanism. Chemosphere. 2020, 258: 127152.
(26) Yin ML, Tsang D, Sun J, Wang J*, Shang JY, Fang F, Wu Y, Liu J*, et al. Critical insight and indication on particle size effects towards uranium release from uranium mill tailings: Geochemical and mineralogical aspects. Chemosphere. 2020, 250: 126315.
(27) Wang J, Zhou YT, Dong XH, Yin ML, Tsang D, Sun J, Liu J*, et al.. Temporal sedimentary record of thallium pollution in an urban lake: An emerging thallium pollution source from copper metallurgy. Chemosphere. 2020, 242: 125172.
(28) Lin JF,Yin ML,Wang J, Liu J*, et al.. Geochemical fractionation of thallium in contaminated soils near a large-scale Hg-Tl mineralised area. Chemosphere. 2019, 239: 124775.
(29) Liu J, Luo XW, Wang J, Xiao TF, et al.. Provenance of uranium in a sediment core from a natural reservoir, South China: Application of Pb stable isotope analysis. Chemosphere. 2018, 193: 1172–1180.
(30) Liu J*, Ren JM, Zhou YC, et al.. Effects and mechanisms of mineral amendment on thallium mobility in highly contaminated soils. Journal of Environmental Management. 2020, 262: 110251.
(31) Liu J*, Ren SX, Zhou YT, Tsang D, Lippold H, Wang J*, Yin ML, Xiao TF, Luo XW, Chen YH. High contamination risks of thallium and associated metal(loid)s in fluvial sediments from a steel-making area and implications for environmental management. Journal of Environmental Management. 2019, 250: 109513.
(32) Li N, Zhou, YC, Liu J*, Tsang D, Wang J*, She JY, Zhou YT, Yin ML, Chen ZR, Chen DY. Persistent thallium contamination in river sediments, source apportionment and environmental implications. Ecotoxicology and Environmental Safety. 2020, 202: 110874.
(33) Wang J, Jiang YJ, Sun J, She JY, Yin ML, Fang F, Xiao TF, Song G, Liu J*. Geochemical transfer of cadmium in river sediments near a lead-zinc smelter. Ecotoxicology and Environmental Safety. 2020, 196: 110529.
(34) Hou LP, Chen SD, Shi WJ, Chen HX, Liang YQ, Wang XL, Tan JF, Wang YF, Deng XK, Zhan MJ, Long JZ, Cai GW, Luo SW, Zhang CP, Liu J*, et al.. Norethindrone alters mating behaviors, ovary histology, hormone production and transcriptional expression of steroidogenic genes in zebrafish (Danio rerio). Ecotoxicology and Environmental Safety. 2020, 195: 110496.
(35) Hou LP, Chen SD, Liu J*, et al.. Transcriptomic and physiological changes in western mosquitofish (Gambusia affinis) after exposure to norgestrel. Ecotoxicology and Environmental Safety. 2019, 171: 579–586.
(36) Xu T, Sun XS, Hong H, Wang XY, Cui MY, Lei GL, Gao L, Liu J*, et al.. Stable isotope ratios of typhoon rains in Fuzhou, Southeast China, during 2013–2017. Journal of Hydrology. 2019, 570: 445–453.
(37) Liu J, Luo XW, Wang J, Xiao TF, et al.. Thallium contamination in arable soils and vegetables around a steel plant—A newly-found significant source of Tl pollution in south China. Environmental Pollution. 2017, 224: 445–453.
(38) Liu J*, Wang J, Chen YH*, et al.. Thallium dispersal and contamination in surface sediments from South China and its source identification. Environmental Pollution. 2016, 213: 878–887.
(39) Liu J*, Wang J, Chen YH, et al.. Thallium transformation and partitioning during Pb-Zn smelting and environmental implications. Environmental Pollution. 2016, 212: 77–89.
(40) Liu J, Lippold H, Wang J, Lippmann-Pipke J, Chen YH*. Sorption of thallium(I) onto geological materials: Influence of pH and humic matter. Chemosphere. 2011, (82): 866–871.
(41) Liu J, Wang J, Li HC, Shen CC, Chen YH*, Wang CL, Ye HZ, Long JY, Song G, Wu YJ. Surface sediment contamination by uranium mining/milling activities in South China. Clean–Soil Air Water. 2015, 43(3): 414–420.
(42) Liu J, Wang J, Chen YH*, Lippold H, Xiao TF, Li HS, Shen CC, Xie LH, Xie XF, Yang HL. Geochemical transfer and preliminary health risk assessment of thallium in riverine system in the Pearl River Basin, South China. Journal of Geochemical Exploration. 2017, (176): 64–75.
(43) Liu J, Wang J, Xiao TF, Bao ZA, Lippold H, Luo XW, Yin ML, Ren JM, Chen YH*, Linghu WS*. Geochemical dispersal of thallium and accompanying metals in sediment profiles from a smelter-impacted area in South China. Applied Geochemistry. 2018, 88: 239–246.
(44) Liu J, Wang J, Qi JY, Li XP, Chen YH*, Wang CL, Wu YJ. Heavy Metal Contamination in Arable Soils and Vegetables around a Sulfuric Acid Factory, China. Clean-Soil Air Water. 2012, 40 (7): 766–772.
(45) Liu J, Chen YH, Wang J, Qi JY, Wang CL, Lippold H, Lippmann-pipke J*. Factor analysis and sequential extraction unveil geochemical processes relevant for trace metal distributions in fluvial sediments of a pyrite mining area, China. Carbonates and Evaporites. 2010, 25 (1): 51–63.
(46) Liu J, Wang J, Chen YH*, Qi JY, Lippold H, Wang CL. Thallium distribution in sediments from the Pearl River Basin, China. Clean-Soil Air Water. 2010, 38 (10): 909–915.
(47) Liu J, Wang J, Chen YH*, Lippold H, Lippmann-pipke J. Comparative characterization of two natural humic acids in the Pearl River Basin, China and their environmental implications. Journal of Environmental Sciences. 2010, 22(11): 1695–1702.
(48) She JY, Liu J, He HP, Zhang Q, Lin YY, Wang J*, Yin ML, Wang LL, Wei XD, Huang YL, Cheng CZ, Lin WL, Chen N, Xiao TF. Microbial response and adaption to thallium contamination in soil profiles. J. Hazard. Mater. 2022, 423, 127080.
(49) Li HS, Chen YH*, Long JY, Li XW, Jiang DQ, Zhang P, Qi JY, Huang XX, Liu J, Xu RB, Gong J. Removal of thallium from aqueous solutions using Fe-Mn binary oxides. Journal of Hazardous Materials. 2017, 338: 296–305.
(50) Li HS, Chen YH*, Long JY, Jiang DQ, Liu J, Li SJ, Qi JY, Zhang P, Wang J, Gong J, Wu QH, Chen DY. Simultaneous removal of thallium and chloride from a highly saline industrial wastewater using modified anion exchange resins. Journal of Hazardous Materials. 2017, 333: 179–185.
(51) Chen YH*, Wang CL, Liu J, Wang J, Qi JY, Wu YJ. Environmental exposure and flux of thallium by industrial activities utilizing thallium-bearing pyrite. Science China: Earth Sciences. 2013, 56: 1502–1509.
(52) Wang J*, Liu J, Li HC, Chen YH*, Xiao TF, Song G, Chen DY, Wang CL. Uranium and thorium leachability in contaminated stream sediments from a uranium minesite. Journal of Geochemical Exploration. 2017, 176: 85–90.
专利
(1) 刘娟,陈永亨,王津,张平,李伙生,解小凡,江峰,方俊. 一种同时高效去除冶炼废水中铊和砷的新方法. CN201510468124.7.
(2) 王津,刘娟,梁嘉仪,梁燕珊,肖唐付,陈迪云,陈永亨,宋刚,李伙生.一种活性炭及其制备方法及含铀废水的处理方法. ZL201611258550.9. (已授权)
(3) 王津,刘娟,上官琦佩,陈永亨,张平,李伙生,陈迪云,宋刚,吴启航. 夏威夷果壳活性炭的制备方法及其对含铀废水的处理方法. CN201510448181.9.
(4) 吴颖娟,陈永亨,张平,罗定贵,黄雪夏,刘娟,李祥平. 一种碘化亚铊的制备方法. CN201810264009.1.
(5) 吴颖娟,陈永亨,张平,罗定贵,黄雪夏,刘娟,李祥平. 一种基于界面作用的碘化亚铊的制备方法. ZL201811049626.6. (已授权)
(6) 张平,陈绮洁,姚焱,陈永亨,孔曜,吴颖娟,黄雪夏,刘娟. 一种以铅锌矿冶炼废水为原料制备溴化亚铊的方法. 授权公告日:2015/8/26, ZL201410100232.4. (已授权)
(7) 李伙生,陈永亨,龙建友,张平,刘娟,王津,黄雪夏,黎秀菀.一种高氯含铊废水的净化处理方法及其应用. CN201710269199.1.
学术获奖
2017年获得贵州省科技进步奖二等奖,
珠江流域铊表生生物地球化学与环境效应研究(排名第二)
2019年指导学生“挑战杯”获得广东省赛一等奖;
2018年度指导学生“挑战杯”获得广州大学校赛一等奖奖励;
2016年获得广州大学“年度学术新锐”;
2015年指导学生“挑战杯”获得广东省赛三等奖;
2014年度指导学生“挑战杯”获得广州大学校赛二等奖奖励。
