吳磊

2017-2018，美國加州大學伯克利分校（UC Berkeley） 土木與環境工程系 博士後訪問學者；

2015-今，西北農林科技大學水利與建築工程學院 副教授；

2012-2014，西北農林科技大學水利與建築工程學院 講師；

2012年，獲重慶大學城市環境與生態工程博士學位（水文水環境方向）；

2010–2011，美國加州大學歐文分校（UC Irvine）水文與水環境研究中心 中美聯合培養博士生；

2008年，獲重慶大學市政工程碩士學位（水文水環境方向）；

2016年5月，入選“陝西省科技新星”（陝西省創新人才推進計劃）；

2016年12月，入選首批“仲英青年學者”。 ^[1] 

以“高侵蝕丘陵區農業非點源污染模擬理論與控制技術”為中心，圍繞“流域水沙輸移動力學”與“非點源污染模擬與控制”兩個方向開展“分佈式水文模擬，侵蝕產沙、污染物運移、情景模擬、BMPs空間配置優化、反演模擬，不確定性分析、時空尺度轉換，土壤物理化學微生物，水沙傳質數值模擬、低影響開發（LID）、水質目標管理”等前沿基礎科學和應用基礎科學研究。 ^[1] 

本科生：先後承擔《水力學》、《水力學實驗》、《水處理工程》、《水利工程概論》等課程。

研究生：先後主講《水環境理論與方法》、《環境水力學》、《非點源污染模擬》、《分佈式水文模型》、《農業水土工程概論》等課程。 ^[1] 

兼任四川省生態文明促進會第一屆專家委員會青年專家，中國水土保持學會會員，國家自然科學基金青年、面上、地區、海外通訊評審專家，擔任Science of the Total Environment, Land Degradation & Development, Environmental Science & Technology, Journal of Environmental Informatics, Water Research, Environmental Modelling & Software，Journal of Environmental Quality, Separation & Purification Reviews, Environmental Science and Pollution Research, Environmental Earth Sciences, Journal of Mountain Science, Environmental Management, SCIENCE CHINA Earth Sciences, International Soil and Water Conservation Research等30餘個國內外期刊經常審稿人。 ^[1] 

先後主持國家自然科學基金面上項目1項、青年項目1項，教育部博士點基金1項，陝西省科技新星支持項目1項，仲英青年學者項目1項，國家重點實驗室開放基金1項，國家重點研發計劃專題子任務1項，校級國際科技合作項目1項，其他項目6項。參加國家自然科學基金面上項目1項，曾參研國家水專項、國家科技支撐計劃、中科院西部行動計劃等項目。

主要代表性項目：

[1] 國家自然科學基金面上項目： 黃土丘陵溝壑區水-沙-吸附態與溶解態非點源污染物多時空尺度耦合運移機理研究, 2017/01-2020/12，主持

[2] 國家自然科學基金青年項目，黃土高原小流域吸附態非點源污染過程模擬與調控研究，2014/01-2016/12，主持

[3] 陝西省創新人才推進計劃—青年科技新星項目，延河流域非點源污染控制措施空間配置優化研究，2017/01-2019/12，主持

[4] 仲英青年學者項目，黃土丘陵區水-沙-非點源氮磷流失多尺度耦合特徵及控制措施優化研究，2017/01-2019/12，主持

[5] 教育部博士點基金，黃土高原小流域非點源氮磷流失形態模擬研究, 2014/01-2016/12，主持

[6] 黃土高原土壤侵蝕與旱地農業國家重點實驗室開放基金，黃土高原小流域吸附態氮磷非點源污染分佈式模型研究, 2014/01-2016/07，主持

[7] 國家重點研發計劃專題子任務，水資源協同配置方案效益可行性分析，2016/07-2019/12，主持 ^[1] 

先後在《Journal of Hydrology》、《Journal of Cleaner Production》、《Environmental Science and Pollution Research》、《Science of the Total Environment》、《Solid Earth》、《Scientific Reports》、《Catena》、《Environmental Earth Sciences》、《Environmental Monitoring and Assessment》、《Water Policy》、《Water Environmental Research》、《Environmental Engineering Science》、《Water Science and Technology》、《Ecological Modelling》、《農業工程學報》、《中國環境科學》、《環境科學研究》、《農業環境科學學報》、《應用力學學報》等本領域國內外重要期刊發表論文66篇，其中SCI論文43篇（第一作者35篇）。據Google Scholar查詢，發表的SCI論文共被引用450餘次；據Research Gate查詢，共被引用350餘次；據Web of Science核心合集查詢，共被引用266次，他引191次，以第一作者發表在Journal of Hydrology論文單篇他引55次。另外，以第一作者公開發明專利4件，授權實用新型5件。

在黑龍江教育（高教研究與評估）等期刊以第一作者發表了《以高素質工程人才培養為目標的“水力學”教學新模式研究》等主題的教改論文4篇。 ^[1] 

[1] Wu, L., Yao, W.W., Ma, X.Y. (2018). Using the comprehensive governance degree to calibrate a piecewise sediment delivery ratio algorithm for dynamic sediment predictions: A case study in an ecological restoration watershed of northwest China. Journal of Hydrology, 564, 888-899. (SCI)

[2] Wu, L., Su, X.L., Ma, X.Y., Kang, Y., Jiang, Y.N. (2018). Integrated modeling framework for evaluating and predicting the water resources carrying capacity in a continental river basin of Northwest China. Journal of Cleaner Production, completely accepted. (SCI)

[3] Wu, L., Qiao, S.S., Peng, M.L., Ma, X.Y. (2018). Assessing impacts of rainfall intensity and slope on dissolved and adsorbed nitrogen loss under bare loessial soil by simulated rainfalls. Catena, 170, 51-63. (SCI)

[4] Wu, L., Jiang, J., Li G.X., Ma, X.Y. (2018). Characteristics of pulsed runoff-erosion events under typical rainstorms in a small watershed on the Loess Plateau of China. Scientific Reports, 8:3672. (SCI)

[5] Wu, L., Qiao, S.S., Peng, L.L., Ma, X.Y. (2018). Coupling loss characteristics of runoff-sediment-adsorbed and dissolved nitrogen and phosphorus on bare loess slope. Environmental Science and Pollution Research, 25(14), 14018-14031. (SCI)

[6] Wu, L., Liu, X., Ma, X.Y. (2018). Prediction of land use change and its driving forces in an ecological restoration watershed of the loess hilly region. Environmental Earth Sciences, 77:238. (SCI)

[7] Wu, L., Tang, X.D., Ma, X.Y. (2018). Optimal allocation of nonpoint source pollution control measures using two modern comprehensive evaluation methods. Water Policy, 20: 811-825. (SCI)

[8] Wu, L., Peng M.L., Qiao S.S., Ma X.Y. (2018). Effects of rainfall intensity and slope gradient on runoff and sediment yield characteristics of bare loess soil. Environmental Science and Pollution Research, 25(4): 3480-3487. (SCI)

[9] Wu L., Liu, X., Ma, X.Y. (2018). Spatio-temporal temperature variations in the Chinese Yellow River basin from 1981 to 2013. Weather, 73(1): 27-33. (SCI)

[10] Wu, L., Chang, H.Y., Ma, X.Y. (2017). A modified method for pesticide transport and fate in subsurface environment of a winter wheat field of Yangling, China. Science of the Total Environment, 609: 385–395. (SCI)

[11] Wu, L., Qi, T., Zhang, J. (2017). Spatiotemporal variations of adsorbed nonpoint source nitrogen pollution in a highly erodible Loess plateau watershed. Polish Journal of Environmental Studies, 26(3): 1343-1352. (SCI)

[12] Wu, L., Liu, X., Ma, X.Y. (2016). Application of a modified distributed-dynamic erosion and sediment yield model in a typical watershed of a hilly and gully region, Chinese Loess Plateau. Solid Earth, 7(6): 1577-1590. (SCI)

[13] Wu, L., Liu, X., Ma, X.Y. (2016). Spatio-temporal variation of erosion-type non-point source pollution in a small watershed of hilly and gully region, Chinese Loess Plateau. Environmental Science and Pollution Research, 23: 10957-10967. (SCI)

[14] Wu, L., Liu, X., Ma, X.Y. (2016). Spatio-temporal evolutions of precipitation in the Yellow River basin of China from 1981 to 2013. Water Science & Technology: Water Supply, 16(5): 1441-1450. (SCI)

[15] Wu, L., Liu, X., Ma, X.Y. (2016). Spatiotemporal distribution of rainfall erosivity in the Yanhe River watershed of hilly and gully region, Chinese Loess Plateau. Environmental Earth Sciences, 75: 315. (SCI)

[16] Wu, L., Liu, X., Ma, X.Y. (2016). Pesticide exposure levels in an apple-orchard catchment of Changwu Tableland, Chinese Loess Plateau. Fresenius Environmental Bulletin, 25(12a): 5904-5917. (SCI)

[17] Wu, L., Liu, X., Ma, X.Y. (2016). Tracking Soil Erosion Changes in an Easily-Eroded Watershed of the Chinese Loess Plateau. Polish Journal of Environmental Studies, 25(1): 332-344. (SCI)

[18] Wu, L., Li, P.C., Ma, X.Y.(2016). Estimating nonpoint source pollution load using four modified export coefficient models in a large easily eroded watershed of the loess hilly-gully region, China. Environmental Earth Sciences, 75: 1056. (SCI) (SCI)

[19] Wu, L., Gao, J.E., Ma, X.Y., Li, D. (2015) Application of modified export coefficient method on the load estimation of non-point source nitrogen and phosphorus pollution of soil and water loss in semiarid regions. Environmental Science and Pollution Research, 22: 10647-10660. (SCI)

[20] Wu, L., Chang, H.Y., Ma, X.Y. (2015). Insecticide transport and fate in a small apple-orchard watershed of the hilly and gully region, Loess Plateau. Fresenius Environmental Bulletin, 24(8a): 2603-2614. (SCI)

[21] Wu, L., Qi, T., Li, D., Yang, H.J., Liu, G.Q., Ma, X.Y., Gao, J.E. (2015). Current status, problems and control strategies of water resources pollution in China. Water Policy, 17(3): 423-440. (SCI)

[22] Wu, L., Wang, J., Liu, X. (2015). Enhanced nitrogen removal under low-temperature and high-load conditions by optimization of the operating modes and control parameters in the CAST system for municipal wastewater. Desalination and Water Treatment, 53: 1683-1698. (SCI)

[23] Wu, L., Ma, X.Y., Liu, X. (2014) Assessment of herbicide transport and distribution in subsurface environments of an orange field. Water Environment Research, 86(8): 729-740. (SCI)

[24] Wu, L., Long, T.Y., Liu, X., Ma, X.Y. (2013). Modeling impacts of sediment delivery ratio and land management on adsorbed non-point source nitrogen and phosphorus load in a mountainous basin of the Three Gorges reservoir area, China. Environmental Earth Sciences, 70(3):1405-1422. (SCI)

[25] Wu, L., Long, T.Y., Liu, X., Guo, J.S. (2012). Impacts of climate and land-use changes on the migration of non-point source nitrogen and phosphorus during rainfall-runoff in the Jialing River Watershed, China. Journal of Hydrology, 475: 26-41. (SCI)

[26] Wu, L., Long, T.Y., Cooper, W.J. (2012). Simulation of temporal and spatial distribution on dissolved non-point source nitrogen and phosphorus load in Jialing River Watershed, China. Environmental Earth Sciences, 65(6), 1795-1806. (SCI)

[27] Wu, L., Long, T.Y., Liu, X., Mmereki, D. (2012). Simulation of soil loss processes based on rainfall runoff, and the time factor of governance in the Jialing River Watershed, China. Environmental Monitoring and Assessment, 184(6): 3731-3748. (SCI)

[28] Wu, L., Long, T.Y., Cooper, W.J. (2012). Temporal and spatial simulation of adsorbed nitrogen and phosphorus non-point source pollution load in Xiao Jiang Watershed of Three Gorges Reservoir Area, China. Environmental Engineering Science, 29(4):238-247. (SCI)

[29] Wu, L., Long, T.Y., Lu, X.P. (2012).Improvement of separation efficiency and production capacity of a hydrocyclone. Water Science and Technology: Water Supply, 12(3): 281-299. (SCI)

[30] Wu, L., Long, T.Y., Li, C.M. (2010). The simulation research of dissolved nitrogen and phosphorus non-point source pollution in Xiao-Jiang Watershed of Three Gorges Reservoir Area. Water Science and Technology, 61(6): 1601-1616. (SCI) ^[1]