人才详细信息
简介
教育经历
1998.09—2002.07 清华大学水利系水利水电建筑工程专业本科学习
2002.09—2004.07 清华大学水利系水文水资源专业硕士学习
2004.10—2007.09 日本东京大学土木系水文气象专业博士学习
工作经历
2007.10—2008.03 日本科学技术振兴机构博士后
2008.04—2010.03 日本东京大学土木系博士后
2010.04—2010.11 日本东京大学地球观测数据统融合连携研究机构助教
2010.12—2011.08 日本东京大学地球观测数据统融合连携研究机构副教授
2011.08–今 中科院青藏高原研究所研究员
2014.01–今 中科院青藏高原地球科学卓越中心特聘研究员
2015.04–今 中科院大学岗位教授
2017.07–2020.03 中科院墨脱地球景观与地球系统综合观测研究中心(简称:墨脱中心)执行主任
2020.04-今 中国科学院青藏高原环境变化与地表过程重点实验室,副主任
主要学术成就
青藏高原多圈层的相互作用,导致其陆表水文循环及其演变趋势模拟和预测异常复杂。近年来自主创建了包含描述大气圈、冰冻圈、水圈、生物圈、土壤圈物理过程的青藏高原多圈层水文模型(WEB-DHM),基于焓的理论创新了冰冻圈水文物理过程计算方法。结合观测、遥感和过程模型,系统揭示了气候变化背景下青藏高原西风-季风区河流径流和湖泊水储量的变化特征和机理,量化了降水、蒸发、冰雪、冻土、植被等不同因子的贡献。基于以上成果,已在国际水文气象领域主流期刊发表SCI论文100余篇,主编二次青藏科考水文学专著1部。研究成果被IPCC报告和Science等期刊引用。
研究方向
多圈层(大气圈-生物圈-冰冻圈-水圈)水文过程、分布式水文模型、气候变化
职务
社会任职
2020—今: 中国青藏高原研究会,理事。
2019—今: IAHS中国委员会冰雪水文分委会,委员。2018—今: 第二次青藏科考成果评估与出版委员会,委员。
2018—2019:中德前沿科学研讨会,中方召集人(地球科学领域)。
2017—今: 中国地理学会水文地理专业委员会,委员。2016—今: 中国冰冻圈科学学会,理事。
2023—今: SCI期刊《npj Climate and Atmospheric Science》,客座编辑。
2022—今:SCI期刊《Frontiers in Earth Science》,副编辑。
2021—今:中文核心期刊《生态学杂志》,编委。2020—今:中文核心期刊《水利水电技术》,特邀编委。2011—2012:SCI期刊《Journal of Meteorological Society of Japan》专刊编委。
2008—2010:JICA中日气象灾害合作研究中心,专家组成员。基金委-中科院“中国学科及前沿领域发展战略研究(2021-2035)”之《水循环与水资源战略研究》,冰冻圈水文方向主笔人。基金委地学部《地理科学三十年:从经典到前沿》3.2节“陆地水循环与水资源”,主要撰稿人。国内外基金项目评审人:国家自然科学基金、瑞士国家科学基金、智利科技研发项目等。
承担项目
(1) 2018-2021,气候变化驱动下雅鲁藏布江冰川冻土植被协同变化及其径流效应。国家自然科学基金重点项目,项目负责人。
(2) 2016-2019,党河上游寒区水文过程的观测与模拟研究。国家自然科学基金面上项目,项目负责人。
(3) 2014-2016,青藏高原水文学。国家优秀青年科学基金项目,项目负责人。
(4) 2018-2023,西风-季风区径流变化及其影响。中国科学院A类战略性先导科技专项“泛第三极环境变化与绿色丝绸之路建设”,子课题负责人。
(5) 2018-2022,三极水与生态时空动态。中国科学院A类战略性先导科技专项“地球大数据科学工程”,课题负责人。
获奖及荣誉
中国青藏高原青年科技奖(2018),中国青藏高原研究会。
全国向上向善好青年(创新创业类,2018),共青团中央。
全国优秀科技工作者 (2016),中国科学技术协会。
中科院“国外引进杰出人才”计划终期评估优秀 (2016),中国科学院。
国家青年拔尖人才计划 (2015),中共中央组织部。
国家优秀青年科学基金 (2013),国家自然科学基金委。
清华大学优良毕业生 (2002),清华大学。
清华大学“伍舜德”综合一等奖学金 (2001),清华大学。
代表论著
(1)Wang, L.*, H. Liu, X. Zhong, J. Zhou, L. Zhu, T. Yao, C. Xie, J. Ju, D. Chen, K. Yang, L. Zhao, S. Lu, S. Khanal, J. Jin, W. Liu, B. Liu, Y. Du, X. Yao, Y. Lei, G. Zhang, and S. Nepal (2022), Domino effect of a natural cascade alpine lake system on the Third Pole, PNAS-Nexus, https://academic.oup.com/pnasnexus/advance-article-abstract/doi/10.1093/pnasnexus/pgac053/6586351. (SCI)
(2) Wang, L.*, L. Cuo, D. Luo, F. Su, Q. Ye, T. Yao, J. Zhou, X. Li, N. Li, H. Sun, L. Liu, Y. Wang, T. Zeng, Z. Hu, R. Liu, C. Chai, G. Wang, X. Zhong, X. Guo, H. Zhao, H. Zhao, and W. Yang (2022). Observing multi-sphere hydrological changes in the largest river basin of the Tibetan Plateau. Bulletin of the American Meteorological Society, Published-online: 11 Apr 2022. https://doi.org/10.1175/BAMS-D-21-0217.1 (SCI).
(3) Zhou, J.*, L. Wang*, X. Zhong, T. Yao, J. Qi, Y. Wang, and Y. Xue (2022), Quantifying the major drivers for the expanding lakes in the interior Tibetan Plateau, Science Bulletin. https://doi.org/10.1016/j.scib.2021.11.010. (SCI)
(4) An, B.*, W. Wang*, W. Yang*, G. Wu, Y. Guo, H. Zhu, Y. Gao, L. Bai, F. Zhang, C. Zeng, L. Wang, J. Zhou, X. Li, J. Li, Z. Zhao, Y. Chen, J. Liu, J. Li, Z. Wang, W. Chen, and T. Yao (2021), Process, mechanisms, and early warning of glacier collapse-induced river blocking disasters in the Yarlung Tsangpo Grand Canyon, southeastern Tibetan Plateau, Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2021.151652. (SCI)
(5) Wang, Y., L. Wang*, J. Zhou, T. Yao, W. Yang, X. Zhong, R. Liu, Z. Hu, L. Luo, Q. Ye, N. Chen, and H. Ding (2021). Vanishing glaciers at southeast Tibetan Plateau have not offset the declining runoff at Yarlung Zangbo. Geophysical Research Letters, 48, e2021GL094651. https://doi.org/10.1029/2021GL094651 (SCI).
(6) Xue, B., D. Helman, G. Wang*, C. Xu, J. Xiao, T. Liu, L. Wang, X. Li, L. Duan, H. Lei (2021), The low hydrologic resilience of Asian Water Tower basins to adverse climatic changes, Advances in Water Resources, 155, 103996. https://doi.org/10.1016/j.advwatres.2021.103996. (SCI)
(7) Y. Yin, D. Lin, L. Wang*, J. Wang* (2021), Mapping the Global-Scale Maize Drought Risk under Climate Change Based on the GEPIC-Vulnerability-Risk Model, International Journal of Disaster Risk Science, DOI: 10.1007/s13753-021-00349-3. (SCI)
(8) 胡宝怡,王磊*(2021),陆地水储量变化及其归因:研究综述及展望,水利水电技术,1-16. https://kns-cnki-net.webvpn.las.ac.cn/kcms/detail/ 10.1746.TV.20210329.0936.002.html.
(9) Wang, L*, Yao, TD, Chai, CH, Cuo, L, Su, FG, Zhang, F, Yao, ZJ, Zhang, YS, Li, XP, Qi, J, Hu, ZD, Liu, JS, and Wang, YW (2021). TP-River: Monitoring and quantifying total river runoff from the Third Pole, Bulletin of the American Meteorological Society. 102(5), E948-E965. https://doi.org/10.1175/BAMS-D-20-0207.1 (SCI).
(10) Wang, L.*, C. Song, T. Conradt, M. Rasmy, X. Li, Editorial: Climatic and Associated Cryospheric and Hydrospheric Changes on the Third Pole (2021), Frontiers in Earth Science. doi: 10.3389/feart.2020.638371 (SCI).
(11) Hu, B., L. Wang*, X. Li, J. Zhou, Y. Pan (2020), Divergent changes in terrestrial water storage across global arid and humid basins, Geophysical Research Letters, 48, e2020GL091069. https://doi.org/10.1029/2020GL091069 (SCI).
(12)Yuanwei Wang,Lei Wang*, Xiuping Li, Jing Zhou, Zhidan Hu (2020), An integration of gauge, satellite and reanalysis precipitation datasets for the largest river basin of the Tibetan Plateau,Earth System Science Data, 12, 1789–1803, https://doi.org/10.5194/essd-12-1789-2020. (SCI)
(13) Song, L., L. Wang*, X. Li, J. Zhou, D. Luo, H. Jin, T. Zeng, and Y. Yin (2020), Improving permafrost physics in a distributed cryosphere-hydrology model and its evaluations at the upper Yellow River Basin. Journal of Geophysical Research: Atmospheres, 125, e2020JD032916. https://doi.org/10.1029/2020JD032916.
(14) Yufeng Dai*, Deliang Chen, Tandong Yao, Lei Wang* (2020), Large lakes over the Tibetan plateau may boost snow downwind: Implications for snow disaster, Science Bulletin, 65, 1713-1717. (SCI)
(15) Yuanyuan Yin, Lei Wang*, Zhongjing Wang, Qiuhong Tang, Shilong Piao, Deliang Chen, Jun Xia, Tobias Conradt, Junguo Liu, Yoshihide Wada, Ximing Cai, Zhenghui Xie, Qingyun Duan, Xiuping Li, Jing Zhou, Jianyun Zhang (2020), Quantifying Water Scarcity in northern China within the context of Climatic and Societal Changes and South-to-North Water Diversion, Earth’s Future. 8, e2020EF001492. https://doi.org/10.1029/2020EF001492. (SCI)
(16) Liu, L., D. Luo*, L. Wang, Y. Huang, F. Chen (2020), Dynamics of frozen ground from 1900 to 2017 in the upper Brahmaputra RiverBasin, Tibetan Plateau as indicated by freezing and thawing indices, Advances in Climate Change Research, 12, 6-17. https://doi.org/10.1016/j.accre.2020.10.003, 2021 (SCI).
(17) Giri Kattel, Jessica Reeves, Andrew Western, Wenjing Zhang, Wei Jing, Suzanne McGowan, Lan Cuo, Peter Scales, Kim Dowling, Qiang He, Lei Wang, Samantha Capon, Zenghui Pan, Jiansheng Cui, Lulu Zhang, Luo Xiao, Chun Liu, Ke Zhang, Chuanyu Gao, Zaifeng Tian, Yongding Liu (2020), Healthy waterways and ecologically sustainable cities in Beijing-Tianjin-Hebei urban agglomeration (Northern China): Challenges and future directions, WIRES Water, e1500, https://dx.doi.org/10.1002/wat2.1500 (SCI).
(18) Dai, Y.*, T. Yao, L. Wang*, X. Li, X. Zhang (2020). Contrasting roles of a large alpine lake on Tibetan Plateau in shaping regional precipitation during summer and autumn. Frontiers in Earth Science. 8:358. doi: 10.3389/feart.2020.00358 (SCI)
(19) Tian Zeng, Lei Wang*, Xiuping Li, Lei Song, Xiaotao Zhang, Jing Zhou, Bing Gao, Ruishun Liu (2020), A new and simplified approach for estimating daily river discharge of the Tibetan Plateau using satellite precipitation: an initial study at the upper Brahmaputra River, Remote Sensing, 12, 2103; doi:10.3390/rs12132103 (SCI)
(20) Lei Liu, Dongliang Luo*, Lei Wang, Yadong Huang, Fangfang Chen (2020), Variability of soil freeze depth in association with climate change from 1901 to 2016 in the upper Brahmaputra River Basin, Tibetan Plateau, Theoretical and Applied Climatology. https://doi.org/10.1007/s00704-020-03291-4 (SCI)
(21)Xiaoyang Zhong,Lei Wang*, Jing Zhou, Xiuping Li, Jia Qi, Lei Song, Yuanwei Wang (2020), Precipitation Dominates Long-Term Water Storage Changes in Nam Co Lake (Tibetan Plateau) Accompanied by Intensified Cryosphere Melts Revealed by a Basin-Wide Hydrological Modelling,Remote Sensing, 12(12), 1926; doi:10.3390/rs12121926. (SCI)
(22) Xin Li*, Tao Che, Xinwu Li, Lei Wang, Anmin Duan, Donghui Shangguan, Xiaoduo Pan, Miao Fang, Qing Bao (2020), CASEarth Poles: Big Data for the Three Poles. Bulletin of the American Meteorological Society, E1475, https://doi.org/10.1175/BAMS-D-19-0280.1. (SCI)
(23) Kebede, M.G., L. Wang*; K. Yang, D. Chen, X. Li, T. Zeng, Z. Hu(2020), Discharge Estimates for Ungauged Rivers Flowing over Complex High-Mountainous Regions Based Solely on Remote Sensing-Derived Datasets. Remote Sensing, 12, 1064, doi:10.3390/rs12071064. (SCI)
(24) 范新凤,韩美*,王磊,李秀萍,周璟(2020)。小清河入海口近十年水质变化及驱动因素分析。环境科学,41(4),1619-1628。DOI:10.13227/j.hjkx.201909074。
(25) Dibit A., L. Wang*, Tirthal R A, J. Zhou, X. Li, Maheswor S, Y. Wang, D. Chen (2020). Model-Based Flood Hazard Mapping on the Southern Slope of Himalaya.Water, 12(2). 540; https://doi.org/10.3390/w12020540. (SCI)
(26) Kebede, M. G., L. Wang*, X. Li, Z. Hu(2020). Remote sensing-based river discharge estimation for a small river flowing over the high mountain regions of the Tibetan Plateau. International Journal of Remote Sensing, 41(9):3322-3345. (SCI)
(27) Wang, L.*, A.W. Sichangi, T. Zeng, X. Li, Z. Hu, M. Genanu (2019), New methods designed to estimate the daily discharges of rivers in the Tibetan Plateau, Science Bulletin, 64, 418-421. (SCI)
(28) Qi J., L. Wang*, J. Zhou, L. Song,X. Li, T. Zeng (2019). Coupled Snow and Frozen Ground Physics Improves Cold Region Hydrological Simulations: An Evaluation at the Upper Yangtze River Basin (Tibetan Plateau). Journal of Geophysical Research: Atmospheres, 124(33): 12985-13004. (SCI)
(29) Mao R J., L. Wang*, J Zhou, X. Li, J Qi, X T Zhang (2019). Evaluation of Various Precipitation Products Using Ground-Based Discharge Observation at the Nujiang River Basin, China. Water, 11(11), 2308.
(30)Bibi, S.,L. Wang*,X. Li, X. Zhang, D. Chen (2019). Responses of groundwater storage and recharge in the Qaidam Basin (Tibetan Plateau) to climate variations from 2002 to 2016. Journal of Geophysical Research-Atmospheres, 123, https://doi.org/10.1029/2019JD030411. (SCI)
(31) Zeng, T., L. Wang*, Z. Zhang, Q. Wen, X. Wang, L. Yu (2019), An integrated land cover mapping method suitable for low-accuracy areas in global land cover maps. Remote Sensing, 11, 1777. (SCI)
(32) 汤秋鸿, 兰措, 苏凤阁, 刘星才,孙赫,丁劲,王磊 等. 青藏高原河川径流变化及其影响研究进展. 科学通报, 2019, 64
Tang Q H, Lan C, Su F G, Liu X C, Sun H, Ding J, Wang L et al. Streamflow change on the Qinghai-Tibet Plateau and its impacts (in Chinese). Chin Sci Bull, 2019, 64, doi: 10.1360/TB-2019-0141.
(34) Sichangi, A.W., L. Wang*, Z. Hu (2018). Estimation of river discharge solely from remote-sensing derived data: an initial study over the Yangtze River. Remote Sensing, 10, 1385. (SCI)
(35) Wang, Y., L. Wang*, X. Li, D. Chen (2018). Temporal and spatial changes in estimated near-surface air temperature lapse rates on Tibetan Plateau. International Journal of Climatology, 38, 2907-2921. (SCI)
(36) Bibi, S., L. Wang*, X. Li, J. Zhou, D. Chen, and T. Yao (2018). Climatic and associated cryospheric, biospheric, and hydrological changes on the Tibetan Plateau: a review. International Journal of Climatology, 38 (Suppl.1): e1-e17. (SCI)
(37) Yao, T., Y. Xue*, D. Chen, F. Chen, L. Thompson, P. Cui, T. Koike, W. Lau, D.Lettenmaier, V. Mosbrugger, R. Zhang, B. Xu, J. Dozier, T. Gillespie, Y. Gu, S.Kang, S. Piao, S. Sugimoto, K. Ueno, L. Wang, W. Wang, F. Zhang, Y. Sheng, W. Guo, W. Ailikun, X. Yang, Y. Ma, S. Shen, Z. Su, F. Chen, S. Liang, Y. Liu, V. Singh, K. Yang, D. Yang, X. Zhao, Y. Qian, Y. Zhang, Q. Li (2018). Recent Third Pole’s rapid warming accompanies cryospheric melt and water cycle intensification and interactions between monsoon and environment: multi-disciplinary approach with observation, modeling and analysis. Bulletin of the American Meteorological Society, 100(3), 423-444. (SCI)
(38) Liu, W., Wang, L., Sun, F., Li, Z., Wang, H., Liu, J., et al (2018). Snow hydrology in the upper Yellow River basin under climate change: A land surface modeling perspective. Journal of Geophysical Research: Atmospheres, 123. https://doi.org/10.1029/2018JD028984, in press. (SCI)
(39) Lei, Y.*, T. Yao, K. Yang, B.W. Bird, L. Tian, X. Zhang, W. Wang, Y. Xiang, Y. Dai, L. Zhu, J. Zhou, L. Wang (2018), An integrated investigation of lake storage and water level changes in the Paiku Co basin, central Himalayas, Journal of Hydrology, 562, 599-608 . (SCI)
(40) Dong, W., Y. Lin, J.S. Wright, Y. Xie, Y. Ming, H. Zhang, R. Chen, Y. Chen, F. Xu, N. Lin, C. Yu, B. Zhang, S. Jin, K. Yang, Z. Li, J. Guo, L. Wang, G. Lin (2018). Regional disparities in warm season rainfall changes over arid eastern-central Asia. Scientific Reports, 8, 13051. (SCI)
(41) Dai, Y., L. Wang, T. Yao*, X. Li, L. Zhu, X. Zhang (2018). Observed and simulated lake effect precipitation over the Tibetan Plateau: An initial study at Nam Co Lake. Journal of Geophysical Research: Atmospheres, 123, 6746–6759. (SCI)
(42) 杨大文*,徐宗学,李哲,袁星,王磊,缪驰远,田富强,田立德,龙笛,汤秋鸿*,刘星才,张学君 (2018)。水文学研究进展与展望。地理科学进展,37 (1),36- 45。
(43) Guo, X., L. Wang*, L. Tian, X. Li (2017). Elevation-dependent reductions in wind speed over and around the Tibetan Plateau. International Journal of Climatology, 37, 1117-1126. (SCI)
(44) Wang, L.*, J. Zhou*, J. Qi, L. Sun, K. Yang, L. Tian, Y. Lin, W. Liu, M. Shrestha, Y. Xue, T. Koike, Y. Ma, X. Li, Y. Chen, D. Chen, S. Piao, and H. Lu (2017). Development of a land surface model with coupled snow and frozen soil physics. Water Resources Research, 53, 5085–5103. (SCI)
(45) Zhang, G.*, T. Yao, C.K. Shum, S. Yi, K. Yang, H. Xie, W. Feng, T. Bolch, L. Wang, A. Behrangi, H. Zhang, W. Wang, Y. Xiang, J. Yu (2017). Lake volume and groundwater storage variations in Tibetan Plateau’s endorheic basin. Geophysical Research Letter, 44, 5550–5560. (SCI)
(46) Li, J., D. Liu, T. Wang*, Y. Li*, S. Wang, Y. Yang, X. Wang, H. Gao, S. Peng, J. Ding, M. Shen, and L. Wang (2017). Grassland restoration reduces water yield in the headstream region of Yangtze River. Scientific Reports, 7(0), 2162. (SCI)
(47) Guo, X., L. Tian*, L. Wang, W. Yu, D. Qu (2017). River recharge sources and the partitioning of catchment evapotranspiration fluxes as revealed by stable isotope signals in a typical high-elevation arid catchment. Journal of Hydrology, 549, 616–630. (SCI)
(48) Ding, B.*, K. Yang*, W. Yang, X. He, Y. Chen, Lazhu, X. Guo, L. Wang, H. Wu, T. Yao (2017). Development of a Water and Enthalpy Budget-based Glacier mass balance Model (WEB-GM) and its preliminary validation. Water Resources Research, 53, 3146–3178. (SCI)
(49) Li, X.*, L. Wang, X. Guo, D. Chen (2017). Does summer precipitation trend over and around the Tibetan Plateau depend on elevation? International Journal of Climatology, 37 (Suppl.1): 1278–1284. (SCI)
(50) Wang, L.*, L. Sun, M. Shrestha, X. Li, W. Liu, J. Zhou, K. Yang, H. Lu, D. Chen (2016b). Improving Snow Process Modeling with Satellite-Based Estimation of Near-Surface-Air-Temperature Lapse Rate. Journal of Geophysical Research-Atmospheres, 121, 12005–12030. (SCI)
(51) Makokha, G.O., L. Wang*, J. Zhou, X. Li, A. Wang, G. Wang, D. Kuria (2016). Quantitative Drought Monitoring in a Typical Cold River Basin over Tibetan Plateau: an integration of meteorological, agricultural and hydrological droughts. Journal of Hydrology, 543, 782–795. (SCI)
(52) Sichangi, A. W., L. Wang*, K. Yang, D. Chen, Z. Wang, X. Li, J. Zhou, W. Liu, D. Kuria (2016). Estimating continental river basin discharges using multiple remote sensing data sets. Remote Sensing of Environment, 179, 36-53. (SCI)
(53) Liu, W., L. Wang*, J. Zhou, Y. Li, F. Sun, G. Fu, X. Li, Y. Sang (2016). A worldwide evaluation of basin-scale evapotranspiration estimates against the water balance method. Journal of Hydrology, 538, 82-95, doi:10.1016/j.jhydrol.2016.04.006. (SCI)
(54) Wang, L.*, X. Li*, Y. Chen, K. Yang, D. Chen, J. Zhou, W. Liu, J. Qi, J. Huang (2016a). Validation of the Global Land Data Assimilation System based on measurements of soil temperature profiles. Agricultural and Forest Meteorology, 218, 288–297. (SCI)
(55) Guo, X.*, L. Wang, L. Tian (2016). Spatio-temporal variability of vertical gradients of major meteorological observations around the Tibetan Plateau. International Journal of Climatology, 36, 1901-1916. (SCI)
(56) Zhou, J.*, L. Wang, Y. Zhang, Y. Guo, D. He (2016). Spatiotemporal variations of actual evapotranspiration over the Lake Selin Co and surrounding small lakes (Tibetan Plateau) during 2003–2012. Science China-Earth Sciences, 59(12), 2441-2453. (SCI)
(57) Dong, W., Y. Lin*, J. Wright, Y. Ming, Y. Xie, B. Wang, Y. Luo, W. Huang, J. Huang, L. Wang, L. Tian, Y. Peng, F. Xu (2016). Summer rainfall over the southwestern Tibetan Plateau controlled by deep convection over the India. Nature Communications, 7, 10925. (SCI)
(58) Bao, H.*, T. Koike, K. Yang, L. Wang, M. Shrestha, P. Lawford (2016). Development of an enthalpy-based frozen soil model and its validation in a cold region in China. Journal of Geophysical Research-Atmospheres, 121, 5259–5280. (SCI)
(59) Y. Shibuo*, E. Ikoma, O.S. Valeriano, L. Wang, P. Lawford, M. Kitsuregawa, T. Koike (2016). Implementation of real-time flood prediction and its application to dam operations by data integration analysis system. Journal of Disaster Research, 11(6), 1-10.
(60) W. Liu*, L. Wang, D. Chen, K. Tu, C. Ruan, Z. Hu (2016). Large-scale circulation classification and its links to observed precipitation in the eastern and central Tibetan Plateau. Climate Dynamics, 46, 3481–3497. (SCI)
(61) Zhou, J., L. Wang*, Y. Zhang, Y. Guo, X. Li, and W. Liu (2015). Exploring the water storage changes in the largest lake (Selin Co) over the Tibetan Plateau during 2003-2012 from a basin-wide hydrological modeling. Water Resources Research, 51, 8060–8086. (SCI)
(62) W. Liu*, A. Zhang, L. Wang, G. Fu, D. Chen, C. Liu, and T. Cai (2015). Projecting the future climate impacts on streamflow in Tangwang River basin (China) using a rainfall generator and two hydrological models. Climate Research, 62, 79-97. (SCI)
(63) Shrestha, M., T. Koike, Y. Hirabayashi, Y. Xue, L. Wang, G. Rasul, and B. Ahmad (2015), Integrated simulation of snow and glacier melt in water and energy balance-based, distributed hydrological modeling framework at Hunza River Basin of Pakistan Karakoram region, Journal of Geophysical Research-Atmospheres, 120, 4889–4919. (SCI)
(64) Z. Hu*, L. Wang, Z. Wang, Y. Hong, and H. Zheng (2015). Quantitative assessment of climate and human impacts on surface water resources in a typical semi-arid watershed in the middle reaches of the Yellow River from 1985 to 2006. International Journal of Climatology, 35, 97–113. (SCI)
(65) Yang, H., S. Piao, Z. Zeng, P. Ciais, Y. Yin, P. Friedlingstein, S. Sitch, A. Ahlstrom, M. Guimberteau, C. Huntingford, S. Levis, P.E. Levy, M. Huang, Y. Li, X. Li, M.R. Lomas, P. Peylin, B. Poulter, N. Viovy, S. Zaehle, N. Zeng, F. Zhao, Lei Wang (2015). Multicriteria evaluation of discharge simulation in Dynamic Global Vegetation Models. Journal of Geophysical Research-Atmospheres, 120, 7488–7505. (SCI)
(66) Wang, L.*, T. Koike, M. Ikeda, C.T. Nyunt, D.N. Tinh, O. Saavedra, T.V. Sap, L.C. Nguyen, K. Tamagawa, T. Ohta (2014). Optimizing multidam releases in large river basins by combining distributed hydrological inflow predictions with rolling-horizon decision making. Journal of Water Resources Planning and Management,140(10), https://doi.org/10.1061/(ASCE)WR.1943-5452.0000452. (SCI)
(67) Li, X.*, L. Wang, D.-L. Chen, K. Yang, A. Wang (2014). Seasonal evapotranspiration changes (1983-2006) of four large basins on the Tibetan Plateau. Journal of Geophysical Research-Atmospheres, 119,13079–13095. (SCI)
(68) Shrestha, M.*, L. Wang, T. Koike, H. Tsutsui, Y. Xue, and Y. Hirabayashi (2014). Correcting basin-scale snowfall in a mountainous basin using a distributed snowmelt model and remote sensing data. Hydrology and Earth System Sciences. 18, 747–761. (SCI)
(69) Ding, B., K. Yang, J. Qin, L. Wang, Y. Chen, X. He (2014). The dependence of precipitation types on surface elevation and meteorological conditions and its parameterization. Journal of Hydrology, 513, 154-163. (SCI)
(70) Yang, K.*, H. Wu, Y. Chen, J. Qin, L. Wang (2014), Toward a satellite-based observation of atmospheric heat source over land, , Journal of Geophysical Research-Atmospheres, 119, 3124–3133. (SCI)
(71) Shrestha, M.*, T. Koike, L. Wang, H. Tsutsui, Y. Xue, Y. Hirabayashi (2014). Optimizing snowfall correction factor for Radar-AMEDAS precipitation using distributed snow model (WEB-DHM-S) and MODIS snow cover data. Journal of Japan Society of Civil Engineers (B1), 70(4), I_223-I_228.
(72) Shibuo, Y.*, E. Ikoma, O. Saavedra, L. Wang, P. Koudelova, M. Kitsuregawa, T. Koike (2014), Development of operational realtime ensemble flood forecast system, Annual Journal of Hydraulic Engineering-JSCE, 58.
(73) 王磊*,李秀萍,周璟,刘文彬,阳坤(2014),青藏高原水文模拟的现状及未来,地球科学进展,29(6),674-682。
(74) Xue, B., L. Wang*, K. Yang, L. Tian, J. Qin, Y. Chen, L. Zhao, Y. Ma, T. Koike, Z. Hu, X. Li (2013b), Modeling the land surface water and energy cycles of a mesoscale watershed in the central Tibetan Plateau during summer with a distributed hydrological model, Journal of Geophysical Research-Atmospheres, 118, 8857–8868. (SCI)
(75) Xue, B., L. Wang*, X. Li, K. Yang, D. Chen, L. Sun (2013a). Evaluation of evapotranspiration estimates for two river basins in Tibetan Plateau by a water balance method. Journal of Hydrology, 492, 290-297. (SCI)
(76) Li, X., L. Wang*, D. Chen, K. Yang, B. Xue, L. Sun (2013). Near-surface air temperature lapse rates in the mainland China during 1962-2011. Journal of Geophysical Research-Atmospheres, 118, 7505–7515. (SCI)
(77) Zhang, Y.*, G. Cheng, X. Li, X. Han, L. Wang, H. Li, X. Chang, G.N. Flerchinger (2013). Coupling of a simultaneous heat and water model with a distributed hydrological model and evaluation of the combined model in a cold region watershed. Hydrological Processes, 27, 3762-3776. (SCI)
(78) Shrestha, M.*, T. Koike, L. Wang, K. Yoshimura (2013). Long-term (1948-2006) simulation of snow depth at Yagizawa dam site using JP10 reanalysis and energy balance snow model (WEB-DHM-S). Annual Journal of Hydraulic Engineering-JSCE, 57.
(79) Wang, L.*, T. Koike, M. Wang, J. Liu, J. Sun, H. Lu, H. Tsusui, K. Tamagawa, X. Xu (2012). Use of integrated observations to improve 0-36h flood forecasting: development and application of a coupled atmosphere-hydrology system in the Nanpan River Basin, China. Journal of Meteorological Society of Japan, 90C, 131-144. (SCI)
(80) Wang, F.*, L. Wang, H. Zhou, O. Saavedra, T. Koike, W. Li (2012). Ensemble hydrological prediction based real-time optimization of multi-objective reservoir during flood season in a semiarid basin with global numerical weather predictions. Water Resources Research, 48, W07520. (SCI,)
(81) Shrestha, M.*, L. Wang, T. Koike, Y. Xue, and Y. Hirabayashi (2012). Modeling the spatial distribution of snow cover in the Dudhkoshi region of the Nepal Himalayas. Journal of Hydrometeorology, 13, 204-222. (SCI)
(82) Shrestha, M.*, L. Wang, Y. Hirabayashi T. Koike (2012). Simulation of forest snow processes at Fraser with an energy balance based snow melt model (WEB-DHM-S). Journal of Japan Society of Civil Engineers (B1), 68(4),I_229-I_234.
(83) Mutua, F.*, L. Wang, A. Yamamoto, T. Nemoto, M. Kitsuregawa, T. Koike (2012). Regional climate change and its impacts on future discharges and flow characteristics of the Nyando Basin, Kenya. Journal of Japan Society of Civil Engineers (B1), 68(4),I_205-I_210.
(84) Jaranilla-Sanchez, P.A.*, L. Wang, K. Tamagawa, I. Hasegawa, H. Yamatomo, T. Koike (2012). Integrated Modeling of Climate change impacts in the Yoshino River Basin, Japan for Basin Management Planning. Journal of Japan Society of Civil Engineers (B1), 68(4),I_133-I_138.
(85) Duran-Ballen, S.A.*, M. Shrestha, L. Wang, K. Yoshimura, T. Koike (2012). Snow Cover Modeling at the Puna Tsang River Basin in Bhutan with corrected JRA25 temperature. Journal of Japan Society of Civil Engineers (B1), 68(4),I_235-I_240.
(86) Wang, F.*, L. Wang, T. Koike, H. Zhou, K. Yang, A. Wang, W. Li (2011). Evaluation and application of a fine-resolution global dataset in a semiarid mesoscale river basin with a distributed biosphere hydrological model. Journal of Geophysical Research-Atmospheres, 116, D21108. (SCI)
(87) Jaranilla-Sanchez, P.A.*, L. Wang, T. Koike (2011). Modeling the hydrologic responses of the Pampangga River Basin in the Philippines: A quantitative approach for identifying droughts. Water Resources Research, 47, W03514. (SCI)
(88) Shrestha, M.*, L. Wang, T. Koike (2011). Simulation of interannual variability of snow cover at Valdai (Russia) using a distributed biosphere hydrological model with improved snow physics. Annual Journal of Hydraulic Engineering-JSCE, 55, 73-78. (Best Paper Award of International Session)
(89) Ueda, T.*, T. Koike, L. Wang (2011). Application of a distributed hydrological model and satellite observations for soil moisture and groundwater level simulation. Annual Journal of Hydraulic Engineering-JSCE, 55, 373-378.
(90) Wang, L.*, C.T. Nyunt, T. Koike, O. Saavedra, L.C. Nguyen, T.V. Sap (2010c). Development of an integrated modeling system for improved multi-objective reservoir operation. Frontiers of Architecture and Civil Engineering, 4(1), 47-55.
(91) Wang, L.*, Z. Wang, T. Koike, H. Yin, D. Yang, S. He (2010b). The assessment of surface water resources for the semi-arid Yongding River Basin from 1956 to 2000 and the impact of land use change. Hydrological Processes, 24, 1123-1132. (SCI)
(92) Wang, L.*, T. Koike, K. Yang, R. Jin, H. Li (2010a). Frozen soil parameterization in a distributed biosphere hydrological model. Hydrology and Earth System Sciences, 14, 557-571. (SCI)
(93) Shrestha, M.*, L. Wang, T. Koike, Y. Xue, Y. Hirabayashi (2010). Improving the snow physics of WEB-DHM and its point evaluation at the SnowMIP sites. Hydrology and Earth System Sciences, 14, 2577-2594. (SCI)
(94) Saavedra, O.*,T. Koike, K. Yang, T. GRAF, X. Li, L. Wang, X. Han (2010). Decision support for dam release during floods using a distributed biosphere hydrological model driven by quantitative precipitation forecasts. Water Resources Research, 46, W10544. (SCI)
(95) Saavedra, O.*, T. Koike, L. Wang (2010). Multi-reservoir operation using a distributed biosphere hydrological model. Annual Journal of Hydraulic Engineering-JSCE, 54, 103-108.
(96) Jaranilla-Sanchez, P.A.*, L. Wang, T. Koike (2010). ENSO influence on the 1982-2000 hydrological properties of the Pantabangan-Carranglan Watershed, Philippines. Annual Journal of Hydraulic Engineering-JSCE, 54, 19-24.
(97) Shrestha, M.*, L. Wang, T. Koike (2010). Investigating the applicability of WEB-DHM to the Himalayan river basin of Nepal. Annual Journal of Hydraulic Engineering-JSCE, 54, 55-60.
(98) Wang, L.*, T. Koike, D. Yang, K. Yang (2009c). Improving the hydrology of the Simple Biosphere Model 2 and its evaluation within the framework of a distributed hydrological model. Hydrological Sciences Journal, 54(6), 989-1006. (SCI)
(99)Wang, L.*, T. Koike, K. Yang, P. Yeh (2009b). Assessment of a distributed biosphere hydrological model against streamflows and MODIS land surface temperature in the upper Tone River Basin. Journal of Hydrology, 377, 21-34. (SCI)
(100) Wang, L.*, T. Koike, K. Yang, T. Jackson, R. Bindlish, D. Yang (2009a). Development of a distributed biosphere hydrological model and its evaluation with the Southern Great Plains Experiments (SGP97 and SGP99). Journal of Geophysical Research-Atmospheres, 114, D08107. (SCI)
(101) Wang, L.*, T. Koike (2009). Comparison of a distributed biosphere hydrological model with GBHM. Annual Journal of Hydraulic Engineering-JSCE, 53, 103-108.
(102) 王磊*,王忠静,尹航,杨大文,何杉 (2006)。GBHM模型原理及其在中尺度流域的应用。冰川冻土,28(2),256-261