讲师
地址:南京大学环境学院B515室
Email: yuxz@nju.edu.cn
教育经历
2004.3~2007.9:香港浸会大学生物系,博士
2000.9~2003.6:南京农业大学资源与环境科学学院,硕士
1996.9~2000.6:南京农业大学资源与环境科学学院,学士
工作经历
2008.7~至今:南京大学环境学院,讲师
2018.9~2020.8:无锡市梁溪区扬名街道副主任(挂职)
2014.9~2015.8:加拿大维多利亚大学生物系,访问学者
2009.8~9、2010.7~9:德国哥廷根大学,访问学者
2007.10~2008.2:香港浸会大学生物系,研究助理
研究领域
污染物在土壤-植物系统中的迁移转化过程
水/土环境污染的生物修复技术
学术兼职
Eco-Environment & Health期刊编辑部副主任
SCI期刊Bulletin of Environmental Contamination and Toxicology亚洲编辑部主任
课程教学
《环境生物监测与修复技术》、《土壤生物学》、《生产实习》
科研项目
1、"长三角重金属和面源污染诊断监测与风险评价"子课题4:重金属和面源污染对土-水系统影响评价(国家重点研发项目子课题2018YFD0800201-04),2018-2021,主持
2、长三角农用地土壤有机物污染现状及时空分布特征(中国工程院咨询研究项目2019-XZ-24),2019-2021,主研
3、"太湖贡湖生态修复模式工程技术研究与综合示范"子课题1:滨湖区地表径流污染拦截与净化利用工程技术集成与示范(国家"十二五"水体污染控制与治理科技重大专项2013ZX07101014),2013~2017,主研
4、基于区域典型重金属有机物复合污染的综合环境风险评价技术与示范(江苏省科技支撑计划社会发展项目BE2012737),2012-2015,主研
5、"复合污染型入湖河流武进港及小流域污染控制技术与工程示范"子课题3:武进港污染底泥疏浚、河道形态构建技术与工程示范(国家"十一五"水专项2008ZX07101-003),2008-2012,主研
6、土壤多环芳烃在植物修复过程中归趋的C-14放射性示踪研究(国家自然科学基金青年项目21007024),2011-2013,主持
代表性论文
1. Feng Y., Liu F., Li M. *, Cui Y.B., Jiang X.F., Yu X.Z.* 2021. Risk assessment and ecotoxicological effects of leachates extracted from industrial district soils of Nanjing, China. Ecotoxicology, 30, 1343–1353.
2. Zhang T., Liu F., Yu X.Z., Jiang X.F., Cui Y.B., Li M. 2021. Risk assessment and ecotoxicological diagnosis of soil from a chemical industry park in Nanjing, China. Ecotoxicology, 30, 1303–1314.
3. Song L., Pan Z.Z., Dai Y., Chen L., Zhang L., Liao Q.L.., Yu X.Z., Guo H.Y., Zhou G.S. 2021. High-throughput sequencing clarifies the spatial structures of microbial communities in cadmium-polluted rice soils. Environmental Science and Pollution Research, 28, 47086-47098.
4. Song L., Pan Z.Z., Dai Y., Chen L., Zhang L., Liao Q.L.., Yu X.Z., Guo H.Y., Zhou G.S. 2020. Characterization and comparison of the bacterial communities of rhizosphere and bulk soils from cadmium-polluted wheat fields. PeerJ, 8, e10302.
5. Wu F.Y.1, Yu X.Z.1, Wu S.C., Wong M.H. 2014. Effects of inoculation of PAH-degrading bacteria and arbuscular mycorrhizal fungi on responses of ryegrass to phenanthrene and pyrene. International Journal of Phytoremediation, 16, 109-122.
6. Yu X.Z., Wu S.C., Wu F.Y., Wong M.H. 2011. Enhanced dissipation of PAHs from soil using mycorrhizal ryegrass and PAH-degrading bacteria. Journal of Hazardous Materials, 186, 1206-1217.
7. Wu F.Y.1, Yu X.Z.1, Wu S.C., Lin X.G., Wong M.H. 2011. Phenanthrene and pyrene uptake by arbuscular mycorrhizal maize and their dissipation in soil. Journal of Hazardous Materials, 187, 341-347.
8. Zhang R., Wang W., Shi X., Yu X.Z., Li M., Xiao, L., Cui Y.B. 2011. Health risk of semi-volatile organic pollutants in wujin river inflow into taihu lake. Ecotoxicology, 20, 1083-1089.
9. Gao Y., Wu S.C., Yu X.Z., Wong M.H. 2010. Dissipation gradients of phenanthrene and pyrene in the Rice rhizosphere. Environmental Pollution, 158, 2596-2603.
10. Zhang W., Wang H., Zhang R., Yu X.Z., Qian P.Y., Wong M.H. 2010. Bacterial communities in PAH contaminated soils at an electronic-waste processing center in China. Ecotoxicology, 19, 96-104.
11. Zennegg, M., Yu X.Z., Wong M.H., Weber R. 2009. Fingerprints of chlorinated,brominated and mixed halogenaed dioxins at two e-waste recycling sites in Guiyu/China. Organohalogen Compounds. 71, 2263-2267.
12. Yu X.Z., Zennegg M., Engwall M., Rotander A., Larsson M., Wong M.H., Weber R. 2008. E-waste recycling heavily contaminates a Chinese city with chlorinated, brominated and mixed halogenated Dioxins. Organohalogen Compounds. 70, 813-816.
13. Wong M.H., Wu S.C., Deng W.J., Yu X.Z., Luo Q., Leung A.O.W., Wong C.S.C., Luksemburg W.J., Wong A.S. 2007. Export of toxic chemicals - A review of the case of uncontrolled electronic-waste recycling. Environmental Pollution. 149, 131-140.
14. Yu X.Z., Gao Y., Wu S.C., Zhang H.B., Cheung K.C., Wong M.H. 2006. Distribution of polycyclic aromatic hydrocarbons in soils at Guiyu area of China, affected by recycling of electronic waste using primitive technology. Chemosphere. 65, 1500-1509.
15. Yu X.Z., Cheng J.M., Wong M.H. 2005. Earthworm–mycorrhiza interaction on Cd uptake and growth of ryegrass. Soil Biology and Biochemistry. 37, 195-201.
16. Gao Y., Yu X.Z., Wu S.C., Cheung K.C., Tam N.F.Y., Qian P.Y., Wong M.H. 2006. Interactions of rice (Oryra Sativa L.) and PAH-degrading bacteria (Acinetobacteria sp.) on enhanced dissipation of spiked phenanthrene and pyrene in waterlogged soil. Science of the Total Environment. 372, 1-11.
17. 俞协治,成杰民,2003,蚯蚓对土壤中铜、镉生物有效性的影响,生态学报,23(5):922-928.
18. 成杰民,俞协治, 黄铭洪,2007,蚯蚓-菌根相互作用对土壤-植物系统中Cd迁移转化的影响,环境科学学报,27(2):228-234.
19. 成杰民,俞协治,2006,蚯蚓在植物修复铜、镉污染土壤中的作用,应用与环境生物学报,12(3):352-355.
20. 成杰民,俞协治, 黄铭洪,2006,蚯蚓-菌根相互作用对Cd 污染土壤中速效养分及植物生长的影响,农业环境科学学报,25(3):685-689.
21. 成杰民,俞协治, 黄铭洪,2005,蚯蚓-菌根在植物修复镉污染土壤中的作用,生态学报,25(6):1256-1263.