共找到2條詞條名為盧曉霞的結果 展開
- 浙江龍泉市人民檢察院政治處副主任
- 北京大學城市與環境學院副教授
盧曉霞
北京大學城市與環境學院副教授
(1)新型污染物的環境行為
(2)新型污染物的健康效應
2000年7月畢業於北京大學城市與環境學系,獲博士學位
2000年8月至2002年8月在清華大學環境科學與工程系從事博士后研究
2002年9月至2005年9月在美國環境保護局地下水與生態系統修復部從事博士后研究
2005年10起為北京大學副教授
(1)環境生物地球化學
(2)環境毒理和風險分析
(1)研究生課程《土壤污染控制與修復》
(2)本科生課程《污染環境修復》
(1)沉積物中多溴聯苯醚的微生物降解及其影響因素(2009-2011),國家自然科學基金
(2)原位修復氯代烴污染地下水的生物牆技術研究(2008-2010),霍英東教育基金
(5)石油烴類污染地下水系統植物-微生物聯合修復研究(2002-2005),國家自然科學基金
(6)多環芳烴污染土層系統的微生物修復研究(2001-2003),留學回國人員科研啟動基金
(7)石油污染土層中多環芳烴的微生物降解研究(2001-2002),中國博士后科學基金
(1)有機氯溶劑的自然衰減研究(2002-2005),美國環境保護局
(2)石油污染土層的微生物修復研究(2000-2002),國家自然科學基金
(3)不同電子給體和受體存在條件下有機氯化合物的降解(1999-2000),荷蘭皇家科學院
(4)珠江三角洲地表系統中優控有機物遷移轉化機制與調控(1996-1998),國家自然科學基金
(5)微量有機污染物在地質環境中的遷移轉化(1995-1997),國家自然科學基金
(1) Zhang, S., N. Merino, N. Wang, T. Ruan,X. Lu*. 2016. Impact of 6:2 fluorotelomer alcohol aerobic biotransformation on a sediment microbial community. The Science of Total Environment, 575:1361-1368.
(2) Zhang, S.,X.Lu*, N. Wang, C.B.Robert. 2016. Biotransformation potential of 6:2 fluorotelomer sulfonate (6:2 FTSA) in aerobic and anaerobic sediment. Chemosphere, 154: 224-230.
(3) Zhang, S., Z. Hou, X. Du, D. Li,X. Lu*. 2016. Assessment of biostimulation and bioaugmentation for removing chlorinated volatile organic compounds from groundwater at a former manufacture plant. Biodegradation, 27(4): 223-236.
(4) Zhu, B., X. Xia, S. Wu,X. Lu, X. Yin. 2016. Microbial bioavailability of 2,2',4,4'-Tetrabromo-diphenyl ether (BDE-47) in natural sediments from major rivers of China. Chemosphere, 153: 386-393.
(5) Zhu, B., S. Wu, X. Xia,X. Lu, X. Zhang, N. Xia, T. Liu. 2016. Effects of carbonaceous materials on microbial bioavailability of 2,2,4,4-tetrabromodiphenyl ether (BDE-47) in sediments. Journal of Hazardous Materials, 312: 216-223.
(6) Wu, J., C. Yu, Y. Tan, Z. Hou, M. Li, F. Shao,X. Lu*, 2015. Effects of prenatal exposure to silver nanoparticles on spatial cognition and hippocampal neurodevelopment in rats. Environmental Research, 138: 67-73.
(7) Shen Z., Z. Chen, Z. Hou, T. Li,X. Lu*, 2015. Ecotoxicological effect of zinc oxide nanoparticles on soil Microorganisms. Frontier of Environmental Science & Engineering, DOI 10.1007/s11783-015-0789-7
(8)Lu, X., L. Lessner L, D.O. Carpenter, 2014. Association between hospital discharge rate for female breast cancer and residence in a zip code containing hazardous waste sites. Environmental Research, 2014, 134: 375–381.
(9) Zhang, S, B. Szostek, P.K. McCausland, B.W. Wolstenholme,X. Lu*, N. Wang, R.C. Buck, 2013. 6:2 and 8:2 fluorotelomer alcohol anaerobic biotransformation in digester sludge from a WWTP under methanogenic conditions. Environmental Science & Technology, 47(9): 4227-4235.
(10)Lu, X*, C. Chen, S. Zhang, Z. Hou, J. Yang, 2013. Concentration levels and ecological risks of persistent organic pollutants in the surface sediments of Tianjin coastal area, China. The Scientfic World Journal, 2013, Article ID 417435.
(11) Shen, H, J. T. Wilson,X. Lu, 2012. A tracer test to characterize treatment of TCE in a permeable reactive barrier. Ground Water Monitoring & Remediation, 32(4): 32-41.
(12) Wang, W., S.L.M Simonich, W. Wang, B. Giri, J. Zhao, M. Xue, J. Cao,X. Lu, S. Tao. 2011. Atmospheric polycyclic aromatic hydrocarbon concentrations and gas/particle partitioning at background, rural village and urban sites in the North China Plain. Atmospheric Research, 99: 197–206.
(13) Tao, S., L. Li, J. Ding, J. Zhong, D. Zhang, Y. Lu, X. Wang, X. Li, J. Cao,X.Lu, W. Liu. 2011. Mobilization of soil-bound residue of organochlorine pesticides and polycyclic aromatic hydrocarbons in an in vitro gastrointestinal model. Environmental Science & Technology, 45(3): 1127–1132.
(14) Wang, W., S.L.M. Simonich, B. Giri, Y. Chang, Y. Zhang, Y. Jia, S. Tao, R. Wang, B. Wang, W. Li, J. Cao,X. Lu. 2011. Atmospheric concentrations and air–soil gas exchange of polycyclic aromatic hydrocarbons (PAHs) in remote, rural village and urban areas of Beijing–Tianjin region, North China. Science of the Total Environment, 409: 2942–2950.
(15) Yu, Y.,X. Wang, B. Wang, S. Tao, W. Liu, X. Wang, J. Cao, B. Li,X. Lu, M. Wong. 2011. Polycyclic aromatic hydrocarbon residues in human milk, placenta, and umbilical cord blood in Beijing, China. Environmental Science & Technology, 45(23): 10235-10242.
(16)Lu, X*, J. T. Wilson, D.H. Kampbell. 2009. Comparison of an assay forDehalococcoides DNA and a microcosm study in predicting reductive dechlorination of chlorinated ethenes in the field. Environmental Pollution, 157: 809-815.
(17) Tao, S., Y. Lu, D. Zhang, Y. Yang,X.Lu, D. Sai. 2009. Assessment of oral bioaccessibility of organochlorine pesticides in soil using an in vitro gastrointestinal model. Environmental Science & Technology, 43(12): 4524–4529.
(18) Yu, Y., S. Tao, W. Liu,X. Lu, X. Wang, M. Wong, 2009. Dietary intake and human milk residues of hexachlorocyclohexane isomers in two Chinese cities. Environmental Science & Technology, 43(13): 4830-4835.
(19) Tao, S., Y. Yu, W. Liu, X. Wang, J. Cao, B. Li,X. Lu, M. Wong. Validation of dietary intake of dichlorodiphenyltrichloroethane and metabolites in two populations from Beijing and Shenyang, China based on the residuals in human milk. Environmental Science & Technology, 42(20): 7709–7714.
(20)Lu, X*, J. T. Wilson, H. Shen, H. Bruce, D.H. Kampbell, 2008. Remediation of TCE-contaminated groundwater by a permeable reactive barrier filled with plant mulch. Journal of Environmental Science & Health, A, 43(1): 24-35.
(21) Wang, W., B. Meng,X. Lu*, Y. Liu, S. Tao, 2007. Extraction of polycyclic aromatic hydrocarbons and organochlorine pesticides from soils: a comparison between Soxhlet extraction, microwave-assisted extraction and accelerated solvent extraction techniques. Analytica Chimica Acta, 602: 211-222.
(22)Lu, X*, J.T. Wilson, D.H. Kampbell, 2006. Relationship between geochemical parameters and the occurrence ofDehalococcoides DNA in contaminated aquifers. Water Resource Research, 42, 2006, W08427, doi:10.1029/2005WR004283.
(23)Lu, X*, J. T. Wilson, D.H. Kampbell, 2006. Relationship betweenDehalococcoides DNA and dechlorination rates at field scale. Water Research, 40: 3131-3140.
(24) Tao, S., X. Li, Y. Yang, R.M. Coveney,X. Lu, H. Chen, W. Shen. 2006. Dispersion modeling of polycyclic aromatic hydrocarbons from combustion of biomass and fossil fuels and production of coke in Tianjin, China. Environmental Science & Technology, 40(15): 4586-4591.
(25)Lu,X.*, X. Zhang, G. Li, W. Zhang. 2003. Production of biosurfactant and its role in the biodegradation of oil hydrocarbons. Journal of Environmental Science & Health, Part A, 38(3): 483-492.
(26)Lu,X.*, G. Li, S. Tao, T.N.P. Bosma, J. Gerritse. 2002. Volatile fatty acids as electron donors for the reductive dechloirnation of chloroethenes. Journal of Environmental Science & Health, Part A, 37(4): 439-449.
(27)Lu, X.*, S. Tao, T.N.P. Bosma, J. Gerritse. 2001. Characteristic hydrogen concentrations of various redox processes in batch study. Journal of Environmental Science & Health, Part A, 36(9): 1725-1734.
(28) Tao, S.,X. Lu, J. Cao, R. Dawson. 2001. A comparison of fragment constant and molecular connectivity indices models for K estimation. Water Environmental Research, 73: 307-313.
(29)Lu, X., S. Tao, H. Hu, R. Dawson. 2000. Estimation of bioconcentration factors of nonionic organic compounds in fish by molecular connectivity indices and polarity correction factors. Chemosphere, 41: 1675-1688.
(30) Tao, S., H. Hu,X. Lu, R. Dawson. 2000. Fragment constant method for prediction of fish bioconcentration factors of nonpolar chemicals. Chemopshere, 41: 1563-1568.
(31)Lu,X., S. Tao, J. Cao, R. Dawson. 1999. Prediction of fish bioconcentration factors of nonpolar organic pollutants by molecular connectivity indices. Chemosphere, 39: 987-999.
(32) Tao, S.,X. Lu. 1999. Estimation of organic carbon normalized sorption coefficient (K) for soils by topological indices and polarity factors. Chemosphere, 39: 2019-2034.
(33) Tao, S., H. Piao, R. Dawson,X. Lu, H. Hu. 1999. Estimation of organic carbon normalized sorption coefficient (K) for soils by fragment constant method. Environmental Science & Technology, 33: 2719-2725.
4. 陳嫣,李廣賀,張旭,盧曉霞,張玲,石油污染土壤植物根際微生態環境與降解效應,清華大學學報,2005,45(6),784-787.
6. 盧曉霞, 李廣賀, 張旭, 章衛華, 厭養條件下有機氯代烴污染物的氧化降解, 環境科學, 2002, 23 (4), 37-41.
7. 盧曉霞, 李廣賀, 張旭, 章衛華, 水環境中不同氧化還原條件的氫濃度特徵, 環境化學, 2002, 21 (1), 1-6.
8. 章衛華, 李廣賀, 邵輝煌, 張旭, 盧曉霞, 包氣帶土層中石油污染物的微生物降解研究, 環境科學, 2002, 15 (2), 60-62.
9. 李廣賀, 張旭, 盧曉霞, 土壤殘油生物降解性與微生物活性, 地球科學, 2002, 27 (2), 181-185.
10. 胡海瑛, 陶澍, 盧曉霞, 估算有機化合物在魚體中生物富集因子的片段常數法, 水生生物學報, 2001, 26, 25-30.
11. 胡海瑛, 陶澍, 盧曉霞, 用片段常數法估算有機化合物在魚體中的生物富集因子, 環境科學學報, 2001, 21, 271-276.
15. 劉長發, 盧曉霞, 林建枝, 陶澍, 香港河流沉積物對銅的吸附特性及重金屬潛在毒性, 環境化學, 2000, 19, 335-340.
16. 胡海瑛, 陶澍, 盧曉霞, 估算多氯聯苯在魚體中生物富集因子的片段常數法, 環境化學, 2000, 19, 159-164.
18. 胡海瑛, 陶澍, 盧曉霞, 習曉環, 估算多氯聯苯在魚體內生物富集因子的分子連接性指數模型, 環境科學, 2000, 21, 16-20.
19. 朴海善, 陶澍, 胡海瑛, 盧曉霞, 葉生髮, 估算有機化合物土壤吸著係數Koc的片段常數法, 土壤學報, 2000, 37, 209-216.
20. 盧曉霞, 陶澍, 李杭, 朴海善, 根據分子連接性指數估算極性有機污染物的吸附係數, 環境科學學報, 1999, 19, 277-283.
21. 盧曉霞, 陶澍, 胡海瑛, 葉生髮, 根據分子連接性指數估算非極性有機化合物在魚體中的生物富集因子, 環境科學, 1999, 20, 9-12.
22. 盧曉霞, 陶澍, 李杭, 朴海善, 根據分子連接性指數估算非極性有機化合物的吸附係數, 土壤學報, 1999, 36, 334-340.
23. 朴海善, 陶澍, 胡海瑛, 盧曉霞, 曹軍, 有機化合物Koc片段常數估算模型的誤差與穩健 性分析, 環境科學, 1999, 20, 28-32.
24. 朴海善, 陶澍, 胡海瑛, 盧曉霞, 葉生髮, 根據水/辛醇分配係數 (Kow)估算有機化合物的吸著係數(Koc), 環境科學與技術, 1999, 87, 8-15.
25. 王廣才, 盧曉霞, 陶澍, 地球化學模型的應用現狀及發展趨勢, 煤炭學報, 1997, 22, 117-121.
26. 盧曉霞, 陳亮, 污水快速滲濾處理系統對某些微量有機污染物的凈化, 環境與開發, 1997, 12, 4-7.
27. 吳永鋒, 鍾佐桑, 汪民, 盧曉霞, 徐衛東, 污水快速滲濾系統對有機污染物的凈化, 環境科學, 1996, 17, 60-62.