职称

研究员

实验室职务

无

电话

13426213496

传真

电子邮件

weiwei@rcees.ac.cn

专业

景观规划-评价与区域生态保护修复、生态系统格局-过程-服务监测调查与综合评估

地址

北京市海淀区双清路18号（邮编100085）

简要介绍

生态学博士，教授，研究员，中国科学院大学博士生导师，云南大学和长安大学外聘研究生导师。长期从事景观规划评价与区域生态保护修复、生态系统格局-过程-服务监测调查与综合评估等相关基础与应用基础研究。自十五以来，主持各类国家重点研发计划课题、国家联合重点基金、面上项目、青年项目、重点基金课题、重大基金专题、科技支撑计划、生态环境部评估课题、各级地方政府、国企、央企和社会组织团体相关重要咨询与调查评估类项目近30项。发表论文140多篇（SCI论文70多篇），主（参）编专著6部，国家专利9项。获国家级林草科技创新领军人才、中国科学院青年创新促进会优秀会员、中国科学院杰出科技成就奖、全国青年地理科技奖、甘肃省科技进步二等奖、甘肃省林业科技进步一等奖、中国科学院地奥一等奖、中国生态学会全国优秀科技工作者等奖励。

学术任职：中国生物多样性保护与绿色发展基金会专家委员会委员、中国社会工作联合会生态文明工作委员会客座专家组成员、中国生态学会区域生态专委会副主任委员兼秘书长、生态水文学专业委员会委员；中国水土保持学会林草生态修复工程专业委员会常务委员；世界梯田联盟组织和全球土地计划成员；中国土壤学会土壤侵蚀与水土保持专业委员会委员、中国地理学会山地分会通讯委员、国际梯田景观联盟组织（ITLA）中方代表与大中国区联络人，国家自然科学基金委/北京市自然科学基金委项目函评专家。曾任祁连山国家公园和普达措国家公园现场核查暨评估验收专家组成员。《环境生态学》、《生态学杂志》、《LAND》等国内外期刊编委会学术委员。

学习经历

1997.09-2001.06：西北农林科技大学，农学学士

2001.09-2004.06：西北农林科技大学，理学硕士

2004.09-2007.06：中国科学院生态环境研究中心，理学博士

工作经历

2007.07-2011.03：中国科学院生态环境研究中心，城市与区域生态国家重点实验室，助理研究员

2011.03-2018.02：中国科学院生态环境研究中心城市与区域生态国家重点实验室，副研究员（期间2015.08-2016.08:美国Indiana University-Purdue University Indianapolis地球科学系，访问学者）

2018.02-至今： 中国科学院生态环境研究中心，研究员

研究方向

景观格局优化与区域生态评价、区域生态保护修复、景观管理与生态保育、生态系统格局-过程-服务综合调查与监测评估、土地利用与生态过程、植被恢复与水土流失-面源污染防控综合技术研发

承担课题

1. 十四五国家重点研发课题：“黄土缓坡丘陵区油松和柠条林水土保持及碳汇功能提升技术”（2022-2026）（批准号：2022YFF1300403），课题负责人，经费268万；
2. 国家自然科学基金联合重点项目：“甘肃黄土区梯田工程的水-碳-粮-能服务效应与耦合机制”（2022-2025）（批准号：U21A2011）,项目负责人，经费260万；
3. 国家自然科学基金重大项目专题：“干旱半干旱地区水循环变化对生态系统的影响机制”（2020-2024）（课题号：41991233），专题负责人，经费110万；
4. 十三五国家重点研发计划课题：“黄土宽梁缓坡丘陵区生态格局优化与特色粮草产业化技术及示范”（2016—2020），课题负责人，经费415万；
5. 国家面上基金项目：“黄土高原小流域植被恢复与坡改梯工程耦合的生态水文机理”（2020—2023）（批准号：40971129），项目负责人，经费61万；
6. 中国科学院青年创新促进会优秀会员人才专项（2019-2021），项目负责人，经费180万；
7. 部委重要委托项目：“基于特定风险防控的景观格局/土地利用优化方案研究”（2019-2020），专题负责人，经费100万；
8. 陕西省水土保持与移民工作中心科技项目：“典型县域水土保持项目生态效益评估”（2019-2020），课题负责人，经费150万；
9. 国家面上基金项目：“黄土丘陵区坡面尺度不同整地方式的生态水文效应”（2014—2017）（批准号：41371123），项目负责人，经费75万；
10. 国家重大基金专题：“黄土高原草灌生态系统与土壤水分的相互作用机理”（2014—2018），专题负责人，经费78万；
11. 国家十四五研发计划专题：退化防护植被成因分析与分类分级（2-24-2028），专题负责人，经费50万；
12. 国家重点基金课题：“城市景观格局演变的暴雨径流效应及面源污染防控”（2013—2017），课题负责人，经费50万；
13. 国家科技支撑专题：“区域植被生态系统可持续性评估与恢复技术试验示范”（2014—2018），专题负责人经费103万；
14. 国家生态十年评估重大课题：“环渤海沿海地区生态环境十年变化遥感调查与评估” （2011—2013），课题负责人，经费120万；
15. 中科院青促会会员项目：“黄土高原植被恢复工程的土壤水文效应”（2014—2018），项目负责人，经费50万；
16. 国家重点实验室项目：“黄土高原区域生态保护修复与格局优化的水土效应”（2014—2020），课题负责人，经费102万；
17. 国家青年基金项目：“黄土小流域水蚀过程对降雨和土地利用格局演变的响应机制”（2009—2011）（批准号：40801041），项目负责人，经费23万。

重要著作
与代表性成果

1. Wang, L, Wei, W*, Wang, L, Chen, S, Duan, W, Zhang, Q, Tong, B, Han Z, Li Z, Chen, L, 2025. Trigger thresholds and propagation mechanism of meteorological drought to agricultural drought in an inland river basin. Agricultural Water Management, 311, 109378.
2. Chen, L, Wei, W*, Tong, B, Chen, L, 2025. Ecosystem services and their drivers under different watershed-management patterns in the western Chinese Loess Plateau. Ecological Indicators, 172, 113321.
3. Shi, Y, Wei, W*, 2024. Changes in soil conservation service supply-demand coordinations and their influencing factors: Evidence from the Loess Plateau of China. Science of The Total Environment, 957, 177793.
4. Wang, L, Wei, W*, Sun, G, Fu, B, Chen, L, Feng, X, Philippe, C, Bhaskar, M, Wang, L, 2024. Effects of inter-basin transfers on watershed hydrology and vegetation greening in a large inland river basin. Journal of Hydrology, 635, 131234.
5. Chen, L, Wei, W*, Tong, B, Liu, Y, Liu, Z, Chen, S, Chen, D, 2024. Long-term terrace change and ecosystem service response in an inland mountain province of China. Catena, 234, 107586.
6. Zhu, Q, Tran, L, T, Wei, W*, 2024. Understanding synergistic ecosystem services in China’s Northeast Forest Belt: A blueprint for spatially targeted management. Ecological Indicators, 166, 112434.
7. Huang, Y, Wei, W*, Chen, S, Chen, L, 2024. Effects of terracing withPlatycladus orientalisplantations on water budget in the dryland of Loess Plateau in China. Ecological Engineering, 209, 107405.
8. Huang, Y, Wei, W*, Chen, S, 2024. Effect of Terraces and Rainfall on Water and Soil Loss inPinus tabulaeformisPlantations in the Semiarid Loess Hilly Region of China. Ecohydrology, 17(8), e2720.
9. Chen, S, Wei, W*, Huang, Y, 2024. Biophysical controls on canopy transpiration ofPinus tabulaeformisunder different soil moisture conditions in the Loess Plateau of China. Journal of Hydrology, 631, 130799.
10. Shi, Y, Wei, W*, 2024. Mapping long‐term terrace change in the Chinese Loess Plateau: A new approach by decision tree model with digital elevation model (DEM) and land use. Earth Surface Processes and Landforms, 49(4), 1316-1329.
11. Chen, S, Wei, W*, Tong, B, Chen, L, 2023. Effects of soil moisture and vapor pressure deficit on canopy transpiration for two coniferous forests in the Loess Plateau of China. Agricultural and Forest Meteorology, 339, 109581.
12. Liu ZM, Rong L, Wei W*, 2023. Impacts of land use/cover change on water balance by using the SWAT model in a typical loess hilly watershed of China. Geography and Sustainability. 4: 19–28. 
13. Wei W*, Pan DL, Feng J, 2022.Tradeoffs between soil conservation and soil-water retention: the role of vegetation pattern and density. Land Degradation & Development. 33：18-27. Doi:10.1002/ldr.4123
14. Wei W*, Pan DL, Yang Y, 2021. Effects of terracing measures on water retention of pinus Tabulaeformis forest in the dryland loess hilly region of China. Agricultural and Forest Meteorology.308-309,108544. 
15. Chen D, Wei W*, Chen LD,2021. Effects of terracing on soil properties in three key mountainous regions of China. Geography and Sustainability. 2:195-206.
16. Qi YL, Wei W*, Li JR, Chen CG, Huang YY, 2020. Effects of terracing on root distribution of Pinus tabulaeformis Carr. forest and soil properties in the Loess Plateau of China. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.137506
17. Feng J, Wei W*, Pan DL, 2020. Effects of rainfall and terracing-vegetation combinations on water erosion in a loess hilly area, China. Journal of Environmental Management.https://doi.org/10.1016/j.jenvman.2020.110247
18. Zhang QD, Wei W*, Chen LD, Yang L, Luo YQ , Cai AD, 2020. Plant traits in influencing soil moisture in semiarid grasslands of the Loess Plateau, China. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.137355
19. Chen D, Wei W*, Chen LD, 2020. How can terracing impact on soil moisture variation in China A meta-analysis. Agricultural Water Management 227, 105849.
20. Chen D, Wei W*, Stefani D, Paolo T, 2020. Does terracing enhance soil organic carbon sequestration A national-scale data analysis in China. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.137751
21. Liu W, Feng Q, Deo RC, Yao L,Wei W*, 2020. Experimental study on the rainfall-runoff responses of typical urban surfaces and two green infrastructures using scale-Based Models. Environmental Management 66:683–693.
22. Wei W, Feng XR, Yang L, Chen LD*, Feng TJ, Chen D, 2019. The effects of terracing and vegetation on soil moisture retention in a dry hilly catchment in China. Science of the Total Environment 647: 1323-1332.
23. Zhang QD, Wei W*,Chen LD, Yang L, 2019. The joint effects of precipitation gradient and afforestation on soil moisture across the Loess Plateau of China. forests 10(3), 285
24. Zhang QD,Wei W*,?Chen LD, Yang L, Chen HY, Luo YQ, 2019. Soil Water Availability Drives Changes in Community Traits along a Hydrothermal Gradient in Loess Plateau Grasslands. Rangeland Ecology and Management in press.
25. Feng TJ, Wei W*, Chen LD, Jesús R, Yang L, Yu Y, 2019. Combining land preparation and vegetation restoration for optimal soil eco-hydrological services in the Loess Plateau, China. Science of the Total Environment 657: 535-547.
26. Qi YL, Wei W*, Chen CG, Chen LD, 2019. Plant root-shoot biomass allocation over diverse biomes: A global synthesis. Global Ecology and Conservation 18: 1-14.
27. Yu Y, Wei W*, Chen LD, Feng TJ, Stefani D, 2019. Quantifying the effects of precipitation, vegetation, and land preparation techniques on runoff and soil erosion in a loess watershed of China. Science of the Total Environment 652: 755-764.
28. Feng TJ, Wei W*, Chen LD, Jesús R, Chen D, Feng XR, Ren KM, Eric C. B., Yu Y, 2018. Assessment of the impact of different vegetation patterns on soil erosion processes on semiarid loess slopes. Earth Surface Processes and Landforms. 43: 1860-1870. DOI: 10.1002/esp.4361
29. Feng TJ, Wei W*, Chen LD, S.D. Keesstra and Yu Y, 2017. Effects of land preparation and plantings of vegetation on soil moisture in a hilly loess catchment in China. Land Degradation & Development, DOI: 10.1002/ldr.2867
30. Chen D, Wei W*, Chen LD, 2017. Effects of terracing practices on water erosion control in China: A meta-analysis. Earth-Science Reviews, 173: 109-121.
31. Zhang HD, Wei W*, Chen LD, Wang LX, 2017. Effects of terracing on soil water and canopy transpiration of Pinus tabulaeformis in the Loess Plateau of China. Ecological Engineering, 102: 557-564.
32. Zhang HD, Wei W*, Chen LD, Yang L, 2017. Evaluating canopy transpiration and water use of two typical planted tree species in the dryland Loess Plateau of China. Ecohydrology, 10: 1-10.
33. Yu Y, Wei W*, Chen LD, Feng TJ, Stefani D, Wang LX, 2017. Land preparation and vegetation type jointly determine soil conditions after long-term land stabilization measures in a typical hilly catchment, Loess Plateau of China.Journal of soils and sediments, 17: 144-156.
34. Yao L, Chen LD, Wei W*, 2017. Exploring the Linkage between Urban Flood Risk and Spatial Patterns in Small Urbanized Catchments of Beijing, China. International Journal of ER& PH, 14:239-255.
35. Wei W, Chen D, Wang LX, Stefani D, Chen LD*, Yu Y, Lu YL, Sun G, Feng TJ, 2016. Global synthesis of the classifications, distributions, benefits and issues of terracing. Earth-Science Reviews, 159: 388-403.
36. Yao L, Wei W, Chen LD*, 2016. How does imperviousness impact the urban rainfall-runoff process under various storm cases? Ecological Indicators, 60: 893–905.
37. Wang DC, Chen WG, Wei W*, Broxton W. B, Zhang LH, Sang MQ, and Wang QQ, 2016. Research on the Relationship between Urban Development Intensity and Eco-Environmental Stresses in Bohai Rim Coastal Area, China. Sustainability 2016, 8(4), 406; doi:10.3390/su8040406.
38. Wei W, Yu Y, Chen LD*, 2015. Response of surface soil hydrology to the micro-pattern of bio-crust in a dryland loess environment, China. Plos One, 1-17.
39. Wei W*, Chen LD, Zhang HD,Chen J, 2015. Effect of rainfall variation and landscape change on runoff and sediment yield from a loess hilly catchment in China. Environmental Earth Sciences, 73:1005-1016.
40. Yao L, Chen LD, Wei W*, 2015. Potential reduction in urban runoff by green spaces in Beijing: a scenario analysis. Urban Forestry & Urban Greening, 14: 300-308.
41. Yao L, Chen LD, Wei W*, 2015. Assessing the effectiveness of imperviousness on storm-water runoff in micro urban catchments by model simulation. Hydrological Processes, 30: 1836-1848.
42. Yu Y, Wei W*, Chen LD, Jia FY, Yang L, Zhang HD, and Feng TJ, 2015. Responses of vertical soil moisture to rainfall pulses and land uses in a typical loess hilly area, China. Solid Earth, 6: 595-608.
43. Yang L, Chen LD*, Wei W, 2015. Effects of vegetation restoration on the spatial distribution of soil moisture at the hillslope scale in semi-arid regions. Catena, 124: 138-146.
44. Wei W, Jia FY, Yang L, Chen LD*, Zhang HD, Yu Y, 2014. Effects of surficial condition and rainfall intensity on runoff in a loess hilly area, China. Journal of Hydrology, 513: 115-126.
45. Wei W*, Chen LD, Zhang HD, Yang L, Yu Yang, Chen J, 2014, Effects of crop rotation and rainfall on water erosion on a gentle slope in the hilly loess area, China. Catena, 123: 205-214.
46. Yang L, Chen LD, Wei W*, Yu Y, Zhang HD, 2014. Comparison of deep soil moisture in two re-vegetation watersheds in semi-arid regions. Journal of Hydrology, 513: 314-321.
47. Yang Lei, Wei W, Chen LD*, Chen WL, Wang JL, 2014. Response of temporal variation of soil moisture to vegetation restoration in semi-arid Loess Plateau, China. Catena 115: 123–133.
48. Wei W*, Chen LD, Yang L,Samadani F, Sun G, 2012. Microtopography recreation benefits ecosystem restoration. Environmental Science and Technology 46, 10875？10876.
49. Wei W, Chen LD*, Yang L, Fu BJ, Sun RH, 2012. Spatial scale effects of water erosion dynamics: Complexities, variabilities, and uncertainties. Chinese Geographical Science 22 (2): 127-143.
50. Yang L, Wei W*, Chen LD, Jia FY, Mo BR, 2012. Spatial variations of shallow and deep soil moisture in the semiarid Loess Plateau, China. Hydrology and Earth System Sciences 16: 3199-3217.
51. Yang L, Wei W*, Chen LD, Mo BR, 2012. Response of deep soil moisture to land use and afforestation in the semi-arid Loess Plateau,China. Journal of Hydrology 475:111-122.
52. Wei W, Chen LD*, Fu BJ, Chen J, 2010. Water erosion response to rainfall and land use in different drought-level years in a loess hilly area of China. Catena, 81: 24-31.
53. Wei W, Chen LD*, Fu B, Lu YH, Gong J, 2009. Responses of water erosion to rainfall extremes and vegetation types in a loess semiarid hilly area, NW China. Hydrological Processes, 23: 1780-1791.
54. Wei W, Chen LD*, Fu BJ, 2009. Effects of rainfall change on water erosion processes in terrestrial ecosystems: a review. Progress in Physical Geography, 33 (3): 307-318.
55. Wei W, Chen LD*, Fu BJ, Huang ZL, Wu DP, Gui LD, 2007. The effect of land uses and rainfall regimes on runoff and soil erosion in the semi-arid loess hilly area, China. Journal of Hydrology, 335: 247-258．
56. Chen LD, Wei W, Fu BJ*, Lü YH, 2007. Soil and water conservation on the Loess Plateau in China: Review and Prospective. Progress in Physical Geography,31 (4): 389-403．
57. Chen LD*, Yang Lei, Wei Wei, Wang ZT, Mo BR, Cai GJ, 2013. Towards Sustainable Integrated Watershed Ecosystem Management: A Case Study in Dingxi on the Loess Plateau, China. Environmental Management,51:126-137.
58. Lü YH, Fu BJ*, Wei W, Yu XB, Sun RH, 2011. Major ecosystems in China. Dynamics and challenges for sustainable development. Environmental Management 48:13-27.
59. Chen LD*, Wang JP, Wei W, Fu BJ, Wu DP, 2009. Effects of landscape restoration on soil water storage and water use in the Loess Plateau Region, China. Forest Ecology and Management 259(7): 1291-1298.
60. Li ZX,YuanRF,Feng Q,Zhang BJ,Lv YM,Li YG,Wei W,et al., 2019. Climate background, relative rate, and runoff effect of multiphase water transformation in Qilian Mountains, the third pole region. Science of The Total Environment 663:315-328.
61. Cao B, Yu L, Naipal V, Ciais P, Li W, Zhao Y, Wei W, Chen D, Liu Z, and Gong P, 2021. A 30m terrace mapping in China using Landsat 8 imagery and digital elevation model based on the Google Earth Engine. Earth Syst. Sci. Data, 13, 2437–2456.
62. Liu W, Feng Q, Chen WP, Wei W, Si JH, XiHY, 2019. Runoff retention assessment for extensive green roofs and prioritization of structural factors at runoff plot scale using the Taguchi method. Ecological Engineering 138:281-288.
63. Liu W, Wei W, Chen WP,Deo RC, Si JH,Xia HY, Li BF, Feng Q, 2019. The impact of substrate and vegetation on stormwater runoff quality from extensive green roofs. Journal of Hydrology 576: 575-582.
64. Liu W, Feng Q, Chen WP, Wei W, Deo RC, 2019. The influence of structural factors on stormwater runoff retention of extensive green roofs: new evidence from scale-based models and real experiments. Journal of Hydrology 569: 230-238.
65. Lü YH, Fu BJ*, Chen LD, Liu GH, Wei W, 2007. Nutrient transport associated with water erosion: progress and prospect. Progress in Physical Geography, 31(6): 607-620.
66. 卫伟等著.环渤海沿海地区生态环境评估.北京:科学出版社,2017.01.
67. 卫伟等著.黄土高原生态修复的水土效应.北京:科学出版社,2020.11.
68. 黄玥,卫伟*,陈胜楠,2024.黄土高原侧柏和柠条树干液流日变化及其对环境因子的响应.生态环境学报,33(3),389.
69. 陈乐,卫伟*,2024.多源土地利用产品在黄土丘陵沟壑区的精度评估.水土保持学报,38(3),177-186.
70. 廖洪圣,卫伟*,石宇,2024.黄土丘陵区典型流域土壤侵蚀时空演变特征及其驱动机制:以祖厉河为例.生态环境学报,33(6),908.
71. 王琳,卫伟*,2023.黄土高原典型县域生态系统服务变化特征及驱动因素.生态环境学报,32(6),1140.
72. 杨永，黄玥，卫伟*，2021.西北旱区典型灌草叶片性状沿气候梯度的变化.生态学杂志12:3769-3777.  
73. 王琳，卫伟*，2022.中国旱区水循环变化特征及其对植被净初级生产力的影响.生态学杂志4：703-713.
74. 黄玥，卫伟*，2022.2000—2019年黄土高原NDVI时空变化特征及其归因分析.环境生态学5：32-38.
75. 陈乐，卫伟*，2022.西北旱区典型流域土地利用与生境质量的时空演变特征.生态环境学报9:1909-1918.
76. 杨翠霞，卫伟*，刘彬，2022.我国梯田农业生态系统文化服务研究热点与趋势.农业资源与环境学报5:869-877.
77. 卫伟*，陈蝶，角媛梅，2021.加强梯田景观综合研究,促进山地系统可持续发展.生态学报8：3325-3329.
78. 赵炯昌，卫伟*，段兴武, 2021.模拟降雨下黄土坡面水沙过程对3种灌草植被垂直结构变化的响应.生态学报21:8602-8611.
79. 赵炯昌， 卫伟* 等，2021.植被格局对土壤入渗和水沙过程影响的模拟试验研究.生态学报4: 1373-1380.
80. 冯憬，卫伟*，冯青郁，2021.黄土丘陵区SCS-CN模型径流曲线数的计算与校正.生态学报10:4170-4181.
81. 丽达，卫伟*，杨翠霞,2020.梯田生态系统文化服务的内涵与特征研究.环境生态学84(9): 55-60.
82. 卫伟*，吕一河，2020.发展区域生态学理论与方法,服务美丽中国生态文明建设.生态学报24:9260-9263.
83. 任柯蒙，卫伟*等，2018.黄土丘陵区坡面植被盖度及其配置格局的水蚀效应模拟.生态学报22：8031-8039.
84. 张钦弟，卫伟*等，2018.黄土高原草地土壤水分和物种多样性沿降水梯度的分布格局自然资源学报8：1351-1362.
85. 任柯蒙，卫伟*等，2018.基于水蚀预报模型的黄土高原水平阶减流阻蚀效应模拟.生态学报38(14): 5067-5077.
86. 陈蝶，卫伟*等，2017. 梯田景观的历史分布及典型国际案例分析. 应用生态学报,  28 (2) :689-698.
87. 冯天骄，卫伟*等，2017.黄土丘陵区小流域不同整地措施长期影响下的土壤水力学特性.环境科学38(9):3860-3870.
88. 冯天骄，卫伟*，等，2016.陇中黄土区坡面整地和植被类型对土壤化学性状的影响.生态学报36(11):3216-3225.
89. 胡春艳，卫伟*等，2016. 甘肃省植被覆盖变化对退耕还林工程的响应.生态与农村环境学报. 32(4):588-594
90. 于洋，卫伟*，等，2016. 黄土丘陵区坡面整地和植被耦合的土壤水分特征.生态学报. 36（11）:3441-3449.
91. 陈蝶，卫伟*，等，2016. 梯田生态系统服务与管理研究进展. 山地学报. 3: 374-384
92. 刘慧娟，卫伟*，等，2015.城市典型下垫面产流过程模拟实验.资源科学 37：2219-2227.
93. 姚磊， 卫伟等，2015.  基于GIS和RS技术的北京市功能区产流风险分析.地理学报2: 308-318.
94. 陈蝶，卫伟*，2015. 植物篱的生态效益研究进展.应用生态学报. 27(2): 652-662.
95. 于洋，卫伟*，等，2015. 黄土高原年均降水量空间插值及其方法比较. 应用生态学报，26:999-1006.
96. 张涵丹，卫伟*，等，2015.基于RS分析和Mann-Kendall检验的定西市气温降水变化特征分析. 水土保持研究.
97. 张涵丹，卫伟*，等，2015. 典型黄土区油松树干液流变化特征分析.环境科学，36(1). 349-355.
98. 余韵，卫伟*，等，2014. 黄土丘陵区不同土地利用类型下生物土壤结皮的入渗效应. 环境科学研究，27：1-7.
99. 卫伟等，2013.微地形改造的生态环境效应研究进展.生态学报 33:6462-6469.
100. 李海防, 卫伟*，等, 2013. 定西关川河流域“退耕还林还草”对景观格局演变的影响.干旱区研究. 31:410-415.
101. 李海防, 卫伟*，等，2013. 定西关川河流域1995～2010年降雨特性及其水土流失效应. 水土保持通报. 6:84-87.
102. 李海防，卫伟*，等，2013. 基于“源”“汇”景观指数的定西关川河流域土壤水蚀研究, 生态学报 33: 4460-4467.
103. 卫伟等，2012.黄土小流域水沙输移过程对土地利用/覆被变化的响应.生态环境学报 21: 1398-1402.
104. 卫伟等，2012. 黄土丘陵区坡面水蚀对降雨和下垫面微观格局的响应.环境科学 33：2674-2679.
105. 卫伟等，2012. 半干旱黄土丘陵区土壤结皮的地表水文效应.环境科学 33: 3901-3904.
106. 杨磊, 卫伟*，等，2012. 黄土丘陵沟壑区深层土壤水分空间变异及其影响因子研究. 农村与生态环境学报, 28(3).
107. 杨磊，卫伟*，等，2011.半干旱黄土丘陵区人工植被深层土壤干化效应.地理研究 31: 71-81.
108. 杨磊，卫伟*，等，2011.半干旱黄土丘陵区不同人工植被恢复土壤水分的相对亏缺.生态学报 31: 3060-3068.
109. 王移，卫伟*，等，2011.黄土丘陵沟壑区典型植物耐旱生理及抗旱性评价.生态与农村环境学报，27：56-61.
110. 卫伟，2011.水土资源保持的科学与政策：全球视野及其应用.生态学报 31：4485-4488.
111. 卫伟等，2011.全球变化下的国际水文学研究进展：进展与启示.生态学报 31：2953-2955.
112. 王移，卫伟*，等，2010. 我国土壤动物与土壤环境要素相互关系研究进展. 应用生态学报 21 (9): 2443-2450. 
113. 卫伟等，2007.黄土丘陵区极端降雨事件及其径流泥沙效应.干旱区地理30: 896-901.
114. 卫伟等，2007.黄土丘陵沟壑区前期降雨指数构建及其径流效应研究.水土保持研究14(4)：368-371.
115. 卫伟等，2006. 半干旱黄土丘陵沟壑区降雨特征值和下垫面因子影响下的水土流失规律.生态学报26(11): 3817-3853.
116. 卫伟等, 2006.黄土丘陵区不同降雨格局下的水土流失效应. 水土保持通报 6: 19-23.