首页 > 师资队伍 > 专任教师
李小雁教授、国家杰出青年科学基金获得者、中国科学院博士、博导;自然地理学,生态水文学、水文土壤学、水文与水土资源

资源学院院长,教授、博士生导师

地表过程与资源生态国家重点实验室副主任

北京师范大学水文土壤学校级重点实验室主任

地理科学学部学术委员会副主任

专业方向:生态水文学、水文土壤学、水文水资源

 地址:北京市海淀区新街口外大街19号

 电话:0086-10-58802716     

 邮箱:xyli@bnu.edu.cn

  • 任职经历
  • 科学研究
  • 学术论文
  • 著作
  • 专利著作权
  • 咨询报告
  • 调研和考察
  • 奖励荣誉
  • 讲授课程
  • 研究生培养
  • 其他


教育经历
    1990-1994年,甘肃农业大学,土壤农化专业,获学士学位。
    1994-1997年,中国科学院兰州沙漠研究所,自然地理学专业,获硕士学位。
    1997-2000年,中国科学院寒区旱区环境与工程研究所,自然地理学专业,获博士学位。

工作经历
    2000-2002年,中国科学院寒区旱区环境与工程研究所,水文与水土资源室,副研究员。
    2002-2004年,中国科学院寒区旱区环境与工程研究所,水文与水土资源室,研究员。
    2003-2004年,西班牙高等科研理事会(Consejo Superior de Investigacion Cientificas)阿尔梅利亚干旱区试验 研究所博士后研究。
    2004年-今,北京师范大学资源学院,教授。

社会服务
    国际土壤联合会水文土壤学工作组执行委员

    Vadose Zone Journal 副主编
    欧洲地学联盟(EGU)会员
    国际Society of Wetland Scientists会员
    美国American Geophysical Union (AGU)会员
    中国自然资源学会干旱半干旱区资源研究专业委员会委员
    中国地理学会会员
    中国土地学会会员
    中国生态学会生态水文专业委员会副主任委员
    Sciences in Cold and Arid Regions期刊编委
    国际期刊 Journal of Hydrology, Agriculture, Ecosystems and Environment, Catena, Journal of Arid Environments, Ecohydrology, Hydrological Sciences Journal, Rangeland Ecology & Management, Journal of Soil and Water Conservation, Journal of Hydrologic Engineering, Water Resources Management, Earth Surface Process and Landform, Soil & Tillage Research, Agricultural Water Management, Applied Engineering in Agriculture, Irrigation and Drainage, Journal of Agronomy and Crop Science, Journal of Environmental Management论文评审专家。

1. 研究领域
   生态水文学、水文土壤学、水文与水资源、

2. 感兴趣的方向
    (1)水文土壤学:水文土壤学(Hydropedology)是一门新兴的交叉学科,综合了土壤学、水文学、地形学和其他相关的生物和地球科学,全面研究土壤 - 水分之间的交互作用和地形 - 土壤 - 水文之间的时间 - 空间关系。水文土壤学以理解和解释不同生态系统中水文过程、特性的土壤控制和土壤形成、变化、功能的水文影响为目标(http://hydropedology.psu.edu/hydropedology.html)。
    (2)生态水文学:生态水文学(Ecohydrology)重点研究陆地表层系统生态格局与生态过程变化的水文学机理,揭示陆生环境和水生环境植物与水的相互作用关系,回答与水循环过程相关的生态环境变化的成因与调控。
    (3)半干旱区土壤水文与植被响应机理:研究半干旱区土壤与植被的相互作用机理及其生态水文效应。
    (4)边际水资源开发与利用:雨水、绿水、凝结水、虚拟水开发利用。

3.负责的科研项目

    (1)2015-2018  国家自然科学基金重大研究计划集成项目(项目批准号:91425301),黑河流域生态系统结构特征与过程集成及生态情景研究.

    (2)2014-2018  国家自然科学基金重大项目课题(项目批准号:41390462),黄土高原草灌生态系统对土壤水变化的响应机制.

    (3)2012-2015  教育部创新团队项目,土壤水文与土壤侵蚀.
    (4)2012-2016  国家自然科学基金重点项目(41130640),青海湖流域生态水文过程与水分收支研究.
    (5)2011-2014  国家杰出青年科学基金,半干旱区土壤水文过程与植被响应.
    (6)2009-2011  国家自然科学基金,植被斑块格局的集水机理及其对土壤水分的影响.
    (7)2008-2012  国家“十一五”科技支撑计划课题,青海湖流域湿地恢复与生物多样性保护技术集成与试验示范. 
    (8)2009-2011  地表过程与资源生态国家重点实验室课题,干旱沙区土壤-植被-水文相互作用机理研究.
    (9)2007-2008  北京市优秀人才培养资助个人项目,北京市虚拟水战略研究.
    (10)2006-2008  国家自然基金面上项目,荒漠灌木树干茎流的集水机理与生态水文效应.
    (11)2005-2008  全国优秀博士学位论文作者专项资金半干旱区雨水集流系统主要水文过程与水循环调节机理.
    (12)2004-2009  国家973项目"我国大陆季风-干旱环境系统发展过程的科学钻探研究”第七课题“近代和现代环境过程与环境替代性指标的量化研究”(项目编号2004CB720207).
    (13)2002-2004  国家自然科学青年基金微型集水区集雨系统及其水文生态效应研究.
    (14)2002-2004  中科院“西部之光”项目,荒山集雨绿化优化组合模式试验示范.
    (15)2002-2004  国家863计划项目“智能化农业信息处理系统甘肃示范区”课题“半干旱区集雨节水高效农业专家系统”.

  1. Bai Yan, Li Xiaoyan, Liu Shaomin, Wang Pei, 2017. Modelling diurnal and seasonal hysteresis phenomena of canopy conductance in an oasis forest ecosystem. Agricultural and Forest Meteorology 246, 98–110.
  2. Zhang Cicheng, Li Xiaoyan, Wu Huawu, Wang Pei, Wang Yang, Wu Xiucheng 2017.  Differences in water-use strategies along an aridity gradient between two coexisting desert shrubs (Reaumuria soongorica and Nitraria sphaerocarpa): isotopic approaches with physiological evidence. Plant Soil DOI 10.1007/s11104-017-3332-8.
  3. Ma Yu-jun, Li Xiao-yan, Guo Li, Henry Lin, 2017. Hydropedology: Interactions between pedologic and hydrologic processes across spatiotemporal scales. Earth-Science Reviews 171, 181–195.
  4. Wu, X., Liu H.Y., Li X.Y. et al., 2017. Higher temperature variability reduces temperature sensitivity of vegetation growth in Northern Hemisphere, Geophys. Res. Lett., 44, doi:10.1002/2017GL073285.
  5. Jiang Zhi-Yun, Li Xiao-Yan*, Wu Hua-Wu, Zhang Si-Yi, Zhao Guo-Qin, Wei Jun-Qi. 2017. Linking spatial distributions of the grass Achnatherum splendens with soil water and salinity dynamics using electromagnetic induction. Catena, 149(1): 261-272.
  6. Maxwell C. Wilson,*, Xiao-Yan Li, Yu-Jun Ma, Andrew T. Smith, Jianguo Wu, 2017. A Review of the Economic, Social, and Environmental Impacts of China’s South–North Water Transfer Project: A Sustainability Perspective. Sustainability, 9, 1489; doi:10.3390/su9081489.
  7. Hu Xia, Li Zong-Chao, Li Xiao-Yan, Liu Yong, Sun Zhen-Ting, Liu Lian-you, Lv Yan-Li. 2017. Soil Macropore Structure under Different Land Uses Characterized by X-ray Computed Tomography in the Qinghai Lake Watershed, NE Qinghai-Tibet Plateau. Pedosphere, DOI: 10.1016/S1002-0160(17)60334-5.
  8. Zhang Yu, Li Xiao-Yan*, Li Wei, Wu Xiu-Chen, Shi Fang-Zhong, Fang Wei-Wei, Pei Ting-Ting. 2017. Modeling rainfall interception loss by two xerophytic shrubs in the Loess Plateau. Hydrological Processes, http://doi.org/10.1002/hyp.11157.
  9. Zhang Si-Yi, Li Xiao-Yan*. 2017. Soil moisture and temperature dynamics in typical alpine ecosystems: a continuous multi-depth measurements-based analysis from the Qinghai-Tibet Plateau, China. Hydrology Research, nh2017215.
  10. Wu Hua-Wu, Li Xiao-Yan*, He Bin, Li Jing, Xiao Xiong, Liu Lei, Liu Jin-Zhao. 2017. Characterizing the Qinghai Lake watershed using oxygen-18 and deuterium stable isotopes. Journal of Great Lakes Research, 43: 33-42.
  11. Li Wei, Yu Teng-Fei, Li Xiao-Yan*, Zhao Chun-Yan. 2016. Sap flow characteristics and their response to environmental variables in a desert riparian forest along lower Heihe River Basin, Northwest China. Environmental Monitoring and Assessment, 188: 561-574.
  12. Ma Yu-Jun, Li Xiao-Yan, Wilson Maxwell, Wu Xiu-Chen, Smith Andrew, Wu Jian-Guo. 2016. Water loss by evaporation from China’s South-North Water Transfer Project. Ecological Engineering, 95: 206-215.
  13. Huang Yong-Mei, Yu Xiao-Na, Li En-Gui, Chen Hui-Ying, Li Liu, Wu Xiu-Chen, Li Xiao-Yan. 2017. A process-based water balance model for semi-arid ecosystems: A case study of psammophytic ecosystems in Mu Us Sandland, Inner Mongolia, China. Ecological Modelling, 353: 77-85.
  14. Yu Xiao-Na, Huang Yong-Mei, Li En-Gui, Li Xiao-Yan, Guo Wei-Hua. 2017. Effects of vegetation types on soil water dynamics during vegetation restoration in the Mu Us Sandy Land, northwestern China. Journal of Arid Land, 9(2): 188-199.
  15. Cui Bu-Li, Xiao Bei, Li Xiao-Yan, Wang Qing, Zhang Zhen-Hua, Zhan Chao, Li Xiao-Dong. 2017. Exploring the geomorphological processes of Qinghai Lake and surrounding lakes in the northeastern Tibetan Plateau, using Multitemporal Landsat Imagery (1973-2015). Global and Planetary Change, 152: 167-175.
  16. Li Xiao-Yan*, Ma Yu-Jun, Huang Yong-Mei, Hu Xia, Wu Xiu-Chen, Wang Pei, Li Guang-Yong, Zhang Si-Yi, Wu Hua-Wu, Jiang Zhi-Yun, Cui Bu-Li, Liu Lei. 2016. Evaporation and surface energy budget over the largest high-altitude saline lake on the Qinghai-Tibet Plateau. Journal of Geophysical Research: Atmosphere, 121: 10470-10485.
  17. Li Xiao-Yan, Yang Da-Wen, Zheng Chun-Miao, Li Xin-Rong, Zhao Wen-Zhi, Huang Ming-Bin, Chen Ya-Ning, Yu Peng-Tao. 2016. Ecohydrology. The Geographical Sciences During 1986-2015. Springer Gepgraphy, DOI 10.1007/978-981-10-1884-8_18.
  18. Pei Ting-Ting, Xu Xiu-Chen, Li Xiao-Yan, Zhang Yu, Shi Fang-Zhong, Ma Yu-Jun, Wang Pei, Zhang Ci-Cheng. 2016. Seasonal divergence in the sensitivity of evapotranspiration to climate and vegetation growth in the Yellow River Basin, China. Journal of Geophysical Research, Biogeosciences. 122, doi:10.1002/2016JG003648.
  19. Canton Yolanda, Rodriguez-Caballero Emilio, Contreras Sergio, Villagarcia Luis, Li Xiao-Yan, Sole-Benet Alberto, Domingo Francisco. 2016. Vertical and lateral soil moisture patterns on a Mediterranean karst hillslope. Journal of Hydrology and Hydromechanics, 64(3): 209-217.
  20. Jiang Zhi-Yun, Li Xiao-Yan*, Wu Hua-Wu, Xiao Xiong, Chen Hui-Ying, Wei Jun-Qi, 2016. Using electromagnetic induction method to reveal dynamics of soil water and salt during continual rainfall events. Biosystems Engineering, 152:3-13.  SCI和EI
  21. Li Zhou, Quan Jin Li Xiao-Yan*, Wu Xiu-Chen, Wu Hua-Wu, Li Yue-Tan, Li Guang-Yong. 2016. Establishing a model of conjunctive regulation of surface water and groundwater in the arid regions. Agricultural Water Management, 174: 30-38. SCI和EI
  22. Wang Pei, Li Xiao-Yan Li, Huang Yongmei, Liu Shaomin, Xu Ziwei, Wu Xiuchen, Ma Yu-Jun, 2016. Numerical modeling the isotopic composition of evapotranspiration in an arid artificial oasis cropland ecosystem with high-frequency water vapor isotope measurement, Agricultural and Forest Meteorology, 230-231: 79-88.  SCI
  23. Wu Huawu, Li Xiao-Yan*, Li Jing, Jiang Zhiyun, Chen Huiying, Ma Yujun, Huang Yongmei. 2016. Differential soil moisture pulse uptake by coexisting plants in an alpine Achnatherum splendens grassland community. Environ Earth Sci 75:914 DOI 10.1007/s12665-016-5694-2.
  24. Li Zhou, Liu Dong, Li Xiao-Yan, Wu Huawu, Li Guang-Yong, Li Yue-Tan, 2016. Runoff coefficient characteristics and its dominant influencing factors in a riparian grassland in the Qinghai Lake watershed, NE Qinghai-Tibet Plateau. Arab J Geosci 9:397 DOI 10.1007/s12517-016-2404-z.
  25. Cui Buli, Li Xiao-Yan, Wei Xing-Hua. 2016. Isotope and hydrochemistry reveal evolutionary processes of lake water in Qinghai Lake. Journal of Great Lakes Research 42, 580-587.
  26. Li Liu, Li Xiao-Yan*, Zhang Si-Yi, Jiang Zhi-Yun, Zheng Xiao-Ran, Hu Xia, Huang Yong-Mei, 2016. Stemflow and its controlling factors in the subshrub Artemisia ordosica during two contrasting growth stages in the Mu Us sandy land of northern China. Hydrology Research doi: 10.2166/nh.2015.253.
  27. Cui Bu-Li, Li Xiao-Yan. 2016. The impact of climate changes on water level of Qinghai Lake in China over the past 50 years. Hydrology Research doi: 10.2166/nh.2015.237.
  28. Fan Ying, Li Xiaoyan*, Wu Xiuchen, Li Liu, Li Wei, Huang Yongmei. 2016. Divergent responses of vegetation aboveground net primary productivity to rainfall pulses in the Inner Mongolian Plateau, China. Journal of Arid Environments 129, 1-8.
  29. Zhang Si-Yi, Li Xiao-Yan*, Zhao Guo-Qin, Huang Yong-Mei. 2016. Surface energy fluxes and controls of evapotranspiration in three alpine ecosystems of Qinghai Lake watershed, NE Qinghai-Tibet Plateau. Ecohydrol. 9, 267–279.
  30. Wu Xiuchen, Liu Hongyan, Li Xiaoyan, Liang Eryuan, Beck Pieter S.A.,Huang Yongmei. 2016. Seasonal divergence in the interannual responses of Northern Hemisphere vegetation activity to variations in diurnal climate. Scientific Reports | 6:19000 | DOI: 10.1038/srep19000.
  31. Hu Xia, Li Zong-Chao, Li Xiao-Yan, Liu Lian-you. 2016. Quantification of soil macropores under alpine vegetation using computed tomography in the Qinghai Lake Watershed, NEQinghai–Tibet Plateau. Geoderma 264, 244–251.
  32. Wu Huawu, Li Xiao-Yan*, Jiang Zhiyunb, Chen Huiying, Zhang Cicheng, Xiao Xiong. 2016. Contrasting water use pattern of introduced and native plants in an alpine desert ecosystem, Northeast Qinghai–Tibet Plateau, China. Science of the Total Environment 542, 182–191.
  33. Wang Pei, Yamanaka Tsutomu, Li Xiao-Yan, Wei Zhongwang, 2015. Partitioning evapotranspiration in a temperate grassland ecosystem: Numerical modeling with isotopic tracers, Agricultural and Forest Meteorology, Volume 208,Pages 16-31, ISSN 0168-1923, http://dx.doi.org/10.1016/j.agrformet.2015.04.006.
  34. Wu Huawu, Li Xiaoyan*, Li Jing, Jiang Zhiyun, Li Guangyong, Liu Lei. 2015. Evaporative enrichment of stable isotopes (δ18O and δD) in lake water and the relation to lake-level change of Lake Qinghai, Northeast Tibetan Plateau of China. J Arid Land 2015, 7(5): 623–635.
  35. Cui Bu-Li, Li Xiao-Yan. 2015. Stable isotopes reveal sources of precipitation in the Qinghai Lake Basin of the northeastern Tibetan Plateau. Science of the Total Environment 527–528,26–37.
  36. Li Yuetan, Li Xiaoyan, Li Guangyong. 2015. Runoff coefficient characteristics and its dominant influence factors of the riparianMyricaria squamosa Desv. shrubs over Qinghai Lake basin, NE Qinghai-Tibet Plateau Arab J Geosci 8, 6655–6666.
  37. Cui Bu-Li, Li Xiao-Yan. 2015. Runoff processes in the Qinghai Lake Basin, Northeast Qinghai-Tibet Plateau, China: Insights from stable isotope and hydrochemistry Quaternary International 380-381,123-132.
  38. Zhang Si-Yi, Li Xiao-Yan*, Li Liu, Huang Yong-Mei, Zhao Guo-Qin, Chen Hui-Ying. 2015. The measurement and modeling of stemflow in an alpine Myricaria squamosa community. Hydrological Processes, 29, 889–899.
  39. Zhang Si-Yi, Li Xiao-Yan*, Ma Yu-Jun, Zhao Guo-Qin, Li Liu, Chen Ji, Jiang Zhi-Yun, Huang Yong-Mei. 2014. Interannual and seasonal variability in evapotranspiration and energy partitioning over the alpine riparian shrub Myricaria squamosa Desv. on Qinghai-Tibet Plateau. Cold Regions Science and Technology, 102: 8-20.
  40. Wu H.W., Zhang X.P., Li X.Y., Li G. Huang Y.M. 2014. Seasonal variations of deuterium and oxygen-18 isotopes and their response to moisture source for precipitation events in the subtropical monsoon region. Hydrol. Process. DOI: 10.1002/hyp.10132.
  41. Cui Bu-Li, Li Xiao-Yan. 2014. Characteristics of stable isotopes and hydrochemistry of river water in the Qinghai Lake Basin, northeast Qinghai-Tibet Plateau, China. Environ Earth Sci DOI 10.1007/s12665-014-3707-6.
  42. H.-J. Vogel, B. Clothier, X.-Y. Li, H.S. Lin, 2013.Hydropedology-A Perspective on Current Research. Vadose Zone Journal, 2013.doi:10.2136/vzj2013.09.0161                
  43. Li Xiao-Yan*, Zhang SY, Peng HY, Hu X, Ma YJ., 2013. Soil water and temperature dynamics in shrub-encroached grasslands and climatic implications: Results from Inner Mongolia steppe ecosystem of north China. Agricultural and Forest Meteorology, 171, 20-30.
  44. Li Xiao-Yan, Hu X., Zhang Z.H., Peng H.Y., Zhang S.Y., Li G.Y., Li L., Ma Y.J., 2013. Shrub hydropedology: Preferential water availability to deep soil layer. Vadose Zone J. doi:10.2136/vzj2013.01.0006.
  45. Peng H.Y., Li Xiao-Yan*, Li Guang-Yong, Zhang Z.H.., Zhang S.Y., Li L., Zhao G.Q., Jiang Z.Y., Ma Y.J., 2013. Shrub encroachment with increasing anthropogenic disturbance in the semiarid Inner Mongolian grasslands of China. Catena 109, 39-48.
  46. Zhang Z.H., Li Xiao-Yan*, Jiang ZY, Peng HY, Li L, Zhao GQ., 2013. Changes in some soil properties induced by re-conversion of cropland into grassland in the semiarid steppe zone of Inner Mongolia, China. Plant and Soil, DOI 10.1007/s11104-013-1772-3.
  47. Cui B.L., Li Xiao-Yan*, 2013. Characteristics of stable isotope and hydrochemistry of the groundwater around Qinghai Lake, NE Qinghai-Tibet Plateau, China. Environ Earth Sci DOI 10.1007/s12665-013-2520-y.
  48. Jiang Z.Y., Li Xiao-Yan*, Ma Y.J., 2013. Water and Energy Conservation of Rainwater Harvesting System in the Loess Plateau of China. Journal of Integrative Agriculture 12(8), 1389-1395.
  49. Li, X-Y., Lin, H., Levia, D.F., 2012. Coupling Ecohydrology and Hydropedology at Different Spatio-Temporal Scales in Water-Limited Ecosystems. In: Lin, H. (Ed.), Hydropedology: Synergistic Integration of Soil Science and Hydrology. Academic Press, Elsevier B.V., pp. 737-758.
  50. Zhang S.Y., Li X.Y., Peng H.Y., Zhang Z.H., 2012. Infiltration pattern beneath shrub canopy and interspace grass patches in typical steppe ecosystem of Inner Mongolia, China. Journal of Earth Environment 3(6), 1117-1125.
  51. Li, Xiao-Yan, Sergio Contreras, Albert Solé-Benet, et al., 2011. Controls of infiltration–runoff processes in Mediterranean karst rangelands in SE Spain, Catena, 86: 98–109.
  52. Li,Xiao-Yan. 2011. Hydrology and Biogeochemistry of Semiarid and Arid Regions. In: Levia, D.F., Carlyle-Moses, D.E. and Tanaka, T. (Eds.), Forest Hydrology and Biogeochemistry: Synthesis of Past Research and Future Directions. Ecological Studies Series, No. 216, Springer-Verlag, Heidelberg, Germany: pp285-299.
  53. Wang Jian-Hua, Tian Jing-Han, *Li Xiao-Yan, MA Yu-Jun, Yi Wan-Juan. 2011. Evaluation of concordance between environment and economy in Qinghai Lake Watershed, Qinghai- Tibet Plateau. J. Geogr. Sci., 21(5): 949-960.
  54. Zhang, Q., Ma Jiong, Qiu Guoyu, Li Li, Geng Shu, Hasi E., Li Cheng, Wang Guangyi, Li Xiao-Yan, 2011. Potential energy production from algae on marginal land in China. Bioresour. Technol. doi:10.1016/j.biortech. 2011.08.084.
  55. Cui Bu-Li, Li Xiao-Yan, 2011. Coastline change of the Yellow River estuary and its response to the sediment and runoff (1976–2005). Geomorphology 127,32-40.
  56. Ma Yu-Jun, Li Xiao-Yan, 2011. Water accumulation in soil by gravel and sand mulches: Influence of textural composition and thickness of mulch layers. Journal of Arid Environments 75,432-437.
  57. Li, Xiao-Yan, Yang, Z.-P., Li, Y.-T., and Lin, H., 2009. Connecting ecohydrology and hydropedology in desert shrubs: stemflow as a source of preferential flow in soils, Hydrol. Earth Syst. Sci., 13, 1133-1144.
  58. Li, Xiao-Yan, Ma, Y.J., Xu, H.Y., Wang, J.H., Zhang, D.S., 2009. Impact of land use and land cover change on environmental degradation in Lake Qinghai watershed, northeast Qinghai-Tibet Plateau. Land Degradation & Development 20, 69-83.
  59. Li, Xiao-Yan, Liu L.Y., Gao, S.Y., Ma, Y.J., Yang, Z.P., 2008. Stemflow in three shrubs and its effect on soil water enhancement in semiarid loess region of China. Agricultural and Forest Meteorology 148, 1501-1507.
  60. Li, Xiao-Yan, Contreras, S., Solé-Benet, A., 2008. Unsaturated hydraulic conductivity in limestone dolines: Influence of vegetation and rock fragments. Geoderma 145, 288–294.
  61. Li, Xiao-Yan, Zhao, W. W., Song, Y.X., Wang, W., Zhang, X.Y., 2008. Rainfall harvesting on slopes using contour furrows with plastic-covered transverse ridges for growing Caragana korshinskii in the semiarid region of China. Agricultural Water Management 95:539-544.
  62. Yang, ZhiPeng, Li, XiaoYan, Liu, LianYou, Wu, JianJun, Hasi Eerdun, Sun YongLiang, 2008. Characteristics of stemflow for sand-fixed shrubs in Mu Us sandy land, Northwest China. Chinese Science Bulletin 53 (14), 2214-2221.
  63. Sun Yong-liang, Li, Xiao-Yan, Liu Lian-you, Xu He-ye, Zhang Deng-shan. 2008. Climate change and sandy land development in Qinghai Lake Watershed, China. Frontiers of Environmental Science & Engineering in China 2(3), 340-348.
  64. Sun Yong-liang, Li, Xiao-Yan, Xu Heye, Yang, Zhipeng, Tang, Jia, Zhang, XiaoYing, 2008. Effect of soil crust on evaporation and dew deposition in Mu Us sandy land, China. Frontiers of Environmental Science & Engineering in China ISSN 1673-7415 (Print),1673-7520 .
  65. Li, Xiao-Yan, Xu, He-Ye, Sun, Yong-Liang, Zhang, Deng-Shan, 2007. Lake-level change and water balance analysis at lake Qinghai , west China during recent decades. Water Resources Management 21, 1505-1516.
  66. Li, Xiao-Yan, Contreras S., Solé-Benet, A., 2007. Spatial distribution of rock fragments in dolines: A case study in a semiarid Mediterranean mountain-range (Sierra de Gador, SE Spain). Catena 70, 366-374.
  67. Liu, L.Y. , Li, Xiao-Yan , Shi, P.J., Gao, S.Y., Wang, J.H., Ta, W.Q., Song, Y., Liu, M.X., Wang, Z., Xiao, B., 2007. Wind erodibility of major soils in the farming-pastoral ecotone of China. Journal of Arid Environments, 68(4), 611-623.
  68. Li, Xiao-Yan , Shi, P.J.,Sun, Y.L., Tang, J., Yang, Z.P., 2006. Influence of various in situ rainwater harvesting methods on soil moisture and growth of Tamarix ramosissima in the semiarid loess region of China. Forest Ecology and Management 233, 143–148.
  69. Li, Xiao-Yan , Gao, S.Y., Xu, H.Y., Liu, L.Y., 2006. Growth of Caragana korshinskii using runoff-collecting microcatchments under semiarid condition. Journal of Hydrology 328, 338-346.
  70. Liu, Mu-Xing, Wang, Jing-Ai, Yan, Ping , Liu, Lian-You, Ge, Yong-Qin, Li, Xiao-Yan , Hu, Xia, Song, Yang, Wang, Lei, 2006. Wind tunnel simulation of ridge-tillage effects on soil erosion from cropland. Soil & Tillage Research 90, 242–249.
  71. Li, Xiao-Yan ,Pei-Jun Shi,Liu, Lian-You, Gao, Shang-Yu, Wang, Xiong-Shi, Cheng, Liu-San. 2005. Influence of pebble size and cover on rainfall interception by gravel mulch. Journal of Hydrology, 312(1-4), 70-78.
  72. Li, Xiao-Yan , Liu, Lian-You, Gao, Shang-Yu, Shi Pei-Jun et al., 2005. Microcatchment water harvesting for growing Tamarix ramosissima in the semiarid loess region of China.Forest Ecology and Management, 214,111-117.
  73. Li, Xiao-Yan , Liu, Lian-You, Gao, Shang-Yu, Shi, Pei-Jun, Zou, Xue-Yong, E. Hasi, Yan Ping. 2005.Aeolian dust accumulatlayers by rock fragment substrata: influence of number and textural composition of pebble layers on dust accumulation. Soil and Tillage Research, 84(2), 139-144.
  74. Li, Xiao-Yan , Antonio González, Albert Solé-Benet, 2005. Laboratory methods for the estimation of infiltration rate of soil crusts in the Tabernas Desert badlands. Catena, 60,255-266.
  75. Pei-Jun Shi, Hideyuki Shimizu, Jing-Ai Wang, Lian-You Liu, Xiao-Yan, Li, Yi-Da Fan, Yun-Jiang Yu, Hai-Kun Jia, Yanzhi, Zhao, Lei Wang, and Yang Song. 2005. Land degradation and blown-sand disaster in China. In Plant Responses to Air Pollution and Global Change (Edited by K. Omasa, I. Nouchi, and L. J. De Kok), Springer-Verlag Tokyo.
  76. Li, Xiao-Yan , Xie, Zhong-Kui, Yan, Xiang-Kui, 2004. Runoff characteristics of artificial catchment materials for rainwater harvesting in the semiarid regions of China. Agricultural Water Management 65, 211-224.
  77. Li, Xiao-Yan , Liu, Lian-You, Wang, Jia-Hua. 2004. Wind tunnel simulation of aeolian sandy soil erodibility under human disturbance. Geomorphology 59, 3-11.
  78. Li, Xiao-Yan, Gao, Qian-Zhao. 2004. Experimental Study on Rainfall Harvesting and Microcatchment Model for Ecosystem Rehabilitation in the Transitional Zone between Arid and Semiarid Regions. 中国科学院研究生院学报, 21 (2), 282-287.
  79. Liu, L.Y., Shi, P.J., Gao, S.Y., Zou, X.Y., Erdon, H., Yan, P., Li, X.Y., Ta, W.Q., Wang, J.H., Zhang, C.L., 2004. Dustfall in China’s western loess plateau as influenced by dust storm and haze events. Atmospheric Environment 38, 1699–1703.
  80. Li, Xiao-Yan , Liu Lian-You. 2003. Effect of gravel mulch on aeolian dust accumulation in the semiarid region of northwest China. Soil & Tillage Research, 70, 73-81.
  81. Li, Xiao-Yan , 2003. Gravel-sand mulch for soil and water conservation in the semiarid loess region of northwest China . Catena 52(2), 105-127.
  82. Li, Xiao-Yan , 2003. Rainfall thresholds for artificial rainwater-harvesting catchments in the semi-arid loess region of China. Journal of Experimental Botany 54, 123.
  83. Li, Xiao-Yan, Wang, Xue-Quan, Gao, Qian-Zhao, 2003. Precipitation fluctuations in the transitional zone between arid and semiarid regions of northwest China from the 1950s to the 1990s. Food, Agriculture & Environment, 1 (3&4), 229-238.
  84. Li, Xiao-Yan. 2003. Rainwater harvesting for agricultural production in the semiarid loess region of China. Food, Agriculture & Environment, 1 (3&4), 282-285.
  85. Liu, L.Y., Gao, S.Y., Shi, P.J., Li, Xiao-Yan , Dong, Z.B. 2003. Wind Tunnel Measurements of Adobe Abrasion by Blown Sand: Profile Characteristics in Relation to Wind Velocity and Sand Flux. Journal of Arid Environments, 53,351-363.
  86. Liu, L.Y., Shi, P.J., Zou, X.Y., Gao, S.Y., Erdon, S., Yan, P., Li, Xiao-Yan, Dong, Z.B., Wang, J.H. 2003. Short-term dynamics of wind erosion of three newly cultivated grassland soils in northern China. Geoderma 115 (1-2), 55-64.
  87. Li, Xiao-Yan , Gong, Jia-Dong, Gao, Qian-Zhao. 2002. Compacted microcatchment with local earth materials for rainwater harvesting in the semiarid region of China. Journal of Hydrology, 257(1-4): 134-144.
  88. Li, Xiao-Yan , Gong, Jia-Dong. 2002. Effects of different ridge/furrow ratios and supplemental irrigation on crop production in ridge and furrow rainfall harvesting system with mulches. Agricultural Water Management, 54(3): 243-254.
  89. Li, Xiao-Yan . 2002. Effects of gravel and sand mulches on dew condensation in the semiarid region of China .Journal of Hydrology, 260 (1-4): 151-160.
  90. Li, Xiao-Yan , Liu, Lian-You, Gong, Jia-Dong. 2001. Influence of pebble mulch on soil erosion by wind and trapping capacity for windblown sediment. Soil & Tillage Research, 59 (3-4): 137-142.
  91. Li, Xiao-Yan , Gong, Jia-Dong, Gao, Qian-Zhao and Li, Feng-Rui. 2001. Incorporation of ridge and furrow method of rainfall harvesting with mulching for crop production under semiarid conditions. Agricultural Water Management, 50 (3), 173-183.
  92. Li, F.R., Gao, C.Y., Zhao, H.L. and Li, Xao-Yan . 2001. Soil conservation effectiveness and energy efficiency of alternative rotations and continuous wheat cropping in the Loess Plateau of northwest China. Agriculture, Ecosystems and Environment, 91:134-145.
  93. Li, Xiao-Yan , Gong, Jia-Dong, Gao, 2000. Rainfall interception loss by pebble mulch in the semiarid region of China. Journal of Hydrology, 228: 165-173.
  94. Li, Xiao-Yan , Gong, Jia-Dong and Wei, Xing-Hu. 2000. In-situ rainwater harvesting and gravel mulch combination for crop production in the dry semiarid region of China . Journal of Arid Environments, 46: 371-382.
  95. Li, Xiao-Yan . 2000. Soil and water conservation in arid and semiarid areas the Chinese experience. Annals of Arid Zone, 39(4): 377-393.
  96. Li, Xiao-Yan, Gong, Jia-Dong and Gao, Qian-Zhao. 2000. Rainfall harvesting and sustainable agriculture development in the Loess Plateau of China.中国沙漠,20 (2), 150-153.
  97. Liu, Lian-You, Wang, Jian-Hua, Li, Xiao-Yan et al. 1998. Determination of erodible particles on cultivated soils by wind tunnel simulation . Chinese Science Bulletin, 43 (19): 1646-1650.
  98. Liu Lian-You, Liu Yu-Zhang, Li, Xiao-Yan. 1998. Determination of the effect of gravel mulch on soil deflation by wind tunnel simulation. Chinese Journal of Arid Land Research, 11 (4), 331-33.

中文论文

(1) 李小雁,马育军,2016. 地球关键带科学与水文土壤学研究进展. 北京师范大学学报,52(6),731-736.

(2) 郑肖然,李小雁,李柳,彭海英,张思毅.干旱半干旱区灌丛斑块与降水量响应关系的熵模型模拟.生态学报,2015,35(23):DOI:10.5846/stxb201405080909.

(2) 李柳,郑肖然,李小雁,张思毅.2015.小叶锦鸡儿灌丛对土壤水分下渗及优势流的影响. 水土保持学报,29(2):55-59.

(3)吴华武, 李小雁,蒋志云,李静,郑肖然,赵殿智.基于δD、δ18O 的青海湖流域芨芨草水分利用来源变化研究.生态学报,2015,35( 24):8174-8183.

(4)郑肖然, 赵国琴, 李小雁, 李柳, 吴华武, 张思毅, 张志华 (2015). 氢同位素在内蒙古小叶锦鸡儿灌丛水分来源研究中的应用. 植物生态学报,39,184-196.

(5) 蒋志云, 李小雁, 张志华, 张思毅, 李柳. 基于EM38电导率仪土壤水分探测研究. 干旱区研究, 2015, 32(1), 48-55.

(6) 于晓娜, 黄永梅, 陈慧颖, 李小雁, 李柳, 2015. 土壤水分对毛乌素沙地油蒿群落演替的影响, 干旱区资源与环境, 29(2): 92-98.

(7) 彭海英, 李小雁, 童绍玉,2014. 内蒙古典型草原小叶锦鸡儿灌丛化对水分再分配和利用的影响. 生态学报,34( 9) : 2256-2265.

(8) 彭海英, 李小雁, 童绍玉. 2014.干旱半干旱区草原灌丛化研究进展. 草业学报, 23(2), 313-322.

(9) 李柳, 李小雁, 蒋志云, 张思毅, 郑肖然. 2014. 毛乌素沙地油蒿灌丛穿透雨特征及影响因素研究. 中国沙漠, 34(4), 1031-1036.

(10) 范瑛,李小雁,李广泳, 2014. 基于MODIS/EVI的内蒙古高原西部植被变化.中国沙漠,34(6):1671-1677.

(11) 范瑛,李小雁,李广泳,2014. 基于遥感数据的内蒙古草原灌丛物候变化研究.干旱气象,32(6):902-908.

(12) 李广泳, 李小雁*, 赵国琴, 张志华, 李岳坦. 青海湖流域草地植被动态变化趋势下的物候时空特征. 生态学报, 2014, 34(11), 3038-3047.

(13) 吴华武, 李小雁*, 赵国琴, 李广泳, 李舟, 李柳. 青海湖流域降水和河水中δ18O和δD变化特征. 自然资源学报, 2014, 29(9), 1552-1564.

(14) 李成秀, 李小雁, 杨太保*, 李岳坦. 青海湖流域沙柳河草甸群落结构与数量特征. 干旱区研究, 2013, 30(6), 1028-1035.

(15) 李柳, 李小雁, 马育军, 赵国琴, 吴华武. 2013. 油蒿灌木的生态水文过程研究综述[J].干旱气象, 31(4), 814-819.

(16) 赵国琴,李广泳,马文虎,赵殿智,李小雁,2013. 高原鼠兔扰动对高寒草地植物群落特征的影响. 应用生态学报,24(8): 2122-2128.

(17) 李小雁,2012,水文土壤学面临的机遇与挑战. 地球科学进展,27(5):557-562.

(18) 李小雁,2011. 干旱地区土壤-植被-水文耦合、响应与适应机制. 中国科学: 地球科学,41(12): 1721-1730.

(19) 马育军, 李小雁, 2011. 生态水力半径法改进及其在青海湖流域的应用. 科技导报,29(17): 22-28.

(20) 崔步礼, 李小雁, 李岳坦, 马育军, 伊万娟. 2011. 青海湖流域河川径流特征及其对降水的滞后效应. 中国沙漠,31(1): 247-253.

(21) 崔步礼, 李小雁, 姜广辉, 张思毅, 黄央奎. 2011. 基于DEM的山地丘陵区土地利用覆被研究-以青海湖流域为例. 自然资源学报, 26(5): 871-880.

(22) 彭海英, 李小雁,崔步礼,张思毅. 2011. 土壤优势流研究方法综述. 干旱气象,29(2): 137-143.

(23) 马育军, 李小雁, 张思毅,李广泳, 2011. 基于改进月保证率设定法的青海湖流域河流生态需水研究. 资源科学,33(2):265-272.

(24) 伊万娟, 李小雁, 李岳坦, 2011. 云南普洱茶产地土壤理化性状分析. 北京师范大学学报(自然科学版), 47(1):80-84.

(25) 马育军, 李小雁, 伊万娟,崔步礼,李岳坦.2010. 沟垄集雨结合历史覆盖对沙棘生长的影响. 农业工程学报,26(增刊2):188-194.

(26) 李岳坦, 李小雁, 崔步礼,孙久虎.2010. 青海湖流域及周边地区浅层地温对全球变化的响应. 地球环境学报,1(3):219-225.

(27) 杨志鹏, 李小雁, 伊万娟, 2010. 荒漠灌木树干茎流及其生态水文效应研究进展. 中国沙漠, 30(2):303-311.

(28) 李岳坦, 李小雁, 崔步礼, 彭海英, 伊万娟, 2010. 青海湖流域50年来(1956-2007年)河川径流量变化趋势—以布哈河和沙流河为例. 湖泊科学, 22(5):757-766.

(29) 李岳坦, 李小雁, 崔步礼, 伊万娟, 张强, 孙久虎, 2010. 青海湖流域及周边地区蒸发皿蒸发量变化(1961-2007年)及趋势分析. 湖泊科学, 22(5):616-624.

(30) 马育军, 李小雁, 徐霖, 王卫, 张晓影, 2010. 虚拟水战略中的蓝水和绿水细分研究. 科技导报, 28(4):47-54.

(31) 伊万娟, 李小雁, 崔步礼, 2010. 青海湖流域气候变化及其对湖水位的影响. 干旱气象, 28( 4),375-383.

(32) 汤佳, 李小雁, 王卫, 2009. 半干旱区雨水集流效益评价-以甘肃定西、内蒙古准格尔旗为例. 云南师范大学学报(哲学社会科学版), 41(3):48-53.

(33) 王建华, 田景汉, 李小雁, 2009. 基于生态系统管理的湿地概念生态模型研究. 生态环境学报, 18(2):738-742.

(34) 李小雁, 马育军, 2008. 水文土壤学:一门新兴的交叉学科. 科技导报, 28(9):78-82.

(35) 李小雁, 2008. 流域绿水研究的关键科学问题. 地球科学进展, 23(7):707-712.

(36) 李小雁, 许何也, 马育军, 王建华, 孙永亮, 2008. 青海湖流域土地利用/覆被变化研究. 自然资源学报, 23(2):285-296.

(37) 杨志鹏, 李小雁, 刘连友, 武建军, 哈斯,孙永亮, 2008. 毛乌素沙地固沙灌木树干茎流特征. 科学通报, 53(8):939-945.

(38)孙永亮, 李小雁, 汤佳, 许何也, 2008. 青海湖流域气候变化及其水文效应. 资源科学, 30(3):354-362.

(39)李小雁, 马育军, 宋冉, 邱国玉, 2007. 陆地生态系统绿水资源开发与雨水集流技术潜力分析. 科技导报, 2007, 25 (24):52-57.

(40)马育军, 王静爱, 李小雁, 2007. 宁夏中北部风沙灾害潜在风险区域对比评价. 自然灾害学报, 16(5):1-8.

(41)许何也, 李小雁, 孙永亮, 2007. 近47 a来青海湖流域气候变化分析. 干旱气象, 25(2):50-54.

(42)孙永亮, 李小雁, 许何也, 2007. 近40 a青海湖流域逐日降水和气温变化特征. 干旱气象, 25(1):7-13.

(43)刘连友, 宋阳, 李小雁, 王建华, 拓万权, 刘玉璋, 2006. 中国干旱区不同成因沉积物吹蚀速率的实验研究.地理学报, 61(9):957-964.

(44)李小雁, 张瑞玲, 2005. 旱作农田沟垄微型集雨结合覆盖玉米种植试验研究. 水土保持学报, 19(2):45-48.

(45)成六三, 李小雁, 肖洪浪, 2005. 兰州南北两山集雨绿化生态水文变化机理初探. 节水灌溉, 3:11-14.

(46)成六三,李小雁, 肖洪浪, 2005. 干旱半干旱区集雨绿化系统优化模拟模型的设计. 水土保持通报, 25(2):27-30.

(47)成六三, 李小雁, 2004. 从产业化谈雨水资源利用及发展概况. 绿色中国,12:31-34.

(48)陈六三, 李小雁, 2004. 集雨绿化系统现状及展望. 陕西师范大学学报(自然科学版), 32 (20):113-119.

(49)高前兆, 李小雁, 仵彦卿, 胡兴林, 2004. 河西内陆河流域水资源转化分析. 冰川冻土, 26(1):48-53.

(50)魏兴琥, 谢忠奎, 李小雁, 王亚军, 张志山, 2003. 温室集雨与集雨水高效利用研究. 干旱地区农业研究, 21(1):11-21.

(51)魏兴琥, 龚家栋, 李小雁, 2003. 集雨与日光温室番茄集雨水高效利用研究. 干旱区资源与环境, 17(2):107-110.

(52)李小雁, 龚家栋, 2002. 半干旱区雨水集流研究进展及其现状. 中国沙漠, 22(1):88-92.

(53)龚家栋, 程国栋, 张小由, 肖洪浪, 李小雁, 2002.黑河下游额济纳地区的环境演变. 地球科学进展, 17(4):491-496.

(54)李小雁, 龚家栋, 2001. 人工集水面降雨径流观测实验研究. 水土保持学报, 15(1):1-4.

(55)李小雁, 龚家栋, 高前兆, 2001. 人工集水面临界产流降雨量确定实验研究. 水科学进展, 12(4):516-522.

(56)龚家栋, 李小雁. 2001. 黑河流域不同下垫面区域的气候变化特征. 冰川冻土, 23(4):423-431.

(57)李小雁, 2000. 黄土高原半干旱区微型生态雨水集流模式. 雨水利用与水资源研究, 第三届全国雨水利用研讨会暨中科院水中心年会论文集. pp. 49-51.

(58)刘连友, 刘玉璋, 李小雁, 等, 1999. 砾石覆盖对土壤吹蚀的抑制效应. 中国沙漠, 19(1):60-62.

(59)李小雁, 李福兴, 刘连友, 1998. 土壤风蚀中有关土壤性质因子的研究历史与动向. 中国沙漠:18(1):91-95.

(60)刘连友, 王建华, 李小雁, 等, 1998. 耕作土壤的可蚀性颗粒的风洞模拟测定. 科学通报:43(15):1663-1665.

(61)李福兴, 陈隆亨, 邸醒民, 李小雁, 1996. 钙积正常干旱土的诊断特征及其系统分类. 土壤:28(5):247-253.


(1) 高前兆, 李小雁 , 俎瑞平. 2005. 干旱区供水集水保水技术. 化学工业出版社. 
(2) 李小雁 , 秦来寿, 王亚军, 谢忠奎, 张瑞玲. 2003. “半干旱区集雨节水高效农业专家系统”软件.
(3) 肖洪浪, 龚家栋, 卢琦等. 2000. 中国水情. 开明出版社. (参加编写).

获奖时间

奖项名称

2014

教育部高等学校科学研究优秀成果奖自然科学二等奖

2014 “万人计划”国家中青年科技领军人才
2013 中国自然资源学会优秀科技奖
2013 国务院政府特殊津贴获得者
2011 “土壤水文与土壤侵蚀”教育部创新团队带头人

2010

   国家杰出青年科学基金

2008

   教育部“新世纪优秀人才支持计划”入选者

2008

   北京市科学技术二等奖 (排名第7)

2007

   北京市优秀人才培养资助人选

2006

   励耘奖学助学基金优秀青年教师奖

2003

   全国优秀博士学位论文奖

2003

   西班牙高等科研理事会政府奖学金

2001

   中科院“西部之光”人才培养计划入选者

2000

   中国科学院院长奖学金优秀奖


2004级研究生课程:“ 干旱区资源与环境 ”(60学时)
 2003-2004级本科生课程:“ 水资源利用与管理 ”(60学时)
 2007级本科生课程:“ 水资源学 ”(60学时)
 2007级研究生课程:“ 水文与水资源 ” (60学时)
   2008级本科生课程:“ 水资源学 ”(60学时)
 2008级研究生课程:“ 水文土壤学 ” (60学时)
 2009级研究生课程:“ 水文土壤学 ”(60学时)
 2011级本科生课程:“ 水资源学 ” (60学时)
 2011级研究生课程:“ 水文土壤学 ” (60学时)

招生领域

 

博士

 

学科专业

研究方向

考试科目

备注

070520★自然资源

02生态水文学与水文土壤学

①1101英语②2049自然地理学或2114水文学③3066生态学或3098土壤学

生态水文,水文土壤学,流域水资源配置与管理

硕士

学科专业

研究方向

考试科目

备注

070520★自然资源

03水土资源与生态恢

①101思想政治理论 ②201英语一 ③303数

学三 ④807自然地理学或810水文学或826土壤学

土地退化与防治;水资源

与生态水文;水文土壤学

博士后

研究方向: 生态水文与土壤水文

基本要求:在国内外已经获得或即将获得博士学位者,品学兼优、身体健康,具有较强的科研能力和高度的敬业精神,在科研上有建树或有较大的发展潜力;具有水文学、土壤学、生态学、遥感或其他地学相关学科背景,在水文模型和土壤物理方面具有研究经验并已取得显著科研成果的申请者优先考虑。

博士后(A类)进站遴选指标:
       1.在境内外一流大学获得博士学位、品学兼优、身体健康,年龄在35周岁以下。
       2.能够保证在站期间全职在校工作,不招收在职人员。
       3.近五年有较高水平的科研成果产出,须符合下列条件之一:
     (1)主持省部级科研项目,并取得重要的阶段性成果;
     (2)以第一作者或通讯作者发表高水平原创性研究成果:
       自然科学类须发表SCI-Q1区期刊论文1篇,或SCI-Q2区期刊论文2篇,或其他SCI期刊论文至少3篇;
       人文社科类须在SSCI-Q1区或B类以上期刊发表论文至少1篇,或C类期刊至少2篇,或CSSCI至少3篇。
博士后出站考核指标:
       在站期间的科研成果同时满足以下两个条件,方可出站:
       1.主持省部级科研项目或博士后科学基金1项,或主持横向项目到账经费20万元以上,或以主要成员(排名前三)参加合作导师的国家级科研项目。
       2. 以北京师范大学为第一署名单位,以第一作者或通讯作者发表SCI或SSCI论文2篇。

欢迎各位有志报考的同学直接与导师联系,李小雁老师 xyli@bnu.edu.cn,联系电话:010-58802716

国际会议

(1) 2014, 8-13 June, the 20th World Congress of Soil Science (20WCSS). Hydropedological responses to vegetation degradation and recovery processes in the semiarid region. ICC Jeju, Korea (invited)..

(2) 2014, Sept. 21-24, CZO Network All Hands Meeting. Fish Camp, CA, USA.

(3) 2013, 29-30 June. International Workshop on Hydropedology and Sustainable Use of Natural Resources. Shrub Hydropedology: Preferential Water Availability to Deep Soil Layer. Beijing Normal University, Beijing China (invited).

(4) 2013, 8-10 September. International Workshop on "Soil Structure and its Functions on Ecosystem" Changes in some soil properties induced by re-conversion of cropland into grassland. Nanjing, China (invited).

(5) 2013, 16-21 September. International Workshop on Remote Sensing and Eco-hydrology in Arid Regions. Climate and land use/cover change and its ecohydrological response in Qinghai Lake watershed. Beijing, China (invited).

(6) 2012, 22-27 July. 2nd international conference on hydropedology. Linkages between ecohydrology and hydropedology in dryland shrubs. Leipzig Germany (invited).

(7) 2012, 26-27 April. Low carbon forum. Water and energy conservation for rainwater harvesting system in the Loess Plateau of China. Shenzhen, China (invited).

(8) 2011, June 28 - July 7. 2011. International Union of Geodesy and Geophysics (IUGG) General Assembly, Melbourne, Australia.

(9) 2011,14th-18th Nov. International Geographic Union Regional Geographic Conference - UGI 2011, Impact of climate change and LUCC on stream flow and lake level in Qinghai lake watershed, China. SANTIAGO, Chile.

(10) 2010, May 2-7: Europe Geosciences Union (EGU), Vienna, Austria. Oral presentation: Redistribution of rainfall and soil moisture as influenced by semiarid shrubs at individual plant and patch scales.

(11) Cui Bu-Li, Li Xiao-Yan, Chang Xue-Li, et al. 2010. Remote sensing monitoring of coastline change in the Yellow River estuary. The 3rd International Congress on Image and Signal Processing (CISP), IEEE, 2225-2231.

(12) 2009, Dec 13-19: American Geophysical Union (AGU) fall meeting, San Francisco, USA. Presentation: Temporal and Spatial Rainfall-Runoff Behavior for Microcatchments on the Slope of the Loess Plateau.

(13) 2008, July 28-31: International Conference on HYDROPEDOLOGY. Penn State Univ., University Park, USA. Oral presentation: Influence of soil surfaces on runoff and hydraulic properties in a Mediterranean limestone shrubland (Sierra de Gádor, SE Spain).

(14) Li, XiaoYan, Liu, LianYou, 2004. Influence of Reaumuria Soongorica on soil properties and soil water distribution at the microscale in the semiarid loess region of China. In Huang G.H. and Pereira, L.S. (Ed.), Land and Water Management Decision Tools and Practices Vol. II, Proceedings of the 7th Inter-Regional Conference on Environment and Water (ISBN 7-109-09448-0), pp. 818-823. Oct. 11-14. Beijing.

(15) Li, XiaoYan, Contreras, S., Villagarcía,L., Sánchez,J., Cantón, Y., Solé-Benet, A., Domingo, F., Lázaro, R., VanWesenael,B, Puigdefábregas, J. 2004. Influence of soil surface types on infiltration in a karstic area (Sierra de Gador, SE Spain). Implications for aquifer recharge. In M.Tropeano, M.Arattano, F.Maraga, C.Pelissero (eds) Progress in Surface and subsurface water studies at the plot and small basin scale (ERB Euromediterranean Conference) pp 159-162, CNR, Turin, Italy.

(16) Li, Xiao-Yan, 2003. Rainfall thresholds for artificial rainwater-harvesting catchments in the semi-arid loess region of China. International conference on Water Saving Agriculture, Yangling, Shannxi Province, China. October, 2003.

(17) Li, Xiao-Yan, Canton, Y., Sole-Benet, A., 2003. Influence of different soil crusts on infiltration and erosion in the Tabernas Desert badlands (SE Spain). International conference on Gully erosion in Mountain Areas: Processes, Measurement, Modelling and Regionalization, 15th-17th October, 2003, Digne (Alpes-de-Haute-Provence, France), pp. 97-100.

(18) Li, Xiao-Yan, Zhang, R.L., Gong, J.D., Xie, Z.K. 2002. Effects of rainwater harvesting on the regional development and environment conservation in the semiarid loess region of northwest China. Process of soil erosion and its environment effect (volume Ⅱ), Proceedings of 12th International Soil Conservation Organization Conference, May 26-31, Beijing, China. Tsinghua University Press, pp. 482-486.

(19) Li, Xiao-Yan, Zhang, R.L., Gong, J.D., Xie, Z.K. 2002. Soil and water accumulation by gravel and sand mulches in western Loess Plateau of northwest China Technology and method of soil and water conservation (volume Ⅲ), Proceedings of 12th International Soil Conservation Organization Conference, May 26-31, Beijing, China. Tsinghua University Press, pp.192-198.

(20) Li, Xiao-Yan, Liu, L.Y., Wang, J.H. 2002. Wind tunnel simulation experiment on the erodibility of the fixed Aeolian sandy soil by wind. In Lee, J.A. and Zobeck, T.M. (Ed.), Proceedings of the ICAR5/GCTE-SEN Joint Meeting, July 22-25, 2002, Lubbock, Texas, USA, pp. 40-44.

(21) Li, Xiao-Yan, Gong, Jia-Dong and Gao, Qian-Zhao. 2001. Researches on rainwater harvesting in the semiarid region of China. Proceedings of the China National Symposium and Imternational Workshop on Rainwater Utilization. pp295-303. lanzhou, Gansu, China.

(22) Li, Xiao-Yan, Gong, J.D., Gao, Q.Z., 1999. Developing water-saving techniques and efficient agriculture under rainfall harvesting in China. Sixth International Conference on the Development of Dry Lands, pp. 177-180. August 22-27, 1999, Cairo, Egypt.