2001.9 2006.1 清华大学 水利工程 博士 1991.9 1994.7 大连理工大学 海洋工程 硕士 1987.9 1991.7 大连理工大学 海洋工程 学士

2006.4 至今 大连理工大学 教师 1994.7 2001.9 大连房地产发展集团 结构设计

科研项目 [1] 国家自然科学基金面上项目（51879032）：“多因素耦合作用下土质库岸崩滑过程机制研究”，研究期限：2019.1-2022.12，课题负责人，在研 [2] 国家重点研发计划项目课题4（2016YFC0402504）：“黄河下游河道与滩区治理研究”，第6子题负责人，研究期限：2017.01-2020.12，在研. [3] 辽宁省高等学校优秀人才支持计划（LR2015015）：“试验侵蚀学”，2015.01-2018.12，课题负责人，已于2017年12月提前结题. [4]ᠦ୔

代表性论著 [1] Xu X, Zhu T, Zhang H, Gao L. 2020, Experimental Erosion: Theory and Practice of Soil Conservation Experiments, Springer Nature Switzerland AG & Science Press, p1-247. (ISBN for Springer: 978-981-15-3800-1; ISBN for Science Press: 978-7-03-064566-1; in English) [2] Gao H1, Xu X*1, Zhang H, Jiang Y, Zhao T. How effective is vegetation in reducing gravity erosion on loess gully sidewall under intense rainfalls? Land Degradation and Development, 2020, published online (DOI: 10.1002/ldr.3634). [3] Zhu T*, Xu X, Zhu A, Wang X. Assessment of soil shear strength in gully systems: A case-study in the Wangjiagou (WJG) watershed on the Loess Plateau of China, 2020, published online (DOI: 10.1002/ldr.3633). [4] Xu X*, Ma Y, Yang W, Zhang H, Tarolli P, Jiang Y, Yan Q. 2020, Qualifying mass failures on loess gully sidewalls using laboratory experimentation. Catena, 187: 104252 (12). (SCI) [5] Guo W, Xu X*, Zhu T, Zhang H, Wang W, Liu Y, Zhu M. 2020, Changes in particle size distribution of suspended sediment affected by gravity erosion: a field study on steep loess slopes, Journal of Soils and Sediments, 20: 1730-1741. (SCI) [6] Guo W, Xu X, Wang W, Zhu T, Liu Y. 2020, Experimental study of shallow mass movements on gully slopes and associated sediment under rainfall on the Chinese loess plateau, Geomorphology, 350: 106919 (9) . (SCI) [7] Guo W, Xu X, Wang W, Liu Y, Guo M, Cui Z. 2019, Rainfall-triggered mass movements on steep loess slopes and their entrainment and distribution, Catena, 183: 104-238. (SCI) [8] Abbasi NA1, Xu X*1, Lucas-Borja ME1, Dang W, Liu B. 2019, The use of check dams in watershed management projects: Examples from around the world, Science of the Total Environment, 676: 683-691. (SCI) [9] Zhu T, Xu X, Zhu A. 2019, Spatial variation in the frequency and magnitude of mass movement in a semiarid, complex‐terrain agricultural watershed on the Loess Plateau of China, Land Degradation and Development, 30: 1095-1106. (SCI) [10]Xu X-Z*, Song G-D, Dang T-M, Liu J-W, Zhang H-W, Gao H, Liu Y-K. 2018, Environment and sustainability of the Middle Route, South-to-North Water Transfer Project in China: a close look, Environment, Development and Sustainability, 20: 2415-2426. (SCI) [11]Xu X-Z*, Guo W-Z, Liu Y-K, Ma J-Z, Wang W-L, Zhang H-W, Gao H. 2017, Landslides on the Loess Plateau of China: a latest statistics together with a close look, Natural Hazards, 86: 1393-1403. (SCI) [12]Guo W-Z, Xu X-Z*, Wang W-L, Yang J-S, Liu Y-K, Xu F-L. 2016, A measurement system applicable for landslide experiments in the field. Review of Scientific Instruments, 87(4): (044501-1)-(044501-7). (SCI) [13]Xu X-Z*, Song GD, Liu J, Dang WQ, Gao H, Liu ZY, Zhang HW. 2015, Avalanche in Tuban: a hazard with no defense. Natural Hazards, 79(3): 2181-2187. (SCI) [14]Xu X-Z*, Liu Z-Y, Xiao P-Q, Guo W-Z, Zhang H-W, Zhao C, Yan Q. 2015, Gravity erosion on the steep loess slope: Behavior, trigger and sensitivity, Catena, 135: 231-239. (SCI) [15]Xu X-Z*, Liu Z-Y, Wang W-L, Zhang H-W, Yan Q, Zhao C, Guo W-Z. 2015, Which is more hazardous: avalanche, landslide, or mudslide?, Natural Hazards, 76(3): 1939-1945. (SCI) [16]Xu X-Z*, Zhang H-W, Wang W-L, Zhao C, Yan Q. 2015, Quantitative monitoring of gravity erosion using a novel 3D surface measuring technique: validation and case study, Natural Hazards, 75(2): 1927–1939. (SCI) [17]Xu XZ*, Li MJ, Liu B, Kuang SF, Xu SG. 2012, Quantifying the effects of conservation practices on soil, water, and nutrients in the Loess Mesa Ravine Region of the Loess Plateau, China. Environmental Management, 49(5): 1092-1102. (SCI) [18]Xu XZ*, Xu Y, Chen SC, Xu SG, Zhang HW. 2010, Soil loss and conservation in the black soil region of Northeast China: a retrospective study. Environmental Science and Policy, 13(8): 793-800. (SCI) [19]Xu XZ*, Zhang HW, Wang GQ, Chen SC, Dang WQ. 2009, An experimental method to verify soil conservation by check dam on the Loess Plateau, China. Environmental Monitoring and Assessment, 159: 293-309. (SCI) [20]Xu XZ*, Zhang HW, Wang GQ, Peng Y, Zhang OY. 2006, A laboratory study on relative stability of check dam on the Loess Plateau, China. Land Degradation & Development, 17: 629-644. (SCI) [21]Xu XZ*, Zhang HW, Zhang OY. 2004, Development of check-dam systems in gullies on the Loess Plateau, China. Environmental Science and Policy, 7(2): 79-86. (SCI, Times Cited: 150+)

获授权发明专利16项、另有2项国际PCT专利在审