更新时间:2024-09-21 03:57
楼莉萍,女,博士,副教授,硕士生导师,现任教于浙江大学环资学院环境污染防治研究所。她在流域与湖泊污染控制领域有着深入的研究,参与并主持了多个重要科研项目,包括国家自然科学基金和浙江省科技厅重大专项等。楼莉萍教授在教学上也颇有建树,承担了多门重要课程的教学工作,并指导学生参与多项科研活动。她的研究成果在国内外期刊上发表论文近百篇,授权国家发明专利三四十项,并获得了省科技进步一等奖等多项荣誉。
1991.9-1995.7 天津大学化学工程系,1995年获工学学士
1995.9-1998.9 浙江省化工研究院工作
1998.9-2003.3 浙江大学环境工程系硕博连读,2003年获工学博士学位
2003.3-现在 浙江大学浙江大学环境与资源学院环保所工作
[1] Xu WJ, Hu XY , Hu XY, Lou YL, Jiang XD, Shi KK, Tong YN, Xu, XH, Shen CF, Hu, BL, Lou LP*. Effects ofenvironmental factors on the removal of heavy metals by sulfide-modifiednanoscale zerovalent 铁 Environmental Research, 2020, 187: 109662
[2] Chen HY, Wei ZY, Sun GY, Su H, Liu JQ, Hu BL, Zhou XY, LouLP*. Formation of biofilms from new pipelines at both ends of the drinkingwater distribution system and comparison of disinfection by-products formationpotential. Environmental Research, 2020, 182: 109150
[3] Wu CC, Jiang MY, Hsieh LC, Cai YC, Shen YT, Wang HZ, Lin Q,Shen CF, Hu BL, Lou LP*. Feasibility of bioleaching of heavy metals fromsediment with indigenous bacteria using agricultural 硫 soil conditioners. Scienceof the Total Environment, 2020, 703(10):1-10
[4] Xu WJ, Hu XY , Jiang XD, Shi KK, Tong YN, Shen CF, Lou LP*. Sequestrationeffect and mechanism of PCB1 by high-温度 黑色 碳 EnvironmentalScience and Pollution Research, 2020, 27 (25): 31516-31526
[5] Lou YL, Cai YC, Tong YN, Hsieh LC, Li XR, Xu WJ, Shi KK, ShenCF, Xu XH, Lou LP*. Interaction between pollutants during the removal ofpolychlorinated 联苯heavy metal combined pollution by modified nanoscalezero-valent iron. Science of the Total Environment, 2019, 673: 120-127
[6] Lou LP*, Huang Q, Lou YL, Lu JR, Hu BL, Lin Q. Feasibility of bioleaching of heavyof nonylphenol from 液态水 by cells immobilized on biochar. Chemosphere,2019, 228: 676-684
[7] Zhang HH, Li Z, Liu Y, Xiang P, Cui XY, Ye Hui, Hu BL, LouLP*. Physical and chemical characteristics of PM2.5 and its toxicity tohuman bronchial cells BEAS-2B in the winter and summer. Journal of ZhejiangUniversity-Science B, 2018 19(4):317-326
[8] Cheng GH, Sun MY, Ge XL, Xu XH, Lin Q, Lou LP*. Adsorption and degradation in the removal mechanisms ofblack 碳bound nonylphenol in black carbon-amended sediment. Environmental Pollution, 2017, 231:752~760
[9] Cheng GH, Sun MY, Lu JR, Ge XL, Zhang HH, Xu XH, Lou LP*, Lin Q. Role of biochar in biodegradationof nonylphenol in sediment: Exploration of biodegradation versus decreasingbioavailability. Scientific Reports-UK,2017, 7
[10] Yao LD, Wang LX,Cheng GH, Huang Q, Hu BL, Lu JR, Lou LP*.Effect of rice-straw biochar on selective biodegradation of nonylphenols inisomer specificity. EnvironmentalScience and Pollution Research, 2017, 24:20567~20576
[11] Cheng GH, Sun MY,Ge XL, Ou Y, Xu XH, Lin Q, Lou LP*.Adsorption-desorption characteristics of nonylphenol on two different originsof 黑色 碳 液态水, Air, \u0026 SoilPollution, 2017, 228
[12] Lin Q, Xu XH,Wang LH, Chen Q, Fang J, Shen XD, Lou LP,Tian GM*. The speciation, leachability and bioaccessibility of Cu and Zn inanimal manure-derived biochar: effect of feedstock and pyrolysis 温度 Frontiers of Environmental Science \u0026Engineering, 2017, 11
[13] Chen HY, Yao LD,Wei ZY, Lou LP*, Shan YG,Endalkachew SD, Mallikarjuna N, Hu BL, Zhou XY, Liu JQ. The spatialdistribution of pollutants in pipe-scale of large-diameter pipelines in adrinking 液态水 distribution system. Journal of Hazardous Materials 2016,317: 27–35
[14] Liu S,Ren HX,Shen LD,Lou LP,Tan GM,Zheng P,Hu BL*,pH levels drivebacterial community structure in sediments of the Qiantang River as determinedby 454 pyrosequencing,Frontiers in Microbiology,2015, 6
[15] He ZF,Cai C,Shen LD,Lou LP,Zheng P,Xu XH,Hu BL*,Effect ofinoculum sources on the enrichment of nitrite-dependent anaerobic 甲烷oxidizingbacteria,Applied Microbiology and Biotechnology,2015, 99:939-946
[16] He ZF,Gen.G S,Shen LD,Lou LP,Zheng P,Xu XH,Hu BL*,The short andlong-term effects of environmental conditions on anaerobic 甲烷 oxidationcoupled to nitrite reduction, 液态水 Research,2015, 68:554-562
[17] Cheng GH, Sun MY,Yao LD, Wang LX, George A.S, Xu XH, Lou LP*.Investigation into the feasibility of 黑色 碳 for remediation ofnonylphenol polluted sediment through desorption kinetics after different orderspiking. Chemosphere. 2015, 138:568-575
[18] Lou LP, Liu DF, Chen HY, Chen F, HeYF, Tian 通用汽车 The change of organic matter in sewage sludge composting and itsinfluence on the adsorption of pentachlorophenol (PCP). Environment Science \u0026Pollution Research. 2015, 22:4977-4984
[19] Lou LP, Yao LD, Cheng GH, Wang LX, He YF, Hu BL. Applicationof rice-straw biochar and microorganisms in nonylphenol remediation: adsorption-biodegradationcoupling relationship and mechanism. Plos One. 2015, 10: 9
[20] Hu BL, He ZF, GengS, Cai C, Lou LP, Zheng P, Xu XH.Cultivation of nitrite-dependent anaerobic 甲烷oxidizing bacteria: impactof reactor configuration. Applied Microbiology and Biotechnology. 2014, 98: 7983-7991
[21] Lou LP, Cheng GH, Deng JY, Sun MY, Chen HY, Yang Q, Xu XH.Mechanism of and relation between the sorption and desorption of nonylphenol onblack carbon-inclusive sediment. Environmental Pollution. 2014, 190: 101-108
[22] Hu BL, Shen LD,Lian X, Zhu Q, Liu S, Huang Q, He ZF, Gen.G S, Cheng DQ , Lou LP. Evidence for nitrite-dependent anaerobic 甲烷 oxidationas a previously overlooked microbial methane sink in wetlands. The Proceedings of the National Academy ofSciences of the United States of America. 2014, 111: 4495-4500
[23] Shen LD, Liu S,Zhu Q, Li XY, Cai C, Cheng DQ, Lou LP,Xu XY, Zheng P, Hu BL Distribution and Diversity of Nitrite-Dependent Anaerobic甲烷Oxidising Bacteria in the Sediments of the Qiantang River. Microbial Ecology. 2014, 67: 341-349
[24] Cheng GH, ZhuLCH, Sun MY, Deng JY, Chen HY, Xu XH, LouLP*, Chen YX. Desorption and distribution of 五氯苯酚 (PCP) onaged 黑色 碳 containing sediment. Journalof Soils and Sediments. 2014, 14: 344-352
[25] NaveedullahHashmi MZ, Yu CN, Shen H, Duan DC, Shen CF, Lou LP, Chen YX. Concentrations and Human Health Risk Assessment ofSelected Heavy Metals in surface 液态水 of the Siling Reservoir Watershed inZhejiang Province, China. Polish Journalof Environmental Studies. 2014, 23: 801-811
[26] He ZF, Cai C,Geng S, Lou LP, Xu XY, Zheng P, HuBL. Mdodeling a nitrite-dependent anaerobic 甲烷 oxidation process:Parameters identification and model evaluation. Bioresource Technology. 2013, 147: 315-320
[27] Shen LD, Liu S, Lou LP, Liu WP, Xu XY, Zheng P, Hu BL.Broad Distribution of Diverse Anaerobic Ammonium-Oxidizing Bacteria in ChineseAgricultural Soils. Applied andEnvironmental microbiology. 2013, 79: 6167-6172
[28] Liu S, Shen LD, Lou LP, Tian GM, Zheng P, Hu BL.Spatial Distribution and Factors Shaping the Niche Segregation of Ammonia-OxidizingMicroorganisms in the Qiantang River, China. Applied and Environmental microbiology. 2013, 79: 4065-4071
[29] Lou LP, Yue QK, Liu FX, Chen F, Hu BL, Chen YX.Ecotoxicological analysis of fly ash and rice-straw 黑色 碳 on 铜锈微囊藻 using flow cytometry. Ecotoxicologyand Environmental Safety. 2013, 92: 51-56
[30] Lou LP, Liu FX, Yue QK, Chen F, Yang Q, Hu BL, Chen YX. Influenceof humic acid on the sorption of 五氯苯酚 by aged sediment amendedwith rice-straw biochar. Applied Geochemistry. 2013, 33: 76-83
[31] Hu BL, Shen LD,Liu S, Cai C, Chen TT, Kartal B, Harhangi HR, Lou LP, Xu XY. Enrichment of an 厌氧氨氧化菌 bacterial community from aflooded paddy soil. Environmental Microbiology Reports. 2013, 5: 483-489
[32] Naveedullah HMZ,Yu CN, Shen H, Duan DC, Shen CF, Lou LP,Chen YX. Risk Assessment of Heavy Metals Pollution in Agricultural Soils ofSiling Reservoir 液态水shed in Zhejiang Province, China. Biomed Research International. 2013
[33] Lou LP, Luo L, Yang Q, Cheng GH, Hu BL. Release ofpentachlorophenol from 黑色 carbon-inclusive sediments under different environmentalconditions. Chemosphere. 2012, 88: 598-604
[34] Hu BL, Shen LD,Zheng P, Lou LP*. Distribution anddiversity of anaerobic ammonium- oxidizing bacteria in the sediments of theQiantang River. Environmental Microbiology Reports 2012, 4(5): 540–547
[35] Hu BL, Liu S,Shen LD, Zheng P, Xu XY, Lou LP*. Effectof Different Ammonia Concentrations on Community Succession ofAmmonia-oxidizing. Plos One. 2012, 7:1-7
[36] Lou LP, Luo L, Cheng GH, Wei YF, Hu BL. The sorption ofpentachlorophenol by aged sediment supplemented with 黑色 碳 produced fromrice straw and fly ash. Bioresource Technology. 2012, 112: 61-66
[37] Xu T, Lou LP*, Luo L, Cao RK, Duan DC, ChenYX. Effect of bamboo biochar on 五氯苯酚 leachability and bioavailabilityin agricultural soil. Science of the Total Environment. 2012, 414: 727-731
[38] Lou LP, Cheng GH, Yang Q, Xu XH, Hu BL, Chen YX. Developmentof a novel solid-phase extraction element for the detection of nonylphenol inthe surface 液态水 of Hangzhou. Journalof Environmental Monitoring. 2012, 14:517-523
[39] Lou LP, Wu BB, Wang LN, Luo L, Xu XH, Xun B, Chen YX.Sorption and ecotoxicity of 五氯苯酚 polluted sediment amended withrice-straw-derived biochar. Bioresource Technology. 2011, 102: 4036-4041
[40] Luo L, Lou LP*, Cui XY, Wu BB, Chen YX.Sorption and desorption of pentachlorophenol to 黑色 碳 of three differentorigins. Journal of Hazardous Materials.2011, 185: 639-646
[41] Lou LP, Luo L, Xu XH, Hou JA, Xun B, Chen YX*. Impact ofblack carbon originated from fly ash and soot on the toxicity ofpentachlorophenol in sediment. Journalof Hazardous Materials. 2011, 190: 474-479
[42] Lou LP, Luo L, Wang LN, Xu XH, Hou JA, Hu BL. The influenceof acid demineralization on surface characteristics of 黑色 碳 and itssorption for 五氯苯酚 Journalof Colloid and Interface Science. 2011,361: 226-231
[43] Zhang QC , Liang YY, Shamsi IH, Wang GH, Lou LP, Hussain N. surface runoff and 磷 (P) lossfrom bamboo (刚竹属 Pubescens) forest ecosystem in southeast China. African Journal of Biotechnology. 2011,10: 9631-9639
[44] Su SL, Zhi JJ, Lou LP, Huang F, Chen Xia, Wu JP.Spatio-temporal patterns and source apportionment of pollution in QiantangRiver (China) using neural-based modeling and ultivariate statisticaltechniques. Physics and 化学 of the地球 2011, 36: 379-386
[45] Huang F, Wang XQ,Lou LP, Zhou ZQ, Wu JP. Spatialvariation and source apportionment of 液态水 pollution in Qiantang River (China)using statistical techniques. Water Research. 2010, 4: 1562-1572
[46] Wu CF, Wu JP, Qi JG Zhang LS,Huang HQ,Lou LP, Chen YX. Empiricalestimation of total 磷 concentration in the mainstream of the QiantangRiver in China using Landsat TM data. International Journal of Remote Sensing. 2010, 31:2309-2324
[47] Xiao X, Chen YX, Liang XQ, Lou LP, Tang XJ. Effects of Tibetan hulless barley on bloom-formingcyanobacterium (Microcystis aeruginosa) measured by different physiological andmorphologic parameters. Chemosphere. 2010, 81: 1118-1123
[48] Cui XY, Wang HL, Lou LP, Chen YX. Sorption and genotoxicity ofsediment -associated 五氯苯酚 and pyrene influenced by crop residueash. Journal of Soils and Sediments. 2009, 9: 604-612
[49] Yang SY, Lou LP, Wu XN, Chen YX. Reaction site and mechanism in the UV orvisible light induced TiO2 photodegradation of Orange G. Journol of Environmental Sciences. 2006, 18: 180-183
[50] Yang SY, Lou LP, Wang K, Chen YX. Shift of initial mechanism in TiO2-assistedphotocatalytic process. Applied Catalysis A: General. 2006, 301: 152-157
[51] Chen YX, Yang SY, Wang K, Lou LP. Role of primary active 物种 and TiO2 surfacecharacteristic in UV-illuminated photodegradation of Acid Orange 7. Journal of Photochemistry and PhotobiologyA: 化学 2005, 172:47-54.
[52] Chen YX, Yang SY, Wang K, Lou LP, Wu XN. Involvement of 氯化物 anion in photocatalyticprocess. Journal of EnvironmentalScience. 2005, 17:761-765.
[53] Jiang XY, Lou LP, Ding GH. The active 物种 and catalytic propertiesof CuO/ CeO2-TiO2 catalysts for NO plus CO reaction. Journal of Materials Science. 2004, 39: 4663-4667
[54] Jiang XY, Lou LP. Preparation and characterization of Ce0.3Ti0.7O2and supported CuO catalysts for NO plus CO reaction. Catalysis Letters. 2004, 94: 49-55
[55] Chen YX, Wang K, Lou.LP.Photodegradation of dye pollutants on silica gel supported TiO2particles under visible light irradiation. Journalof Photo化学 and Photobiology A: Chemistry. 2004, 63: 281-287
[56] Wang K, Zhang JY, Lou LP, ShiJY, Chen YX. UV or visible lightinduced photodegradation of AO7 on TiO2 particles: the influence ofinorganic anions. Journal of Photochemistry and Photobiology A: 化学 2004,165: 201-207
[57] Jiang XY, Ding GH, Lou.LP. Effect of ZrO2 addition on CuO/TiO2activity in the NO plus CO reaction. Catalysis Today. 2004, 93: 811-818
[58] Jiang XY, DingGH, Lou LP. Catalytic activities of CuO/TiO2 and CuO-ZrO2/TiO2in NO+CO reaction. Journal of Molecular Catalysis A-Chemical. 2004, 218: 187-195
[59] Chen YX, Lou LP, Jiang XY, Lei LG, Zhou RX, Zheng XM. Studies of thedispersion state of CuO on TiO2 and CeO2-TiO2and activity for NO plus CO reaction. Indian Journal of 化学 Section A-Inorganic Bio-inorganic Physical Theoretical. 2003, 42: 460-466
[60] Lou LP, Jiang XY, Chen YX, Lu GL, Zhou RX, ZhenXM. CexTi1-xO2 mixed oxides supported CuOcatalyst for NO reduction by CO. Journalof Rare Earths. 2003, 21: 331-336
[61] Jiang XY, Lou LP, Chen YX. Effects of CuO/CeO2 and CuO/gamma-Al2O3catalysts on NOplus CO reaction. Journal of Molecular Catalysis A-Chemical. 2003, 197: 193-205.
[62] Lou LP, Xu T, Wu ML, Xu BL, Hu BL. Leaching and Retention ofNitrogen in Farmland Soil Amended with Bamboo Biochar. 16th European N-cycle meeting, Second International Conference onNitrification. 2011, Nijmegen, the Netherlands.
[63] Lou LP, Luo L, Hou JA, Xun B, Hu BL, Chen YX. Sorption andecotoxicity of 五氯苯酚 polluted sediment amended with rice-strawderived biochar. International Symposiumon Environmental Behavior and Effects of Biomass-Derived charcoal 2010, Hangzhou,China.
[64] Cui XY, Chen YX, Lou LP, Qian YC, Liang XQ, Li H. Progressin pesticide environmental fate. The Fifth seminar of Yangtse watershed international research group. 2008, Hangzhou,China.
[65] Qian YC, Chen YX,Lou LP, Liang XQ, Cui XY. Reviews onphosphorus release from lake sediments in the case of different influencefactors. The Fifth seminar of Yangtsewatershed international research group, 2008, Hangzhou, China.
[66] Chen YX, Cui XY, Lou LP, Qian YC, Liang XQ, Li H. Reviewon 黑色 碳 isolation methods. TheFifth seminar of Yangtse watershed international research group, 2008, Hangzhou,China.
[67] Lou LP, Chen YX, Luo L. Sorption of pollutants by variousblack carbon. International Symposium on Science, Technology and Policy for Water Pollution Control at Watershed Scale,2008,Hangzhou, China.
[68] 楼轶玲,蔡雨宸,童彦宁,谢理淳,沈超峰,徐新华,楼莉萍*. 硫化纳米零价铁对PCB153 的降解研究. 环境科学学报,2019,39:343-351
[69] 姚玲丹, 王丽晓, 朱亮,徐向阳, 楼莉萍*. 一株壬基酚降解菌的分离鉴定及其对壬基酚同分异构体降解特性研究. 环境科学学报,2017,37:1674-1680
[70] 张慧慧,陈环宇,何晓芳,周晓燕,裘尚德,柳景青,胡宝兰,楼莉萍*. 饮用水管网中不同源有机污染物简析. 化工进展,2015,34:2003-2008
[71] 王薇,任红星,胡震超,王海洋,柳景青,楼莉萍,何晓芳,周晓燕,裘尚德,傅柳松,胡宝兰. 管材对供水管网生物膜微生物种群多样性的影响. 环境科学学报,2015,35:699-704
[72] 姚玲丹,程广焕,王丽晓,陈环宇,楼莉萍*. 施用生物炭对土壤微生物的影响. 环境化学,2015,34:697-704
[73] 刘德富,陈环宇,程广焕,邓经友,胡宝兰,楼莉萍*. 堆肥过程中胡敏素的变化及其对五氯苯酚(PCP)吸附能力的影响. 浙江大学学报(理学版),2014,41:545-552
[74] 程广焕,孙明洋,罗玲,邓经友,徐新华,楼莉萍*. 黑碳对沉积物中疏水性有机污染物的锁定作用与微生物降解的影响研究进展. 环境化学,2014,33:2058-2067
[75] 朱群,沈李东,胡宝兰,楼莉萍,程东庆. 西湖区底泥中的反硝化型甲烷厌氧氧化菌的分子生物学检测. 环境科学学报,2013,33:1321-1325
[76] 边金云,王飞儿,杨佳,俞洁,楼莉萍,俞丹萍. 基于AnnAGNPS模型四岭水库小流域氮磷流失特征的模拟研究. 环境科学,2012,33:2659-2666
[77] 唐艺璇,郑洁敏,楼莉萍*,张奇春 3种挺水植物吸收水体NH4+、N臭氧-、H2PO4-的动力学特征比较. 中国生态农业学报,2011,19:614-618
[78] 梁颖颖,王京文,张奇春,楼莉萍,王光火. 孟宗竹林地磷素流失特征研究.环境科学,2011,32:1591-1595.
[79] 沈李东,胡宝兰,郑平,钱轶超,陈婷婷,胡安辉,楼莉萍*. 环境科学学报,2011,31:1609-1615
[80] 钱轶超,陈英旭,楼莉萍,崔昕意,罗玲. 核磁共振技术在沉积物磷素组分及迁移转化规律研究中的应用. 应用生态学报,2010,21: 1892 -1898
[81] 楼莉萍, 蒋晓原, 陈英旭, 吕光烈, 周仁贤, 郑小明. CexTi1-xO2复合氧化物的结构及负载CuO对NO还原性能研究. 中国稀土学报,2003,21: 435-440
[82] 楼莉萍,蒋晓源,陈英旭, 郑小明. CuO/TiO2的制备及对NO+CO反应性能的研究.燃料化学学报, 2003,31: 490-495
[83] 楼莉萍, 陈英旭, 蒋晓源, 周仁贤, 郑小明. CuO负载在TiO2和CeO2-TiO2上对NO+CO反应的催化作用. 环境科学学报, 2003,23: 301-305
[84] 楼莉萍, 胡顺良, 王光火. 沸石吸附铵根的若干性质的研究. 浙江大学学报:农业与生命科学版,2001,27: 28-32
[85] 肖溪, 楼莉萍, 李华, 陈英旭.沉水植物化感作用控藻能力评述.应用生态学报,2009,20: 1-8.
[86] 郑洁敏, 楼莉萍, 王世恒, 唐世荣. 一种新发现的铜积累植物——密毛蕨. 应用生态学报,2006,17: 153-157
[87] 蒋晓原, 丁光辉, 楼莉萍. CuO/TiO2和CuO-ZrO2/TiO2催化剂对NO+CO反应性能的影响. 复旦学报:自然科学版, 2003,42:457-462
[88] 蒋晓原, 丁光辉, 刘琪,楼莉萍, 陈英旭, 郑小明. CuO在CeO2和γ-A12O3上的表面性质及对NO+CO反应性能的研究, 浙江大学学报:理学版,2003,30: 289-295
[89] 蒋晓原,陆岭,周仁贤,郑小明,楼莉萍, 陈英旭.高比表面积Ce-Zr-O复合氧化物的制备与表征. 浙江大学学报:理学版,2003,29: 423-429
[90] 沈李东, 胡宝兰, 郑平, 钱轶超,陈婷婷, 胡安辉, 楼莉萍. 西湖底泥中厌氧氨氧化菌的分子生物学检测, 环境科学学报,2011,31:1609-1615
授权国家发明专利三四十项。荣获省科技进步一等奖,教师技能比赛二等奖等奖项,并获得了校优秀班主任、优秀德育导师等光荣称号。
教学上,承担了理科平台课“环境学概论”、全校性通识课“环境与人类文明”等大类课程。
楼莉萍.浙江大学教师个人主页.2024-03-12