个人简况

男，博士，中国科学院地理科学与资源研究所研究员，水文研究室主任，获国家“优秀青年”基金，入选中国科学院“青年创新促进会”和中国科学院地理资源所“秉维”优秀人才计划。主要从事水文过程对全球变化响应的区域规律研究，在WRR、GRL、JGR和JH等期刊发表学术论文80余篇。咨询报告被国家领导人、中办和国办批示采纳。先后主持了国家自然科学面上基金、重点基金课题、中国科学院先导项目专题、欧盟国际合作项目、水利部公益性项目、国家重点研发计划项目专题等20多个项目和课题；担任中国地理学会水文地理专业委员会秘书长。

教育和工作经历

2011.10 ~ 至今中国科学院地理科学与资源研究所助研、副研、研究员

2015.2 ~ 2015.8美国加州大学尔湾分校（UC Irvine）访问学者

2010.7 ~ 2011.9美国加州大学戴维斯分校（UC Davis）博士后

2007.9 ~ 2010.7 中国科学院地理科学与资源研究所博士

2005.9 ~ 2007.7武汉大学硕士

2001.9 ~ 2005.7武汉大学本科

研究兴趣

区域水文过程模拟

水文过程对全球变化响应的区域规律

区域水循环变化对人类健康的影响

主要研究项目

[1] 国家自然科学基金-优青，水循环过程的区域分异（41922050）

[2] 国家自然科学基金-重点项目课题：中国湿润-干旱过渡带水循环过程对气候变化的响应机制（41330529）

[3] 国家自然科学基金-面上，黄河中游窟野河流域“蓝水-绿水”转化及其对植被变化的响应（41571024）

[4] 国家自然科学基金-青年基金，南水北调中线水源区径流模拟及其变化归因研究（41201034）

[5] 国家重点研发计划专题，遥感和同化产品对水循环过程模拟的改进（2018YFA0605404）

[6] 中国科学院战略性先导科技专项专题，东南亚国家气候与水资源变化（XDA20060402）

[7] 中国科学院地理资源所“秉维”优秀人才计划，气候变化对南水北调中线工程的影响（2013RC202）

[8] 欧盟青藏高原国际合作项目：青藏高原水分与能量平衡模拟（CEOP-AEGIS）

[9] 西藏自治区水情预报系统研发与暴雨山洪灾害风险图编制（XZ-SLT）

主要学术论文

2019

[1] Wang Kaiwen, Liu Xiaomang*, Liu Changming et al. (2019). The unignorable impacts of pan wall on pan evaporation dynamics. Agricultural and Forest Meteorology, 274, 42-50.

[2] Wang Kaiwen, Liu Xiaomang* et al. (2019). Deriving a long-term pan evaporation reanalysis dataset for two Chinese pan types. Journal of Hydrology, 579, 124162.

[3] Zhang, Dan, Liu Xiaomang*, & Bai, Peng (2019). Assessment of hydrological drought and its recovery time for eight tributaries of the Yangtze River (China) based on downscaled GRACE data. Journal of Hydrology, 568, 592-603.

[4] Wang Kaiwen, Liu Xiaomang*, Tian Wei et al (2019). Pan coefficient sensitivity to environment variables across China. Journal of Hydrology, 572: 582-591.

[5] Yang Tiantian, Liu Xiaomang*, et al (2019). Simulating Hydropower Discharge using Multiple Decision Tree Methods and a Dynamical Model Merging Technique. Journal of Water Resources Planning and Management, 146(2), 04019072.

2018

[6] Liu Xiaomang*, Changming Liu, and Wilfried Brutsaert. Investigation of a generalized nonlinear form of the complementary principle for evaporation estimation. Journal of Geophysical Research: Atmospheres 123.8 (2018): 3933-3942.

[7] Bai Peng, Liu Xiaomang*, Zhang, Yongqiang, & Liu Changming (2018). Incorporating vegetation dynamics noticeably improved performance of hydrological model under vegetation greening. Science of the Total Environment, 643, 610-622.

[8] Bai Peng , Liu Xiaomang*, Liu Changming (2018). Improving hydrological simulations by incorporating GRACE data for model calibration. Journal of Hydrology, 557, 291–304

[9] Tian, Wei, Liu Xiaomang*, Liu Changming, & Bai, Peng (2018). Investigation and simulations of changes in the relationship of precipitation-runoff in drought years. Journal of hydrology, 565, 95-105.

[10] Bai, Peng, and Liu Xiaomang*. Intercomparison and evaluation of three global high-resolution evapotranspiration products across China. Journal of Hydrology 566 (2018): 743-755.

[11] Wang, Kaiwen, Liu Xiaomang*, et al. (2018). A generalized evaporation model for Chinese pans. Journal of Geophysical Research: Atmospheres, 123(19), 10-943.

2017年以前

[12]Liu Xiaomang，Yang T*，Hsu K，Liu Changming，Sorooshian S. (2017)，Evaluating the streamflow simulation capability of PERSIANN-CDR daily rainfall products in two river basins on the Tibetan Plateau，Hydrology and Earth System Sciences, 21（1）：169~181

[13] Liu Xiaomang*，Liu Changming，Brutsaert Wilfried (2016)，Regional evaporation estimates in the eastern monsoon region of China: Assessment of a nonlinear formulation of the complementary principle，Water Resources Research, 52（12）：9511~9521

[14] Liu Xiaomang*, Luo Yuzhou, Liu Changming (2015), Investigation of the probability of concurrent drought events between the water source and destination regions of China's water diversion project, Geophysical Research Letters，42: 8424-8431.

[15] Liu Xiaomang, Liu Changming, Zhang Minghua, Xia Jun (2012). Dramatic decrease in streamflow from the headwater source in the central route of China's water diversion project: Climatic variation or human influence, Journal of Geophysical Research- Atmospheres, 117, D06113. doi: 10.1029/2011jd016879

[16] Liu Xiaomang, Luo Yuzhou, Zhang Dan, Liu Changming (2011), Recent changes in pan-evaporation dynamics in China, Geophysical Research Letters, 38, L13404, doi: 10.1029/2011GL047929

[17] Bai Peng, Liu Xiaomang*, Liu Changming. (2017). Improving hydrological simulations by incorporating GRACE data for model calibration, Journal of Hydrology, 551: 291-304.

[18] Zhang Dan, Liu Xiaomang*, Zhang Qi, Liang Kang, Liu Changming (2016). Investigation of factors affecting intra-annual variability of evapotranspiration and streamflow under different climate conditions, Journal of Hydrology, 543: 759-769.

[19] Bai Peng, Liu Xiaomang*, Yang, Tiantian, Liang, Kang, Liu, Changming (2016). Evaluation of streamflow simulation results of land surface models in GLDAS on the Tibetan plateau, Journal of Geophysical Research-Atmospheres, 121(20): 12180-12197.

[20] Bai Peng, Liu Xiaomang*, Liu Changming (2016). Assessment of the Influences of Different Potential Evapotranspiration Inputs on the Performance of Monthly Hydrological Models under Different Climatic Conditions, Journal of Hydrometeorology, 17(8): 2259-2274.

[21] Bai Peng; Liu Xiaomang*; Liang, Kang; Liu, Changming (2015). Comparison of performance of twelve monthly water balance models in different climatic catchments of China. Journal of Hydrology, 529: 1030-1040.