个人信息简介 姓名：李小雁
学历：博士
职称：二级教授
职务：自然资源学院院长
邮箱：xyli@bnu.edu.cn

学术兼职
北师大地理科学学部学术委员会副主任
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
国际土壤联合会水文土壤学工作组执行委员
Vadose Zone Journal 副编辑
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
中国生态学会生态水文专业委员会副主任委员
中国地理学会自然地理专业委员会委员


研究方向与招生
1. 研究方向
生态水文学、水文土壤学、水文与水资源
（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。
（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。
2. 招生领域
博士研究生：
学科专业：自然资源
研究方向：生态水文学与水文土壤学
考试科目：英语、自然地理学或水文学、生态学或土壤学
硕士研究生：
学科专业：自然资源
研究方向：水土资源与生态恢复
考试科目：思想政治理论、英语、数学、自然地理学或水文学或土壤学

教育经历
1990-1994，甘肃农业大学，土壤农化专业，获学士学位
1994-1997，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，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）阿尔梅利亚干旱区实验研究所博士后研究
2004年4月-2016年11月，北京师范大学资源学院，教授
2016年12月-至今，北京师范大学地理科学部资源学院，教授

承担课程
本科生课程：水文与水资源学
研究生课程：水文土壤学

科研项目
1. 2020-2023国家自然科学基金面上项目（项目批准号：**），高原咸水湖泊蒸发过程及其控制因素观测研究
2. 2018-2022国家自然科学基金重点项目（项目批准号：**），青海湖流域关键带碳水过程及其生态功能变化
3. 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：**），黑河流域生态系统结构特征与过程集成及生态情景研究
4. 2014-2018国家自然科学基金重大项目课题（项目批准号：**），黄土高原草灌生态系统对土壤水变化的响应机制
5. 2012-2015教育部创新团队项目，土壤水文与土壤侵蚀
6. 2012-2016国家自然科学基金重点项目（项目批准号：**），青海湖流域生态水文过程与水分收支研究
7. 2011-2014国家科学基金，半干旱区土壤水文过程与植被响应

著作论文
1. Bai Y, Li X-Y*, Zhou S, Yang X, Yu K,Wang M, Liu S,Wang P, Wu X, Wang X, Zhang C, Shi F, Wang Y, Wu Y., 2019. Quantifying plant transpiration and stomatal behavior at thecanopy scale: An underlying water use efficiency method, Agricultural &Forest Meteorology,271,375-384.
2. Ma Y.J., Li X.Y., Liu Lei Liu, Yang Xiaofan, Wu Xiuchen, Wang Pei, Lin H., Zhang G.H,Maio CY., 2019. Evapotranspiration and its dominant controls along an elevationgradient in the Qinghai Lake watershed, northeast Qinghai-Tibet Plateau. Journalof Hydrology 575, 257-268.
3. Hu X., Li X Y., Li Z C., Gao Z., Wu X C., Wang P., Lyu Y L., Liu L Y. 2019. Linking3-D soil macropores and root architecture to near saturated hydraulic conductivityof typical meadow soil types in the Qinghai Lake Watershed, northeasternQinghai–Tibet Plateau. Catena DOI: 10.1016/j.catena.2019.104287
4. Li Z C., Hu X*., Li X Y. 2019. Characterization of root architectures and soil macropore networks under different landscape sing X-ray CT scanning in the Qinghai Lake watershed, NE Qinghai-Tibet Plateau.Journal of Soil Science and Plant Nutrition. 19:743–757
5. Li Z C., Hu X*., Li X Y., Huang Y M., WuX C., Wang P., Liu L Y. 2019. Quantification of Soil Macropores at Different slope Positions Under Alpine Meadow Using Computed Tomography in the QinghaiLake Watershed, NE Qinghai–Tibet. Eurasian soil science 11:1391-1401
6. Hu, X*., Li X Y., Wang P., LiuY., Wu X C., Li Z C., Zhao Y D., Cheng Y Q., Guo L L., Lyu Y L., Liu LY. 2019. Influenceof exclosure on CT-measured soil macropores and root architecture in a shrub-encroachedgrassland in northern China. Soil & Tillage Research 187: 21-30
7. Hu X*.,Li X Y., Guo L L., Wang P., Zhao Y D., Liu Y., Cheng Y Q., Lyu Y L., Liu L Y.2019. Influence of Shrub Roots on Soil Macropores using X-ray ComputedTomography in a Shrub-encroached Grassland in Northern China. Journal of soilsand sediments 19:1970–1980
8. Wang Y., Li X.Y.^*,Wu X., Wu H., Zhang J.,Wu Y., Zhao C., 2019. Temporal changes of soil respirationin a subalpine meadow in the Heihe River Basin, Northwest China. Catena 178: 267–275.
9. Wu H, Li X.Y.,Li J, et al. Age-related water uptake patterns of alpine plantation shrubs inreforestation region of Qinghai–Tibetan Plateau based on stable isotopes. Ecohydrology.2019;12:e2049. https://doi.org/10.1002/eco.2049.
10. Wang P, Y Deng, Li X-Y, Z Wei, X Hu, F Tian, X Wu, Y Huang,Y-J Ma, C Zhang, Y Wang,E Li, J Wang. 2019. Dynamical effects of plastic mulch on evapotranspirationpartition in a mulched agriculture ecosystem: measurement with numericalmodeling. Agricultural & Forest Meteorology, 268,98-108.
11. Wang P*, Y Tong, X-Y Li, Y Huang, X Yang, X Wu. 2019. Vegetation dynamics dominatethe energy flux partitioning across typical ecosystem in Heihe River Basin:Observation with numerical modeling. Journal of Geographical Sciences, 29(9)DOI: https://doi.org/10.1007/s11442-019-0000-0
12. Tong Y,Wang P*, Li X.Y. *, Wu X, Shi F,Li E, Bai Y, J Wang, Y Wang. 2019.Seasonality of the transpiration fractionand its controls across typicalecosystems in Arid Inland Heihe River Basin.Journal of Geophysical Research:Atmospheres,124(3),1277-1291
13. Wang Yang, LiXiaoyan*, Zhang Cicheng, Wu Xiuchen, Du Enzai, Wu Huawu, Yang Xiaofan, WangPei, Bai Yan, Wu Yinan, Huang Yongmei, 2019. Responses of soil respiration torainfall addition in a desert ecosystem: Linking physiological activities andrainfall pattern. Science of the Total Environment 650, (2019) 3007-3016.
14. Wu X., Guo W, Liu H, Li X-Y, Peng C, Craig D A, Zhang C, Wang P, Pei T, Ma Y, Tian Y,Song Z, Zhu W, Wang Y, Li Z, Chen D. 2019. Exposures to temperature beyondthreshold disproportionately reducevegetation growth in the northern hemisphere,National Science Review, nwy158, https://doi.org/10.1093/nsr/nwy158 .
15. Li X.Y., X. Yang, Y.Ma, G. Hu, X. Hu, X. Wu, P. Wang, Y. Huang, B. Cui, and J. Wei. 2018. QinghaiLake Basin Critical Zone Observatory on the Qinghai-Tibet Plateau. Vadose ZoneJ. 17:180069. doi:1.2136/vzj2018.04.0069.
16. Li, X.Y., H.S. Lin, andH.H. Gerke. 2018. Frontiers in hydropedology: Interdisciplinary research fromsoil architecture to the critical zone. Vadose Zone J. 17:180045. doi:10.2136/vzj2018.03.0045.
17. Ma, Y.-J., Li,X.-Y.*, Liu, L., Huang, Y.-M., Li, Z., Hu, X., et al. (2018). Measurementsand modeling of the water budget in semiarid high-altitude Qinghai Lake basin,Northeast Qinghai-Tibet Plateau. Journal of Geophysical Research: Atmospheres, 123.https://doi.org/10.1029/2018JD028459.
18. Wu Xiuchen, LiXiaoyan, Liu Hongyan, Ciais Philippe, Li Yuanqiao, Xu Chongyang, BabsFlurin, Guo Weichao, Hao Bingyan, Wang Pei, Huang Yongmei, Liu Shaomin, TianYuhong, He Bin, Zhang Cicheng. 2018. Uneven winter snow influence on treegrowth across temperate China. Glob Change Biol. 1–11. DOI: 10.1111/gcb.14464.
19. Hu X*., Li Z C., Li X Y., LiuY., Sun Z T., Liu L Y., Lv Y L. 2018. Soil Macropore Structure under DifferentLand Uses Characterized by X-ray Computed Tomography in the Qinghai LakeWatershed, NE Qinghai-Tibet Plateau. Pedosphere, 28(3): 478–487
20. Yang Y.Y., Liu L.Y., Li X.Y., Shi P.J., Zhang G.M., Xiong Y.Y., Lv Y.L., Guo L.L., LiangB., Zhao M.D., Dai J.D., Zuo X.Y., Han X.J. 2018. Aerodynamic grain-sizedistribution of blown sand. Sedimentology doi: 10.1111/sed.12497.
21. Zhang S.Y., LiX.Y., Jiang Z.Y., Li D.Q., Lin H. 2018. Modelling of rainfall partitioningby a deciduous shrub using a variable parameters Gash model. Ecohydrology.e2011; https://doi.org/10.1002/eco.2011.
22. Rahmati, M., Weihermüller, L., Vanderborght, J.,Pachepsky, Y. A., Mao, L., Sadeghi, S. H., Moosavi, N., Kheirfam, H., Montzka,C., Van Looy, K., Toth, B., Hazbavi, Z., Al Yamani, W., Albalasmeh, A. A.,Alghzawi, M. Z., Angulo-Jaramillo, R., Antonino, A. C. D., Arampatzis, G.,Armindo, R. A., Asadi, H., Bamutaze, Y., Batlle-Aguilar, J., Béchet, B.,Becker, F., Bl?schl, G., Bohne, K., Braud, I., Castellano, C., Cerdà, A.,Chalhoub, M., Cichota, R., Císlerová, M., Clothier, B., Coquet, Y., Cornelis,W., Corradini, C., Coutinho, A. P., de Oliveira, M. B., de Macedo, J. R.,Dur?es, M. F., Emami, H., Eskandari, I., Farajnia, A., Flammini, A., Fodor, N.,Gharaibeh, M., Ghavimipanah, M. H., Ghezzehei, T. A., Giertz, S.,Hatzigiannakis, E. G., Horn, R., Jiménez, J. J., Jacques, D., Keesstra, S. D.,Kelishadi, H., Kiani-Harchegani, M., Kouselou, M., Kumar Jha, M., Lassabatere,L., Li, X.Y., Liebig, M. A.,Lichner, L., López, M. V., Machiwal, D., Mallants, D., Mallmann, M. S., deOliveira Marques, J. D., Marshall, M. R., Mertens, J., Meunier, F., Mohammadi,M. H., Mohanty, B. P., Pulido-Moncada, M., Montenegro, S., Morbidelli, R.,Moret-Fernández, D., Moosavi, A. A., Mosaddeghi, M. R., Mousavi, S. B.,Mozaffari, H., Nabiollahi, K., Neyshabouri, M. R., Ottoni, M. V., Ottoni Filho,T. B., Pahlavan-Rad, M. R., Panagopoulos, A., Peth, S., Peyneau, P.-E.,Picciafuoco, T., Poesen, J., Pulido, M., Reinert, D. J., Reinsch, S., Rezaei, M.,Roberts, F. P., Robinson, D., Rodrigo-Comino, J., Rotunno Filho, O. C., Saito,T., Suganuma, H., Saltalippi, C., Sándor, R., Schütt, B., Seeger, M.,Sepehrnia, N., Sharifi Moghaddam, E., Shukla, M., Shutaro, S., Sorando, R.,Stanley, A. A., Strauss, P., Su, Z., Taghizadeh-Mehrjardi, R., Taguas, E.,Teixeira, W. G., Vaezi, A. R., Vafakhah, M., Vogel, T., Vogeler, I., Votrubova,J., Werner, S., Winarski, T., Yilmaz, D., Young, M. H., Zacharias, S., Zeng,Y., Zhao, Y., Zhao, H., and Vereecken, H.: Development and analysis of the SoilWater Infiltration Global database, Earth Syst. Sci. Data, 10, 1237-1263,https://doi.org/10.5194/essd-10-1237-2018, 2018.
23. Fan Y., LiX.Y*, Li L., Wei J.Q., Shi F.Z., Yao H.Y., Liu L., 2018.Plant Harvesting Impacts on Soil Water Patterns and Phenology forShrub-encroached Grassland. Water 2018, 10, 736; doi: 10.3390/w**.
24. Wang Pei, LiX.Y., Wang L., Wu X., Hu X., Fan Y., Tong Y., 2018. Divergent evapotranspirationpartition dynamics between shrubs and grasses in a shrub-encroached steppeecosystem. New Phytologist DOI: 10.1111/nph.15237.
25. Wang Pei, TsutomuYamanaka, Li Xiao-Yan, Xiuchen Wu, Bo Chen, Yaping Liu, Zhongwang Wei,WenchaoMa. 2018. A multiple time scale modeling investigation of leaf waterisotopeenrichment in a temperate grassland ecosystem. Ecology Research,Doi:10.1007/s11284-018-1591-3.
26. Shi Fangzhong, Xiuchen Wu*, Li Xiaoyan*, Deliang Chen, Hongyan Liu, Shaomin Liu, Xia Hu, BinHe, Chunming Shi, Pei Wang,Rui Mao, Yujun Ma, Yongmei Huang. 2018. Weakeningrelationship betweenvegetation growth over the Tibetan Plateau and large-scaleclimate variability. JGR-biogeoscience, doi: 10.1002/2017JG004134.
27. Wu Hua-Wu, Li Jing, Li Xiao-Yan, He Bin, Liu Jin-Zhao, Jiang Zhi-Yun, Zhang Ci-Cheng.2018. Contrasting response of coexisting plant’s water-use patterns toexperimental precipitation manipulation in an alpine grassland community ofQinghai-Lake watershed, China. PLoS ONE, 13(4): e**.
28. Jiang Zhi-Yun, LiXiao-Yan*, Wei Jun-Qi, Chen Hui-Ying, Li Zong-Chao, Liu Lei, Hu Xia, 2018.Contrasting surface soil hydrology regulated by biological and physical soil crustsfor patchy grass in the high-altitude alpine steppe ecosystem. Geoderma 326: 201-209.
29. Wu Xiu-chen, Liu Hong-yan, Li Xiao-Yan*, Ciais Philippe, Babst Flurin, Guo Wei-chao, ZhangCi-cheng, Magliulo Vincenzo, Pavelka Marian, Liu Shao-min, Huang Yong-mei, WangPei, Shi Chun-ming, Ma Yu-jun, 2018. Differentiating drought legacy effects onvegetation growth over the temperate Northern Hemisphere. Global ChangeBiology, 24: 504-516.
30. Ma Yu-jun*, Wu Yi-nan, Liu Wen-ling, Li Xiao-Yan, Lin Henry, 2018.Microclimate response of soil to plateau pika's disturbance in the northeastQinghai-Tibet Plateau. European Journal of Soil Science, 69: 232-244.
31. Wu Huawu, Li Jing, Zhang Cicheng, He Bin, ZhangHaixia, Wu Xiuchen, Li Xiao-Yan*,2018. Determining root water uptake of two alpine crops in a rainfed croplandin the Qinghai Lake watershed: First assessment using stable isotopes analysis.Field Crops Research 215: 113–121.
32. Wu X, Liu H, LiXY, Tian Y and Mahecha MD, 2017. Responses of Winter Wheat Yields toWarming-Mediated Vernalization Variations Across Temperate Europe. Front. Ecol.Evol. 5:126. doi: 10.3389/fevo.2017.00126.
33. Fan Ying, LiXiao-Yan*, Huang Y.M., Li L. et al., 2017. Shrub patch configuration inrelation to precipitation and soil properties in Northwest China. Ecohydrology,doi.org/10.1002/eco.1916
34. Hu Xia., Lyu Yan-Li., Liu Yong., Li Xiao-Yan, Li Zong-Chao., SunZhen-Ting., Cheng Ya-Qian., Guo Lan-Lan., Liu Lian-you. Exclosure onCT-measured soil macropore characteristics in the Inner Mongolia grassland ofnorthern China. Journal of soils and sediments, 2017 DOI10.1007/s11368-017-1828-8.
35. Bai Yan, LiXiaoyan*, Liu Shaomin, Wang Pei, 2017. Modelling diurnal and seasonal hysteresisphenomena of canopy conductance in an oasis forest ecosystem. Agricultural andForest Meteorology 246, 98–110.
36. Zhang Cicheng, LiXiaoyan*, Wu Huawu, Wang Pei, Wang Yang, Wu Xiucheng 2017. Differences in water-use strategies along anaridity gradient between two coexisting desert shrubs (Reaumuria soongorica and Nitrariasphaerocarpa): isotopic approaches with physiological evidence. Plant Soil,419:169-187; DOI 10.1007/s11104-017-3332-8.
37. Ma Yu-jun, LiXiao-yan, Guo Li, Henry Lin, 2017. Hydropedology: Interactions betweenpedologic and hydrologic processes across spatiotemporal scales. Earth-ScienceReviews 171, 181–195.
38. Wu, X., Liu H.Y., Li X.Y. et al., 2017. Higher temperature variability reducestemperature sensitivity of vegetation growth in Northern Hemisphere, Geophys.Res. Lett., 44, doi:10.1002/2017GL073285.
39. Jiang Zhi-Yun, LiXiao-Yan*, Wu Hua-Wu, Zhang Si-Yi, Zhao Guo-Qin, Wei Jun-Qi. 2017. Linkingspatial distributions of the grass Achnatherum splendens with soil water andsalinity dynamics using electromagnetic induction. Catena, 149(1): 261-272.
40. Maxwell C. Wilson,*, Xiao-Yan Li, Yu-Jun Ma, Andrew T. Smith, Jianguo Wu, 2017. A Reviewof the Economic, Social, and Environmental Impacts of China’s South–North WaterTransfer Project: A Sustainability Perspective. Sustainability, 9, 1489;doi:10.3390/su**.
41. 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-rayComputed Tomography in the Qinghai Lake Watershed, NE Qinghai-Tibet Plateau.Pedosphere, DOI: 10.1016/S1002-0160(17)60334-5.
42. Zhang Yu, LiXiao-Yan*, Li Wei, Wu Xiu-Chen, Shi Fang-Zhong, Fang Wei-Wei, PeiTing-Ting. 2017. Modeling rainfall interception loss by two xerophytic shrubsin the Loess Plateau. Hydrological Processes, http://doi.org/10.1002/hyp.11157.
43. Zhang Si-Yi, LiXiao-Yan*. 2017. Soil moisture and temperature dynamics in typical alpineecosystems: a continuous multi-depth measurements-based analysis from theQinghai-Tibet Plateau, China. Hydrology Research, 49(1): 194-209. doi:10.2166/nh.2017.215.
44. Wu Hua-Wu, LiXiao-Yan*, He Bin, Li Jing, Xiao Xiong, Liu Lei, Liu Jin-Zhao. 2017.Characterizing the Qinghai Lake watershed using oxygen-18 and deuterium stableisotopes. Journal of Great Lakes Research, 43: 33-42.
45. Li Wei, Yu Teng-Fei, Li Xiao-Yan*, Zhao Chun-Yan. 2016. Sap flow characteristics andtheir response to environmental variables in a desert riparian forest alonglower Heihe River Basin, Northwest China. Environmental Monitoring andAssessment, 188: 561-574.
46. Ma Yu-Jun, LiXiao-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.
47. Huang Yong-Mei, Yu Xiao-Na, Li En-Gui, ChenHui-Ying, Li Liu, Wu Xiu-Chen, LiXiao-Yan. 2017. A process-based water balance model for semi-aridecosystems: A case study of psammophytic ecosystems in Mu Us Sandland, InnerMongolia, China. Ecological Modelling, 353: 77-85.
48. Yu Xiao-Na, Huang Yong-Mei, Li En-Gui, Li Xiao-Yan, Guo Wei-Hua. 2017. Effectsof vegetation types on soil water dynamics during vegetation restoration in theMu Us Sandy Land, northwestern China. Journal of Arid Land, 9(2): 188-199.
49. 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 surroundinglakes in the northeastern Tibetan Plateau, using Multitemporal Landsat Imagery(1973-2015). Global and Planetary Change, 152: 167-175.
50. Li Xiao-Yan*, Ma Yu-Jun,Huang Yong-Mei, Hu Xia, Wu Xiu-Chen, Wang Pei, Li Guang-Yong, Zhang Si-Yi, WuHua-Wu, Jiang Zhi-Yun, Cui Bu-Li, Liu Lei. 2016. Evaporation and surface energybudget over the largest high-altitude saline lake on the Qinghai-Tibet Plateau.Journal of Geophysical Research: Atmosphere, 121: 10470-10485.
51. Pei Ting-Ting, Xu Xiu-Chen, Li Xiao-Yan, Zhang Yu, Shi Fang-Zhong, Ma Yu-Jun, Wang Pei, ZhangCi-Cheng. 2016. Seasonal divergence in the sensitivity of evapotranspiration toclimate and vegetation growth in the Yellow River Basin, China. Journal ofGeophysical Research, Biogeosciences. 122, doi:10.1002/2016JG003648.
52. Canton Yolanda, Rodriguez-Caballero Emilio,Contreras Sergio, Villagarcia Luis, LiXiao-Yan, Sole-Benet Alberto, Domingo Francisco. 2016. Vertical and lateralsoil moisture patterns on a Mediterranean karst hillslope. Journal of Hydrologyand Hydromechanics, 64(3): 209-217.
53. Jiang Zhi-Yun, LiXiao-Yan*, Wu Hua-Wu, Xiao Xiong, Chen Hui-Ying, Wei Jun-Qi, 2016. Usingelectromagnetic induction method to reveal dynamics of soil water and saltduring continual rainfall events. Biosystems Engineering, 152:3-13.
54. 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 andgroundwater in the arid regions. Agricultural Water Management, 174: 30-38.
55. Wang Pei, LiXiao-Yan, Huang Yongmei, Liu Shaomin, Xu Ziwei, Wu Xiuchen, Ma Yu-Jun,2016. Numerical modeling the isotopic composition of evapotranspiration in anarid artificial oasis cropland ecosystem with high-frequency water vaporisotope measurement, Agricultural and Forest Meteorology, 230-231: 79-88.
56. Wu Huawu, LiXiao-Yan*, Li Jing, Jiang Zhiyun, Chen Huiying, Ma Yujun, Huang Yongmei.2016. Differential soil moisture pulse uptake by coexisting plants in an alpineAchnatherum splendens grassland community. Environ Earth Sci 75: 914. DOI10.1007/s12665-016-5694-2.
57. Li Zhou, Liu Dong, Li Xiao-Yan, Wu Huawu, Li Guang-Yong, Li Yue-Tan, 2016. Runoffcoefficient characteristics and its dominant influencing factors in a ripariangrassland in the Qinghai Lake watershed, NE Qinghai-Tibet Plateau. Arab JGeosci 9:397 DOI 10.1007/s12517-016-2404-z.
58. Cui Buli, LiXiao-Yan, Wei Xing-Hua. 2016. Isotope and hydrochemistry revealevolutionary processes of lake water in Qinghai Lake. Journal of Great LakesResearch 42, 580-587.
59. Li Liu, LiXiao-Yan*, Zhang Si-Yi, Jiang Zhi-Yun, Zheng Xiao-Ran, Hu Xia, HuangYong-Mei, 2016. Stemflow and its controlling factors in the subshrub Artemisiaordosica during two contrasting growth stages in the Mu Us sandy land ofnorthern China. Hydrology Research doi: 10.2166/nh.2015.253.
60. Cui Bu-Li, LiXiao-Yan. 2016. The impact of climate changes on water level of QinghaiLake in China over the past 50 years. Hydrology Research doi:10.2166/nh.2015.237.
61. Fan Ying, LiXiaoyan*, Wu Xiuchen, Li Liu, Li Wei, Huang Yongmei. 2016. Divergentresponses of vegetation aboveground net primary productivity to rainfall pulsesin the Inner Mongolian Plateau, China. Journal of Arid Environments 129, 1-8.
62. Zhang Si-Yi, LiXiao-Yan*, Zhao Guo-Qin, Huang Yong-Mei. 2016. Surface energy fluxes andcontrols of evapotranspiration in three alpine ecosystems of Qinghai Lake watershed,NE Qinghai-Tibet Plateau. Ecohydrol. 9, 267–279.
63. Wu Xiuchen, Liu Hongyan, Li Xiaoyan, Liang Eryuan, Beck Pieter S.A.，Huang Yongmei. 2016.Seasonal divergence in the interannual responses of Northern Hemispherevegetation activity to variations in diurnal climate. Scientific Reports |6:19000 | DOI: 10.1038/srep19000.
64. Hu Xia, Li Zong-Chao, Li Xiao-Yan, Liu Lian-you. 2016. Quantification of soil macroporesunder alpine vegetation using computed tomography in the Qinghai LakeWatershed, NEQinghai–Tibet Plateau. Geoderma 264, 244–251.
65. Wu Huawu, LiXiao-Yan*, Jiang Zhiyunb, Chen Huiying, Zhang Cicheng, Xiao Xiong. 2016.Contrasting water use pattern of introduced and native plants in an alpinedesert ecosystem, Northeast Qinghai–Tibet Plateau, China. Science of the TotalEnvironment 542, 182–191.
66. Wang Pei, Yamanaka Tsutomu, Li Xiao-Yan, WeiZhongwang, 2015. Partitioning evapotranspiration in a temperate grasslandecosystem: Numerical modeling with isotopic tracers, Agricultural and ForestMeteorology 208, 16-31.
67. Wang Pei, Yamanaka Tsutomu, Li Xiao-Yan, Wei Zhongwang, 2015. Partitioning evapotranspirationin a temperate grassland ecosystem: Numerical modeling with isotopic tracers,Agricultural and Forest Meteorology, 208:16-31.
68. Wu Huawu, LiXiaoyan*, Li Jing, Jiang Zhiyun, Li Guangyong, Liu Lei. 2015. Evaporativeenrichment of stable isotopes (δ18O and δD) in lake water and the relation tolake-level change of Lake Qinghai, Northeast Tibetan Plateau of China. J AridLand 2015, 7(5): 623–635.
69. Cui Bu-Li, LiXiao-Yan. 2015. Stable isotopes reveal sources of precipitation in theQinghai Lake Basin of the northeastern Tibetan Plateau. Science of the TotalEnvironment 527–528,26–37.
70. Li Yuetan, LiXiaoyan, Li Guangyong. 2015. Runoff coefficient characteristics and itsdominant influence factors of the riparianMyricaria squamosaDesv. shrubsover Qinghai Lake basin, NE Qinghai-Tibet Plateau Arab J Geosci 8, 6655–6666.
71. Cui Bu-Li, LiXiao-Yan. 2015. Runoff processes in the Qinghai Lake Basin, NortheastQinghai-Tibet Plateau, China: Insights from stable isotope and hydrochemistryQuaternary International 380-381,123-132.
72. Zhang Si-Yi, LiXiao-Yan*, Li Liu, Huang Yong-Mei, Zhao Guo-Qin, Chen Hui-Ying. 2015. Themeasurement and modeling of stemflow in an alpine Myricaria squamosa community.Hydrological Processes, 29, 889–899.
73. Zhang Si-Yi, LiXiao-Yan*, Ma Yu-Jun, Zhao Guo-Qin, Li Liu, Chen Ji, Jiang Zhi-Yun, HuangYong-Mei. 2014. Interannual and seasonal variability in evapotranspiration andenergy partitioning over the alpine riparian shrub Myricaria squamosa Desv. onQinghai-Tibet Plateau. Cold Regions Science and Technology, 102: 8-20.
74. Wu H.W., Zhang X.P., Li X.Y., Li G. Huang Y.M. 2014. Seasonal variations of deuteriumand oxygen-18 isotopes and their response to moisture source for precipitationevents in the subtropical monsoon region. Hydrol. Process. DOI:10.1002/hyp.10132.
75. Cui Bu-Li, LiXiao-Yan. 2014. Characteristics of stable isotopes and hydrochemistry ofriver water in the Qinghai Lake Basin, northeast Qinghai-Tibet Plateau, China.Environ Earth Sci DOI 10.1007/s12665-014-3707-6.
76. H.-J. Vogel, B. Clothier, X.-Y. Li, H.S. Lin, 2013.Hydropedology-A Perspective on CurrentResearch. Vadose Zone Journal, 2013.doi:10.2136/vzj2013.09.0161
77. Li Xiao-Yan*, Zhang SY,Peng HY, Hu X, Ma YJ., 2013. Soil water and temperature dynamics inshrub-encroached grasslands and climatic implications: Results from InnerMongolia steppe ecosystem of north China. Agricultural and Forest Meteorology,171, 20-30.
78. Li Xiao-Yan, Hu X., ZhangZ.H., Peng H.Y., Zhang S.Y., Li G.Y., Li L., Ma Y.J., 2013. Shrubhydropedology: Preferential water availability to deep soil layer. Vadose ZoneJ. doi:10.2136/vzj2013.01.0006.
79. Peng H.Y., LiXiao-Yan*, Li Guang-Yong, Zhang Z.H.., Zhang S.Y., Li L., Zhao G.Q., JiangZ.Y., Ma Y.J., 2013. Shrub encroachment with increasing anthropogenicdisturbance in the semiarid Inner Mongolian grasslands of China. Catena 109,39-48.
80. Zhang Z.H., LiXiao-Yan*, Jiang ZY, Peng HY, Li L, Zhao GQ., 2013. Changes in some soilproperties induced by re-conversion of cropland into grassland in the semiaridsteppe zone of Inner Mongolia, China. Plant and Soil, DOI10.1007/s11104-013-1772-3.
81. Cui B.L., LiXiao-Yan*, 2013. Characteristics of stable isotope and hydrochemistry ofthe groundwater around Qinghai Lake, NE Qinghai-Tibet Plateau, China. EnvironEarth Sci DOI 10.1007/s12665-013-2520-y.
82. Jiang Z.Y., LiXiao-Yan*, Ma Y.J., 2013. Water and Energy Conservation of RainwaterHarvesting System in the Loess Plateau of China. Journal of IntegrativeAgriculture 12(8), 1389-1395.
83. Zhang S.Y., Li X.Y., Peng H.Y., Zhang Z.H., 2012.Infiltration pattern beneath shrub canopy and interspace grass patches intypical steppe ecosystem of Inner Mongolia, China. Journal of Earth Environment3(6), 1117-1125.
84. Li, Xiao-Yan, Sergio Contreras, Albert Solé-Benet,et al., 2011. Controls of infiltration–runoff processes in Mediterranean karstrangelands in SE Spain, Catena, 86: 98–109.
85. Wang Jian-Hua, Tian Jing-Han, *Li Xiao-Yan, MAYu-Jun, Yi Wan-Juan. 2011. Evaluation of concordance between environment andeconomy in Qinghai Lake Watershed, Qinghai- Tibet Plateau. J. Geogr. Sci.,21(5): 949-960.
86. Zhang, Q., Ma Jiong, Qiu Guoyu, Li Li, Geng Shu,Hasi E., Li Cheng, Wang Guangyi, Li Xiao-Yan, 2011. Potential energy productionfrom algae on marginal land in China. Bioresour. Technol.doi:10.1016/j.biortech. 2011.08.084.
87. Cui Bu-Li, Li Xiao-Yan, 2011. Coastline change ofthe Yellow River estuary and its response to the sediment and runoff(1976–2005). Geomorphology 127, 32-40.
88. Ma Yu-Jun, Li Xiao-Yan, 2011. Water accumulation insoil by gravel and sand mulches: Influence of textural composition andthickness of mulch layers. Journal of Arid Environments 75,432-437.
89. Li, Xiao-Yan, Yang, Z.-P., Li, Y.-T., and Lin, H.,2009. Connecting ecohydrology and hydropedology in desert shrubs: stemflow as asource of preferential flow in soils, Hydrol. Earth Syst. Sci., 13, 1133-1144.
90. 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 environmentaldegradation in Lake Qinghai watershed, northeast Qinghai-Tibet Plateau. LandDegradation & Development 20, 69-83.
91. 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 enhancementin semiarid loess region of China. Agricultural and Forest Meteorology 148,1501-1507.
92. Li, Xiao-Yan, Contreras, S., Solé-Benet, A., 2008.Unsaturated hydraulic conductivity in limestone dolines: Influence ofvegetation and rock fragments. Geoderma 145, 288–294.
93. Li, Xiao-Yan, Zhao, W. W., Song, Y.X., Wang, W.,Zhang, X.Y., 2008. Rainfall harvesting on slopes using contour furrows withplastic-covered transverse ridges for growing Caragana korshinskii in thesemiarid region of China. Agricultural Water Management 95:539-544.
94. Yang, ZhiPeng, Li, XiaoYan, Liu, LianYou, Wu,JianJun, Hasi Eerdun, Sun YongLiang, 2008. Characteristics of stemflow forsand-fixed shrubs in Mu Us sandy land, Northwest China. Chinese ScienceBulletin 53 (14), 2214-2221.
95. 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.
96. Li, Xiao-Yan, Contreras S., Solé-Benet, A., 2007.Spatial distribution of rock fragments in dolines: A case study in a semiaridMediterranean mountain-range (Sierra de Gador, SE Spain). Catena 70, 366-374.
97. 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. Winderodibility of major soils in the farming-pastoral ecotone of China. Journal ofArid Environments, 68(4), 611-623.
98. Li, Xiao-Yan, Shi, P.J.,Sun, Y.L., Tang, J., Yang,Z.P., 2006. Influence of various in situ rainwater harvesting methods on soilmoisture and growth of Tamarix ramosissima in the semiarid loess region ofChina. Forest Ecology and Management 233, 143–148.
99. Li, Xiao-Yan, Gao, S.Y., Xu, H.Y., Liu, L.Y., 2006.Growth of Caragana korshinskii using runoff-collecting microcatchments undersemiarid condition. Journal of Hydrology 328, 338-346.
100. 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.
101. Li, Xiao-Yan, Pei-Jun Shi,Liu, Lian-You, Gao,Shang-Yu, Wang, Xiong-Shi, Cheng, Liu-San. 2005. Influence of pebble size andcover on rainfall interception by gravel mulch. Journal of Hydrology, 312(1-4),70-78.
102. Li, Xiao-Yan, Liu, Lian-You, Gao, Shang-Yu, ShiPei-Jun et al., 2005. Microcatchment water harvesting for growing Tamarixramosissima in the semiarid loess region of China. Forest Ecology andManagement, 214，111-117.
103. Li, Xiao-Yan, Liu, Lian-You, Gao, Shang-Yu, Shi,Pei-Jun, Zou, Xue-Yong, E. Hasi, Yan Ping. 2005.Aeolian dust accumulatlayers byrock fragment substrata: influence of number and textural composition of pebblelayers on dust accumulation. Soil and Tillage Research, 84(2), 139-144.
104. Li, Xiao-Yan, Antonio González, Albert Solé-Benet,2005. Laboratory methods for the estimation of infiltration rate of soil crustsin the Tabernas Desert badlands. Catena, 60，255-266.
105. Li, Xiao-Yan,Xie, Zhong-Kui, Yan, Xiang-Kui, 2004. Runoff characteristics of artificialcatchment materials for rainwater harvesting in the semiarid regions of China.Agricultural Water Management 65, 211-224.
106. Li, Xiao-Yan,Liu, Lian-You, Wang, Jia-Hua. 2004. Wind tunnel simulation of aeolian sandysoil erodibility under human disturbance. Geomorphology 59, 3-11.
107.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 bydust storm and haze events. Atmospheric Environment 38, 1699–1703.
108.Li, Xiao-Yan,Liu Lian-You. 2003. Effect of gravel mulch on aeolian dust accumulation in thesemiarid region of northwest China. Soil & Tillage Research, 70, 73-81.
109.Li, Xiao-Yan,2003. Gravel-sand mulch for soil and water conservation in the semiarid loessregion of northwest China . Catena 52(2), 105-127.
110.Liu, L.Y., Gao,S.Y., Shi, P.J., Li, Xiao-Yan , Dong, Z.B. 2003. Wind Tunnel Measurements ofAdobe Abrasion by Blown Sand: Profile Characteristics in Relation to WindVelocity and Sand Flux. Journal of Arid Environments, 53,351-363.
111.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 cultivatedgrassland soils in northern China. Geoderma 115 (1-2), 55-64.
112.Li, Xiao-Yan,Gong, Jia-Dong, Gao, Qian-Zhao. 2002. Compacted microcatchment with local earthmaterials for rainwater harvesting in the semiarid region of China. Journal ofHydrology, 257(1-4): 134-144.
113.Li, Xiao-Yan,Gong, Jia-Dong. 2002. Effects of different ridge/furrow ratios and supplementalirrigation on crop production in ridge and furrow rainfall harvesting systemwith mulches. Agricultural Water Management, 54(3): 243-254.
114.Li, Xiao-Yan.2002. Effects of gravel and sand mulches on dew condensation in the semiaridregion of China. Journal of Hydrology, 260 (1-4): 151-160.
115.Li, Xiao-Yan,Liu, Lian-You, Gong, Jia-Dong. 2001. Influence of pebble mulch on soil erosionby wind and trapping capacity for windblown sediment. Soil & TillageResearch, 59 (3-4): 137-142.
116.Li, Xiao-Yan,Gong, Jia-Dong, Gao, Qian-Zhao and Li, Feng-Rui. 2001. Incorporation of ridgeand furrow method of rainfall harvesting with mulching for crop productionunder semiarid conditions. Agricultural Water Management, 50 (3), 173-183.
117.Li, F.R., Gao,C.Y., Zhao, H.L. and Li, Xao-Yan. 2001. Soil conservation effectiveness andenergy efficiency of alternative rotations and continuous wheat cropping in theLoess Plateau of northwest China. Agriculture, Ecosystems and Environment,91:134-145.
118.Li, Xiao-Yan,Gong, Jia-Dong, Gao, 2000. Rainfall interception loss by pebble mulch in thesemiarid region of China. Journal of Hydrology, 228: 165-173.
119.Li, Xiao-Yan,Gong, Jia-Dong and Wei, Xing-Hu. 2000. In-situ rainwater harvesting and gravelmulch combination for crop production in the dry semiarid region of China.Journal of Arid Environments, 46: 371-382.
120.Li, Xiao-Yan.2000. Soil and water conservation in arid and semiarid areas the Chineseexperience. Annals of Arid Zone, 39(4): 377-393.
121.Liu, Lian-You,Wang, Jian-Hua, Li, Xiao-Yan et al. 1998. Determination of erodible particleson cultivated soils by wind tunnel simulation. Chinese Science Bulletin, 43(19): 1646-1650.
Book Chapter
1. Hu GR., Li XY. (2018) Subsurface Flow. In: LiX., Vereecken H. (eds) Observation and Measurement of EcohydrologicalProcesses. Ecohydrology. Springer, Berlin, Heidelberg
2. Li XY., 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, DOI10.1007/978-981-10-1884-8_18.
3. Li XY., Lin, H., Levia, D.F., 2012. CouplingEcohydrology and Hydropedology at Different Spatio-Temporal Scales inWater-Limited Ecosystems. In: Lin, H. (Ed.), Hydropedology: SynergisticIntegration of Soil Science and Hydrology. Academic Press, Elsevier B.V., pp.737-758.
4.Li XY. 2011. Hydrologyand Biogeochemistry of Semiarid and Arid Regions. In: Levia, D.F.,Carlyle-Moses, D.E. and Tanaka, T. (Eds.), Forest Hydrology andBiogeochemistry: Synthesis of Past Research and Future Directions. EcologicalStudies Series, No. 216, Springer-Verlag, Heidelberg, Germany: pp285-299.

重要奖项
“半干旱区集雨保水与植被生态适应机制” 获2015年度高等学校科学研究优秀成果奖－自然科学二等奖（排名第1）
“青海湖流域生态水文过程与湿地恢复技术研究及应用”获2018年青海省科技进步一等奖（排名第1）

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