WU Lei

　　 　　

INTRODUCTION TO Lei Wu

Lei Wu, Ph.D., Professor of Hydrology and Water Resources Engineering,

College of Water Resources and Architectural Engineering

Northwest A&F University, P.R.China.

23# Weihui Rd , Yangling, Shaanxi Province, 712100

0086-29-8709× ×××(office)

0086-15829252152 (Cell-phone)

lwu@nwsuaf.edu.cn

EDUCATION

2012 Ph.D. Urban Environment and Ecological Engineering, Chongqing University

2008 M.Sc. Municipal Engineering, Chongqing University

2006 B.Sc. Water Supply and Drainage Engineering, Henan University of Urban Construction

ACADEMIC POSITIONS

01/2020 – present Professor, Hydrology & Water Resources Engineering, Northwest A&F University

05/2019 – 10/2019 Visiting Scholar, Blackland Research & Extension Center, Texas A&M University, TX, USA

08/2017 – 08/2018 Visiting Scholar, University of California, Berkeley, CA, USA.

01/2015 – 12/2019 Associate Professor, Hydrology & Water Resources Engineering, Northwest A&F University

07/2012 – 12/2014 Lecturer, Hydrology and Water Resources Engineering, Northwest A&F University

09/2010 – 09/2011 Ph.D. joint education of China and USA, University of California, Irvine, CA, USA.

RESEARCH INTERESTS

Agricultural non-point source pollution, distributed hydrological modelling, soil erosion; pollutant migration and transformation dynamics, numerical modelling of water and sediment mass transfer; soil physical chemical microorganisms, nutrient loss on slope; scenario simulation, optimization of BMPs configuration, inversion modelling, uncertainty analysis; scale transformation, scale effect; low impact development (LID), water quality target management

HONORS AND AWARDS

2022 Best Researcher Award (2022) for the contribution and honourable achievement in innovative research. International Research Award on New Science Inventions; NESIN 2022; Ministry of Corporate Affairs (MCA), Govt. of India.

2020 The key technology and application of water and soil loss type non-point source pollution control won the second prize of science and technology award of China Society for soil and water conservation (China Society for soil and water conservation, ranked third).

2018 the "Village—town—small watershed" rural domestic sewage space-time source area identification and "biological—ecological" purification technology mode in Northwest China won the excellence award of the third China Innovation Challenge 2018 (Yan'an science and Technology Bureau, Yan'an high tech Zone Management Committee, Yan'an Municipal Committee of the Communist Youth League, ranked first).

May 2016, Shaanxi Provincial innovation talent promotion plan—"Shaanxi young science and technology star” (Science and Technology Department of Shaanxi Province)

December 2016, "Tang Scholar" of Northwest A&F University (Cyrus Tang Foundation)

RESEARCH PROJECTS

2021-2024 Multi-objective collaborative allocation of the Best Management Practices considering the upstream and downstream hydraulic connections—Taking Jinghe River Basin as an example, National Natural Science Foundation of China, ¥ 580,000 CNY, PI

2017-2020 Study on the coupling transport mechanism of water-sediment-adsorbed and dissolved non-point source pollutants at multi spatiotemporal scales of the loess hilly and gully region, National Natural Science Foundation of China, ¥ 620,000 CNY, PI

2014-2016 Study on simulation and regulation of adsorbed non-point source pollution processes in a small watershed on the Loess Plateau, National Natural Science Foundation of China for Young Scholar, ¥ 250,000 CNY, PI

2014-2016 Simulation of non-point source nitrogen and phosphorus loss patterns in a small watershed on the Loess Plateau, Special fund for doctoral program of the Ministry of education, 2014/01-2016/12, ¥ 40,000 CNY, PI

2017-2019 Optimization of spatial allocation of non-point source pollution control measures in Yanhe River Basin, Shaanxi Provincial innovation talent promotion plan—"Shaanxi young science and technology star”, ¥ 100,000 CNY, PI

2014-2016 Research on distributed model of adsorbed non-point source nitrogen and phosphorus pollution in a small watershed on the Loess Plateau, Open fund of the State Key Laboratory of soil erosion and dryland agriculture on the Loess Plateau, ¥ 50,000 CNY, PI

2016-2019 Benefit feasibility analysis of water resources collaborative allocation scheme, Sub task of national key R&D plan, ¥ 50,000 CNY, PI

SELECTED PUBLICATIONS

Wu, L., Liu, X., Chen, J.L., Li, J.F., Yu, Y., Ma, X.Y. (2022). Efficiency assessment of best management practices in sediment reduction by investigating cost-effective tradeoffs. Agricultural Water Management 265: 107546. (SCI)

Wu, L., Liu, X., Yu, Y., Ma, X.Y. (2022). Biochar, grass, and cross-ridge reshaped the surface runoff nitrogen under consecutive rainstorms in loessial sloping lands. Agricultural Water Management 261: 107354. (SCI)

Wu, L., Liu, X., Yang, H., Ma, X.Y. (2021). How agricultural management practices affect nitrogen transportation and redistribution under the drying-rewetting process of loessial sloping lands? Agriculture, Ecosystems and Environment, 315: 107440. (SCI)

Wu, L., Liu, X., Ma, X.Y. (2021). How biochar, horizontal ridge, and grass affect runoff phosphorus fractions and possible tradeoffs under consecutive rainstorms in loessial sloping land? Agricultural Water Management 256(3): 107121. (SCI)

Wu, L., Yen, H., Ma, X.Y. (2021). Effects of particulate fractions on critical slope and critical rainfall intensity for runoff phosphorus from bare loessial soil. Catena 196, 104935. (SCI)

Wu, L., Yen, H., Arnold, J.G., Ma, X.Y. (2020). Is the correlation between hydro-environmental variables consistent with their own time variability degrees in a large-scale loessial watershed? Science of the Total Environment 722, 137737. (SCI)

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)

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, 204, 366-379. (SCI)

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)

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)