基本信息：

刘俊国，男，1977年2月生，山东莱芜人，中共党员。

教授，博导。

刘俊国教授长期从事水资源和全球变化、生态修复方面的科研和教学工作，在水资源时空演变、水质性缺水评价、全球环境变化和生态修复等方面取得了系统性创新成果。2009年获欧洲地球科学联合会“杰出青年科学家奖”，为全球首位荣获此奖的水文学家和华人科学家。2010年入选“教育部新世纪优秀人才”。2011年获ProSPER.Net-Scopus青年科学家奖及生物多样性与自然资源管理领域当年全球唯一冠军。2012年获中国科学报社第三届“青年科学之星”环境领域当年唯一金奖。2014年荣获“北京五四青年奖章”。2016年荣获国家杰出青年科学基金资助。2017年荣获国际恢复生态学学会“技术传播奖”，为当年全球唯一获奖者及该奖项成立以来首位获奖的中国科学家。2018年获教育部高等学校科学研究优秀成果奖 -“青年科学奖”、北京市科学技术奖二等奖，并入选英国皇家地理学会会士。2019年获中国青年科技奖、国务院特殊津贴，入选英国皇家气象学会会士。

主持国家自然科学基金国家杰出青年科学基金、国家重点研发计划项目、重大研究计划培育项目、国际合作研究项目以及科技部国家国际科技合作专项项目、林业公益性行业专项、北京市自然科学基金重点项目、北京科委科技计划项目课题等近20项。担任国家自然科学基金重大项目“黄土高原生态系统与水文相互作用机理研究”专家组成员。曾担任中国环境与发展国际合作委员会“中国环境与发展展望”课题中方专家、“生态系统服务与管理”课题中方技术专家。

教育经历：

2003-2007: 博士（环境科学），瑞士苏黎世联邦理工学院(ETHZ)环境学院。

2000-2002: 硕士（水与环境资源管理），荷兰UNESCO-IHE水与环境资源管理系。

1995-1999: 学士（农田水利工程），华北水利水电学院（现华北水利水电大学）。

工作经历：

2023年12月-至今：华北水利水电大学校长

2021年09月-2023年12月：华北水利水电大学学术副校长，水利学院院长。

2016年01月-至今：南方科技大学教授。

2009年01月-2015年12月：北京林业大学教授。

2013年12月-2015年12月：英国利兹大学Cheney，高级访问学者。

2010年01月-至今：奥地利国际应用系统分析学会（IIASA, Austria），客座研究员。

2012年06月-2015年06月：德国波茨坦气候影响研究所（PIK）， 高级访问学者。

2007年03月-2009年05月：瑞士联邦环境科学技术研究所，研发学者。

2005年03月-2005年05月：美国黑土地研究与推广中心（Blackland Research and Extension Center），访问学者。

2002年12月-2003年02月：荷兰UNESCO-IHE水文系，科研助理。

2002年04月-2002年12月：荷兰国际水资源综合管理能力建设网络秘书处，助理专家。

1. Palmer M.A.*, Liu J.*, Mattews J.H., Mumba M., D’Odorlco P., 2015. Manage water in a green way.Science349 (6248): 584-585. (SCI, IF=41.037)

2. Liu J.*, You L.Z., Amini M., Obersteiner M., Herrero M., Zehnder A.J.B., Yang H. 2010. A high-resolution assessment on global nitrogen flows in cropland.Proceedings of the National Academy of Sciences of the United States of America107(17): 8035-8040. (SCI, IF=9.580) (ESI Top 1% Highly Cited Paper in 2015)

3. Zhao X., Liu J.*, Liu Q., Tillotson M.R., Guan D., Hubacek K., 2015. Physical and virtual water transfers for regional water stress alleviation in China.Proceedings of the National Academy of Sciences of the United States of America112(4): 1031-1035. (SCI, IF=580) (ESI Top 1% Highly Cited Paper in 2020)

4. Liu J.*, Bawa K. S., Seager T. P., Mao G., Ding D., Lee J. S. H., Swim J. K., 2019. On knowledge generation and use for sustainability,Nature Sustainability2: 80-82.

5. Zhou F., Bo Y., Ciais P., Dumas P., Tang Q., Wang X.,Liu J., Zheng C., Polcher J., Yin Z., Guimberteau M., Peng S., Ottle C., Zhao X., Zhao J., Tan Q., Chen L., Shen H., Yang H., Piao S., Wang H., Wada Y.,2020. Deceleration of China’s human water use and its key drivers.Proceedings of the National Academy of Sciences of the United States of America. DOI: 10.1073/pnas.(SCI, IF=9.580)

6. Liu, Z., Guan D., Wei W., Davis S. J., Ciais P., Bai J., Peng S., Zhang Q., Hubacek K., Marland G., Andres R. J., Crawford-Brown D., Lin J., Zhao H., Hong C., Boden T. A., Feng K., Peters G. P., Xi F.,Liu J., Li Y., Zhao Y., Zeng N., He K., 2015. Reduced carbon emission estimates from fossil fuel combustion and cement production in China.Nature524 (7565): 335-338. (SCI, IF=43.070) (ESI Top 0.1% Hot Article in 2019; ESI Top 1% Highly Cited Paper in 2020)

7. Veldkamp T.I.E., Wada Y., Aerts J.C.J.H., Döll P., Gosling S.N.,Liu J., Masaki Y., Oki T., Ostberg S., Pokhrel Y., Satoh Y., Kim H., Ward P.J., 2017. Water scarcity hotspots travel downstream due to human interventions in the 20th and 21st century.Nature Communications8:15697. (SCI, IF=11.878) (ESI Top 1% Highly Cited Paper in 2020)

8. Park C. E., Jeong S.J., Joshi M., Osborn T. J., Ho C.H., Piao S., Chen D.,Liu J., Yang H., Park H., Kim B.M., Feng S., 2018. Keeping global warming within 1.5ºC restrains emergence of aridification.Nature Climate Change8: 70–74. (SCI, IF=21.722) (ESI Top 1% Highly Cited Paper in 2019)

9. Zeng Z., Ziegler A.D., Searchinger T., Yang L., Chen A., Ju K., Piao S., Li L.Z.X., Ciais P., Cesar, P., Chen D.,Liu J., Azorin-Molina C., Chappell A., Medvigy D., Wood E.F., 2019. A reversal in global terrestrial stilling and its implications for wind energy production.Nature Climate Change9 (12): 979-985. (SCI, IF=21.722)

10. Xu J., Morris P. J., Liu J., Holden J., 2018. Hotspots of peatland-derived potable water use identified by global analysis.Nature Sustainability1, 246-253.

11. Liu X., Pei F., Wang S., Wen Y., Li X., Wu J., Chen J., Feng K.,Liu J., Hubacek K., Davis S., Yu L., Liu Z., Wu C., Cai Y., Yuan W., 2019. Global urban expansion offsets climate-driven increases in terrestrial net primary productivity.Nature Communications10, 5558. (SCI, IF=11.878)

12. Obersteiner M., Walsh B., Frank S., Havlík P., Cantele M.,Liu J., Palazzo A., Herrero M., Lu Y., Mosnier A., Valin H., Riahi K., Kraxner F., Fritz S., van Vuuren D., 2016. Assessing the land resource–food price nexus of the Sustainable Development Goals.Science Advances2: e1501499. (SCI, IF =12.804)

13. Liu J.*, Scanlon B. R., Zhuang J., Varis O., 2020. Food-Energy-Water Nexus for Multi-scale Sustainable Development.Resources, Conservation and Recycling154: 104565. (SCI,IF=044)

14. Qi W.,Liu J.*, Xia J., Chen D., 2020. Divergent sensitivity of surface water and energy variables to precipitation product uncertainty in the Tibetan Plateau.Journal of Hydrology581:124338 (SCI,IF=405)

15. Qi, W.,Liu J.*, Yang, H., Zhu, X., Tian, Y., Jiang, X., Huang, X., Feng, L., 2020. Large Uncertainties in Runoff Estimations of GLDAS Versions 2.0 and 2.1 in China.Earth and Space Science7: e2019EA000829. (SCI,IF=150)

16. Huang, Y., Tian, Z., Ke, Q.,Liu J.*, Irannezhad, M., Fan, D.*, Hou, M., Sun, L., 2020. Nature-based solutions for urban pluvial flood risk management. Wiley Interdisciplinary Reviews: Water. 7: e1421. doi:10.1002/wat2.1421 (SCI, IF=4.436)

17. Xu J., Morris P. J.,Liu J., Ledesma J.L.J., Holden J., 2020. Increased dissolved organic carbon concentrations in peat-fed UK water supplies under future climate and sulfate deposition scenarios.Water Resources Research56: e2019WR025592. (SCI,IF=142)

18. Zhao D.D, Hubacek K, Feng K.S, Sun L.X,Liu J.*. 2019. Explaining the virtual water trade: A spatial-temporal analysis of the comparative advantage of land, labor and water in China.Water Research153: 304-314 (SCI,IF=913)

19. Mao G.,Liu J.*. 2019. WAYS v1: a hydrological model for root zone water storage simulation on a global scale.Geoscientific Model Development, 12(12): 5267-5289 (SCI, IF=5.154)

20. Qi W.,Liu J.*, Leung F., 2019. A framework to quantify impacts of elevated CO2concentration, global warming and leaf area changes on seasonal variations of water resources on a river basin scale.Journal of Hydrology570: 508–522 (SCI,IF=405)

21. Jiang C.,Liu J.*, Zhang H., Zhang Z., Wang D., 2019. China’s progress towards sustainable land degradation control: insights from the northwest arid regions.Ecological Engineering127: 75-87. (SCI,IF=406)

22. Mao G.,Liu J.*, Han F., Meng Y., Tian Y., Zheng Y., Zheng C., 2019. Assessing the interlinkage of green and blue water in an arid catchment in Northwest China.Environ Geochem Health. In press.https://doi.org/10.1007/s10653-019-00406-3

23. Guan Y., Kang R.,Liu J.*, 2019. Evolution of the field of ecological restoration over the last three decades: a bibliometric analysis.Restoration Ecology27 (3): 647-660. (SCI, IF=2.826)

24. Qi W.,Liu J.*, 2019. Studies on changes in extreme flood peaks resulting from land-use changes need to consider roughness variations.Hydrological Sciences Journal64 (16): 2015–2024. (SCI, IF=2.180)

25. Hu H., Tian Z., Sun L., Wen J., Liang Z., Dong G.,Liu J., 2019. Synthesized trade-off analysis of flood control solutions under future deep uncertainty: An application to the central business district of Shanghai.Water Research, 166, 115067. (SCI,IF=913)

26. Ma L., Bai Z., Ma W., Guo M., Jiang R.,Liu J., Oenema O., Velthof G. L., Whitmore A., Crawford J., Dobermann A., Schwoob M., Zhang F., 2019. Exploring future food provision scenarios for China.Environmental Science & Technology53 (3): 1385–1393. (SCI, IF=149)

27. Jiang J., Ye B.,Liu J., 2019. Research on the peak of CO2emissions in the developing world: Current progress and future prospect.Applied Energy235: 186-203. (SCI,IF=8.426) (ESI Top 1% Highly Cited Paper in 2020)

28. Ye B., Jiang J., Zhou Y.,Liu J., Wang K.,2019. Technical and economic analysis of amine-based carbon capture and sequestration at coal-fired power plants.Journal of Cleaner Production222: 476-487. (SCI, IF=6.395)

29. Zhao C., Pan T., Dou T.,Liu J., Liu C., Ge Y., Zhang Y., Yu X., Mitrovic S., Lim R., 2019. Making global river ecosystem health assessments objective, quantitative and comparable.Science of The Total Environment667: 500-510. (SCI,IF=589)

30. Gann G.D., McDonald T., Walder B., Aronson J., Nelson C. R., Jonson J., Hallett J. G., Eisenberg C., Guariguata M. R.,Liu J., Hua F., Echeverría C., Gonzales E., Shaw N., Decleer K., Dixon K.W., 2019. International principles and standards for the practice of ecological restoration. Second edition.Restoration Ecology27 (S1): S1–S46. (SCI, IF=2.826)

31. Liu X., Tang Q., Liu W., Veldkamp T., Boulange J.,Liu J., Wada Y., Huang Z., Yang H., 2019. A spatially explicit assessment of growing water stress in China from the past to the future.Earth’s Future7: 1027-1043. (SCI, IF=5.781)

32. Xu H., Tian Z., He X., Wang J., Sun L., Fischer G., Fan D., Zhong H., Wu W., Pope E., Kent C.,Liu J., 2019. Future increases in irrigation water requirement challenge the water-food nexus in the northeast farming region of China.Agricultural Water Management213: 594–604. (SCI,IF=542)

33. Liu W., Antonelli M., Kummu M., Zhao X., Wu P.,Liu J., Zhuo L., Yang H., 2019. Savings and losses of global water resources in food‐related virtual water trade.Wiley Interdisciplinary Reviews: Water6(1): e1320. (SCI, IF=436)

34. Kuang X., Luo X., Jiao J.J., Liang S., Zhang X., Li H.,Liu J., 2019. Using stable isotopes of surface water and groundwater to quantify moisture sources across the Yellow River source region.Hydrological Processes33:1835–1850. (SCI, IF=189)

35. Zhang X.,Liu J.*, Zhao X.*, Yang H., Deng X., Jiang X., 2019. Linking physical water consumption with virtual water consumption: methodology, application and implications.Journal of Cleaner Production228: 1206-1217. (SCI, IF=6.395)

36. Blöschl G. et al., 2019. Twenty-three Unsolved Problems in Hydrology (UPH)–a community perspective.Hydrological Sciences Journal. 64(10): 1141-1158 (SCI, IF=2.180) (ESI Top 0.1% Hot Article in 2020; ESI Top 1% Highly Cited Paper in 2020)

37. Jiang J., Ye B.,Liu J., 2019. Peak of CO2emissions in various sectors and provinces of China: Recent progress and avenues for further research.Renewable and Sustainable Energy Reviews112: 813–833. (SCI, IF=10.556)

38. Wang K., Davies E.G.R.,Liu J., 2019. Integrated water resources management and modeling: A case study of Bow river basin, Canada.Journal of Cleaner Production240: 118242. (SCI, IF=6.395)

39. Malekian A., Choubin B.,Liu J., Sajedi-Hosseini F., 2019. Development of a new integrated framework for improved rainfall-runoff modeling under climate variability and human activities.Water Resources Management33: 2501–2515. (SCI, IF=2.987)

40. Liu J., Li X., Yang H., Han G.,Liu J., Zheng C., Zheng Y., 2019. The water–energy nexus of megacities extends beyond geographic boundaries: a case of Beijing.Environmental Engineering Science.http://doi.org/10.1089/ees.2018.0553

41. Anjum M.N., Ding Y., Shangguan D.,Liu J., Ahmad I., Ijaz M. W., Khan M. I., 2019. Quantification of spatial temporal variability of snow cover and hydro-climatic variables based on multi-source remote sensing data in the Swat watershed, Hindukush Mountains, Pakistan.Meteorology and Atmospheric Physics131 (3): 467-486. (SCI,IF=656)

42. Dai Y., Feng L., Hou X., Choi C.Y.,Liu J., Cai X., Shi L., Zhang Y., Gibson L., 2019. Policy-driven changes in enclosure fisheries of large lakes in the Yangtze Plain: evidence from satellite imagery.Science of The Total Environment688, 1286-1297. (SCI,IF=589)

43. Liu J.*, Zhao X.*, Yang H., Liu Q., Xiao H., Cheng G., 2018. Assessing China’s “developing a water-saving society” policy at a river basin level: a structural decomposition analysis approach.Journal of Cleaner Production190: 799-808. (SCI, IF=6.395)

44. Liu J.*, Mao G., Hoekstra A.J., Wang H., Wang J., Zheng C., van Vliet M.T.H., Wu M., Ruddell B., Yan J., 2018. Managing the energy-water-food nexus for sustainable development.Applied Energy210: 377-381. (SCI,IF=426)

45. Lun F.,Liu J.*, Ciais P., Nesme T., Chang T., Wang R., Goll D., Sardans J., Peñuelas J., Obersteiner M., 2018. Global and regional phosphorus budgets in agricultural systems and their implications for phosphorus-use efficiency.Earth System Science Data10: 1–18.(SCI,IF=951)

46. Qi W.,Liu J.*, Chen D., 2018. Evaluations and improvements of GLDAS 2.0 and 2.1 forcing data's applicability for basin scale hydrological simulations in the Tibetan Plateau.Journal of Geophysical Research: Atmospheres, 123: 13,128–13,148.(SCI, IF=3.633)

47. Zhao C., Yang S.,Liu J., Liu C., Hao F., Wang Z., Zhang H., Song J., Mitrovic S. M., Lim R. P., 2018. Linking fish tolerance to water quality criteria for the assessment of environmental flows: A practical method for streamflow regulation and pollution control.Water Research141: 96-108. (SCI,IF=913)

48. Wang Z.,Liu J.*,Li J., Zhang D.D., 2018. MuWI: A native 10-m Multi-spectral Water Index for Accurate Water Mapping on Sentinel-2.Remote Sensing10: 1643. (SCI,IF=118)

49. Liu W., Yang H., Liu Y., Kummu M., Hoekstra A. Y.,Liu J., Schulini R., 2018. Water resources conservation and nitrogen pollution reduction under global food trade and agricultural intensification.Science of the Total Environment633: 1591–1601 (SCI,IF=589)

50. Zaherpour J., Gosling S. N., Mount N., Schmied H. M., Veldkamp T.I.E., Dankers R., Eisner S., Gerten D., Gudmundsson L., Haddeland I., Hanasaki N., Kim H., Leng G.,Liu J., Masaki Y., Oki T., Pokhrel Y., Satoh Y., Schewe J., Wada Y., 2018. Worldwide evaluation of mean and extreme runoff from six global-scale hydrological models that account for human impacts.Environmental Research Letters13 (6): 065015. (SCI, IF=6.192)

51. Qi W.,Liu J.*, Yang H., Sweetapple C., 2018. An ensemble-based dynamic Bayesian averaging approach for discharge simulations using multiple global precipitation products and hydrological models.Journal of Hydrology558: 405–420 (SCI, IF= 4.405)

52. Qi W.,Liu J., 2018. A non-stationary cost-benefit based bivariate extreme flood estimation approach.Journal of Hydrology557: 589–599 (SCI, IF= 4.405)

53. Xu J., Morris P.J.,Liu J., Holden J., 2018. PEATMAP: Refining estimates of global peatland distribution based on a meta-analysis. CATENA 160: 134-140(SCI, IF=3.851) (ESI Top 1% Highly Cited Paper in 2020)

54. Vanham D., Hoekstra A.Y., Wada Y., Bouraoui F., de Roo A., Mekonnen M.M., van de Bund W.J., Batelaan O., Pavelic P., Bastiaanssen W.G.M., Kummu M., Rockström J.,Liu J., Bisselink B., Ronco P., Pistocchi A., Bidoglio G., 2018. Physical water scarcity metrics for monitoring progress towards SDG target 6.4: An evaluation of indicator 6.4.2 “Level of water stress”.Science of the Total Environment613-614: 218-232. (SCI,IF=589) (ESI Top 1% Highly Cited Paper in 2020)

55. Wartenburger R., Seneviratne S., Hirschi M., Chang J., Ciais P., Deryng D., Elliott J., Folberth C., Gosling S., Gudmundsson L., Henrot A., Hickler T., Ito A., Khabarov N., Kim H., Leng G.,Liu J., Liu X., Masaki Y., Morfopoulos C., Müller C., Müller S., Hannes N. K., Orth R., Pokhrel Y., Pugh T., Satoh Y., Schaphoff S., Schmid E., Sheffield J., Stacke T., Steinkamp J., Tang Q., Thiery W., Wada Y., Wang X., Weedon G., Yang H., Zhou T., 2018. Evapotranspiration simulations in ISIMIP2a - Evaluation of spatio-temporal characteristics with a comprehensive ensemble of independent datasets.Environmental Research Letters13 (7): 075001 (SCI, IF=6.192)

56. Cudennec C. *,Liu J., Qi J., Yang H., Zheng C., Gain A. K., Lawford R., de Strasser L., Yillia P. T., 2018. Epistemological dimensions of the water–energy–food nexus approach: reply to discussions of “Challenges in operationalizing the water–energy–food nexus”,Hydrological Sciences Journal63(12):1868-1871 (SCI, IF=2.180)

57. Ahmad I., Zhang F., Muhammad Tayyab M., Anjumd M. N., Zamane M.,Liu J., Faridh H. U., Saddiquei Q., 2018. Spatiotemporal analysis of precipitation variability in annual, seasonal and extreme values over upper Indus River basin.Atmospheric Research213: 346-360. (SCI,IF=114)

58. Anjum M. N., Zaman M., Tayyab M., Waseem M., Farid H. U., 2018. A linear bi-level multi-objective program for optimal allocation of water resources. PLoS ONE, 13(2): e0192294 (SCI, IF=776)

59. Zhang R.,Liu J.*, Gao H., Mao G., 2018. Can multi-objective calibration of streamflow guarantee better hydrological model accuracy?Journal of Hydroinformatics20 (3): 687-698. (SCI,IF=908)

60. Li S., Yang H.,Liu J., Lei G., 2018. Towards Ecological-Economic Integrity in the Jing-Jin-Ji Regional Development in China.Water10 (11), 1653. (SCI,IF=524)

61. Li S., Yang H., Lacayo M.,Liu J., Lei G., 2018. Impacts of land-use and land-cover changes on water yield: a case study in Jing-Jin-Ji, China.Sustainability10 (4): 960. (SCI,IF=592)

62. Liu J.*, Yang H., Gosling, S. N., Kummu, M., Flörke, M., Pfister, M., Hanasaki, N., Wada, Y., Zhang, X., Zheng, Y., Alcamo, J., Oki, T., 2017. Water scarcity assessments in the past, present, and future.Earth’s Future5: 545-559. (SCI, IF=5.781) (Cover Article;ESI Top 1% Highly Cited Paper in 2020)

63. Liu J.*, Calmon M., Clewell A., Liu J., Denjean B., Engel V.L., Aronson J., 2017. South-south cooperation for large-scale ecological restoration.Restoration Ecology25 (1): 27-32. (SCI, IF=2.826)

64. Liu J.*, Yang H., Cudennec C., Gain A.K., Hoff H., Lawford R., Qi J., de Strasser L., Yillia P.T., Zheng C., 2017. Panta Rhei Opinions: Challenges in operationalizing the water-energy-food nexus.Hydrological Sciences Journal62 (11): 1714-1720 (SCI, IF=2.180)

65. Mao G., Xia J., He X., Tang Y.*,Liu J.*, 2017. Hydrology in a coupled human-natural system – Research innovation and practices. Bulletin of the American Meteorological Society (BAMS). ES295-298. (SCI,IF=166)

66. Gosling S. N., Hondula D. M., Bunker A., Ibarreta D.,Liu J., Zhang X., Sauerborn R., 2017. Adaptation to climate change: a comparative analysis of modeling methods for 2 heat-related mortality.Environmental Health Perspectives125 (8): 087008. (SCI, IF=8.049)

67. Chen Y., Zhang S., Huang D., Li B.,Liu J., Liu W., Ma J., Wang F., Wang Y., Wu S., Wu Y., Yan J., Guo C., Xin W., Wang H., 2017. The development of China’s Yangtze River Economic Belt: how to make it in a green way?Science Bulletin62 (9): 648–651 (SCI, IF=6.277)

68. Zhang X.,Liu J.*, Tang Y*, Zhao X., Yang H., Gerbens-Leenes P.W., van Vliet M.T.H., Yan J., 2017. China's coal-fired power plants impose pressure on water resources.Journal of Cleaner Production161: 1171-1179. (SCI, IF=6.395)

69. Campana P.E., Leduc S., Kim M., Olsson A., Zhang J.,Liu J., Kraxner F., McCallum I., Li H., Yan J., 2017. Suitable and optimal locations for implementing photovoltaic water pumping systems for grassland irrigation in China.Applied Energy185 (2): 1879-1889 (SCI,IF=426)

70. Gosling, S. N., Zaherpour, J. J., Mount, N. J., Hattermann, F. F., Dankers, R., Arheimer, B., Breuer L., Ding J., Haddeland I., Kumar R., Kundu D.,Liu J., van Griensven A., Veldkamp T.I.E., Vetter T., Wang X., Zhang X., 2017. A comparison of changes in river runoff from multiple global and catchment-scale hydrological models under global warming scenarios of 1°C, 2°C and 3°C.Climatic Change141 (3): 597–598 (SCI,IF=168) (ESI Top 1% Highly Cited Paper in 2019)

71. Kreibich H., Krueger T., Van Loon A., Mejia A.,Liu J., McMillan H., Castellarin A., 2017. Scientific debate of Panta Rhei research – how to advance our knowledge of changes in hydrology and society?Hydrological Sciences Journal62 (3): 331-333. (SCI, IF=2.180)

72. Wada Y., Bierkens M. F. P., de Roo A., Dirmeyer, P. A., Famiglietti J. S., Hanasaki N., Konar M.,Liu J., Schmied H. M., Oki T., Pokhrel Y., Sivapalan M., Troy T. J., van Dijk A. I. J. M., van Emmerik T., van Huijgevoort M. H. J., van Lanen H. A. J., Vörösmarty C. J., Wanders N., Wheater H., 2017. Human-water interface in hydrological modeling: Current status and future directions.Hydrology and Earth System Sciences21: 4169-4193. (SCI, IF=4.936)

73. Zhao D., Tang Y.*,Liu J.*, Tillotson M.R., 2017. Water footprint of Jing-Jin-Ji urban agglomeration in China.Journal of Cleaner Production167: 919-928. (SCI, IF=6.395)

74. Liu J.*, Ma K., Ciais P., Polasky S., 2016. Reducing human nitrogen use for food production.Scientific Reports6: 30104. (SCI, IF=4.011)

75. Liu J.*, Liu Q., Yang H., 2016. Assessing water scarcity by simultaneously considering environmental flow requirements, water quantity, and water quality.Ecological Indicator60: 434-441. (SCI, IF=4.490)

76. Zhao ,Liu J.*, Yang H., Liu Y., Duarte R., Hubacek K., 2016. Burden-shifting of water quantity and quality stress from mega-city Shanghai.Water Resources Research52 (9): 6916-6927. (Featured inWater Resources Research) (SCI,IF=4.142)

77. McMillan H.,Montanari,CudennecC.,SavenijeH.,KreibichH.,KruegerT.,LiuJ.,MejiaA.,Van LoonA.,AksoyH.,Di BaldassarreG.,HuangY.,MazvimaviD.,RoggerM.,SivakumarB.,BibikovaT.,CastellarinA.,ChenY.,FingerD.,GelfanA.,HannahD. M.,HoekstraA. Y.,LiH.,MaskeyS.,MathevetT.,MijicA., Acuña A. P.,PoloM. J.,RosalesV.,SmithP.,ViglioneA.,SrinivasanV.,TothE.,van NooyenR.,XiaJ., 2016. Panta Rhei 2013–2015: global perspectives on hydrology, society and change.Hydrological Sciences Journal61 (7): 1174-1191. (SCI, IF=2.180)

78. Xie J., Chen J., Sun G., Zha T., Yang B., Chu H.,Liu J., Wan S., Zhou C., Ma H., Bourque C.P.A., Shao C., John R., Ouyang Z., 2016. Ten-year variability in ecosystem water use efficiency in an oak-dominated temperate forest under a warming climate.Agricultural and Forest Meteorology218-219: 209-217. (SCI,IF=189)

79. Ma K.,Liu J.*, Balkovic J., Skalsky R., Azevedo L., Kraxner F., 2016. Changes in soil organic carbon stocks of wetlands on China’s Zoige plateau from 1980 to 2010.Ecological Modelling327: 18-28. (SCI,IF=634)

80. Ma K., Zhang Y., Tang S.,Liu J.*, 2016. Spatial distribution of soil organic carbon in the Zoige alpine wetland, northeastern Qinghai–Tibet Plateau,Catena144: 102-108. (SCI,IF=851)

81. Qi W., Zhang C., Fu G., Zhou H.,Liu J., 2016. Quantifying uncertainties in extreme flood predictions under climate change for a medium-sized basin in Northeastern China.Journal of Hydrometeorology17 (12): 3099-3112. (SCI, IF=158)

82. Liu W., Yang H.,Liu J., Azevedo L.B., Wang X., Xu Z., Abbaspour K. C., Schulin R., 2016. Global assessment of nitrogen losses and trade-offs with yields from major crop cultivations.Science of the Total Environment572: 526-537. (SCI,IF=589)

83. Tian, S., Youssef, M. A., Richards, R. P.,Liu, J., Baker, D. B., & Liu, Y., 2016. Different seasonality of nitrate export from an agricultural watershed and an urbanized watershed in midwestern USA.Journal of Hydrology, 541, 1375-1384. (SCI,IF=405)

84. Kraxner F., Aoki K., Kindermann G., Leduc S., Albrecht F.,Liu J., Yamagata Y., 2016. Bioenergy and the city – What can urban forests contribute?Applied Energy165: 990–1003 (SCI,IF=426)

85. Lun F., Liu, Zhang D., Li W.,Liu J.*, 2016. Life cycle analysis of carbon flow and carbon footprint of harvested wood products ofLarix principis-rupprechtiiin China.Sustainability8: 247. (SCI,IF=2.592)

86. Lun F., Canadell J.G., HE L., Yang B., Liu M.C., Yuan Z., Tian M.,Liu J., Li W.H., 2016. Estimating cropland carbon mitigation potentials in China affected by three improved cropland practices.Journal of Mountain Science13 (10): 1840-1854. (SCI, IF=423)

87. Zhao, X., Tillotson, M.R., Yang, Z., Yang, H.,Liu, J. 2016 Reduction and reallocation of water use of products in Beijing.Ecological Indicators61: 893-898 (SCI,IF=490)

88. Deng X., Singh R.B.,Liu J., Güneralp B., 2016. Water productivity and integrated water resources management.Physics and Chemistry of the Earth96: 1-1. (SCI, IF=1.968)

89. Liu J.*, Zhao D., Gerbens-Leenes P.W., Guan D., 2015. China’s rising hydropower demand challenges water sector.Scientific Reports5: 11446. (SCI, IF=4.011)

90. Liu J.*, Kattel G., Arp H.P.H., Yang H., 2015. Towards threshold-based management of freshwater ecosystems in the context of climate change.Ecological Modelling318: 265–274 (SCI, IF=2.634)

91. Ma K.,Liu J., Zhang Y., Parry L. E., Holden J., Ciais P., 2015. Refining soil organic carbon stock estimates for China’s palustrine wetlands.Environmental Research Letters10: 124016. (SCI, IF=6.192)

92. Zhang Y., Bleeker A.,Liu J., 2015. Nutrient Discharge from China’s Aquaculture Industry and Associated Environmental Impacts.Environmental Research Letters10: 045002. (SCI, IF=6.192)

93. Chen M.,Liu J.*, 2015. Historical trends of wetland areas in the agriculture and pasture interlaced zone: a case study of the Huangqihai Lake Basin in northern China.Ecological Modelling318: 168–176 (SCI, IF=2.634)

94. Zhao D.,Liu J.*,A new approach to assessing the water footprint of hydroelectric power based on allocation of water footprints among reservoir ecosystem services.Physics and Chemistry of the Earth. 79-82: 40–46 (SCI, IF=1.968)

95. Zhang X., Ermolieva T., Juraj B., Mosnier A., Kraxner F.,Liu J.*, 2015. Recursive cross-entropy downscaling model for spatially explicit future land uses: a case study of the Heihe River Basin.Physics and Chemistry of the Earth89-90: 56-64. (SCI, IF=1.968)

96. Deng X., Singh R. B., Liu J., Guneralp B., 2015. Water use efficiency and integrated water resource management for river basin. Physics and Chemistry of the Earth, 80-90: 1-2. (SCI, IF=1.968)

97. Zang C.,Liu J.*, Gerten D., Jiang L., 2015 Influence of human activities and climate variability on green and blue water provision in the Heihe River Basin, NW China.Journal of Water and Climate Change6 (4): 800-815. (SCI, IF=1.009).

98. Chen C., Hagemann S.,Liu J., 2015. Assessment of impact of climate change on the blue and green water resources in large river basins in China.Environmental Earth Sciences74 (8): 6381-6394 (SCI, IF=1.871)

99. Deng X., Singh R.B.,Liu J.,Güneralp B., 2015. Physical and economic processes of water scarcity and water allocation for integrated river basin management.Physics and Chemistry of the Earth. 79: 1-1. (SCI, IF=1.968)

100. Shi J.,Liu J.*, Pinter L., 2014. Recent evolution of China’s virtual water trade: analysis of selected crops and consideration for policy.Hydrology and Earth System Sciences18: 1349-1357. (SCI, IF=4.936)

101. Tillotson M.R.,Liu J.*, Guan D., Wu P., Zhao X., Zhang G., Pfister S., Pahlow M., 2014. Water footprint symposium: where next for water footprint and water assessment methodology?International Journal of Life Cycle Assessment19: 1561-1565. (SCI, IF=4.868)

102. Zhao Q.,Liu J.*,Khabarov, Obersteiner M., Westphal: M., 2014. Impacts of climate change on virtual water content of crops in China.Ecological Informatics19: 26-34. (SCI, IF=2.310)

103. Folberth C., Yang H, Gaiser T.,Liu J., Wang X., Williams J., Schulin R., 2014. Effects of ecological and conventional agricultural intensification practices on maize yields in sub-Saharan Africa under potential climate change.Environmental Research Letters9: 044004. (SCI, IF=6.192)

104. Xie J., Sun G., Chu H.-S.,Liu J., McNulty S. G., Noormets A., John R., Ouyang Z., Zha T., Li H., Guan W. and Chen J., 2014, Long-term variability in the water budget and its controls in an oak-dominated temperate forest.Hydrological Processes28 (25): 6054-6066. (SCI, IF=3.189)

105. Wang X., Yen H., Liu Q.,Liu J.,An auto-calibration tool for the agricultural policy environmental extender model.Transactions of the Asabe57 (4): 1087-1098. (SCI, IF=1.153)

106. Liu J.*, Zang C., Tian S., Liu J., Yang H., Jia S., You L., Liu B., Zhang M., 2013. Water conservancy projects in China: achievements, challenges and way forward.Global Environmental Change23(3): 633-643. (SCI, IF=10.427) (ESI Top 1% Highly Cited Paper in 2020)

107. Liu J.*, Lundqvist J., Weinberg J., Gustafsson J., 2013. Food losses and waste in China and their implication for water and land.Environmental Science & Technology47(18): 10137-10144. (SCI, IF=7.149)

108. Liu J.*, Folberth C., Yang H., Röckström J., Abbaspour K., et al., 2013. A global and spatially explicit assessment of climate change impacts on crop production and consumptive water use.PLoS ONE8(2): e57750. (SCI, IF=2.776)

109. Dominguez-Faus R., Folberth C.,Liu J., Jaffe A.M., Alvarez J.J., 2013. Climate change would increase the water intensity of irrigated corn ethanol.Environmental Science & Technology47: 6030-6037. (SCI, IF=7.149)

110. Zeng Z,Liu J.*, Savenije H.H.G., 2013. A simple approach to assess water scarcity integrating water quantity and quality.Ecological Indicators34: 441-449. (SCI, IF=3.983)

111. Zang C.,Liu J.*, 2013. Trend analysis for the flows of green and blue water in the Heihe River Basin, northwestern China.Journal of Hydrology502: 27-36. (SCI, IF=4.405)

112. Wang H.,Liu J., 2013. Reservoir operation incorporating hedging rules and operational inflow forecasts.Water Resources Management27: 1427-1438. (SCI, IF=2.987)

113. Ma K., You L.,Liu J.*, Zhang M., 2012. A hybrid wetland map for China: a synergistic approach using census and spatially explicit datasets.PLoS ONE7(10): e47814. (SCI, IF=2.776)

114. Wang L.,Liu J., Sun G., Wei X., Liu S., Dong Q., 2012. Water, climate, and vegetation: ecohydrology in a changing world.Hydrology and Earth System Sciences16: 4633-4636. (SCIE) (SCI, IF=4.936)

115. Zeng Z.,Liu J.*, Koeneman P.H., Zarate E., Hoekstra A.Y., 2012. Assessing water footprint at river basin level: a case study for the Heihe River Basin in northwest China.Hydrology and Earth System Sciences16(8): 2771-2781. (SCIE) (SCI, IF=4.936)

116. Zang C.,Liu J.*, van der Velde M., Fraxner F., 2012. Assessment of spatial and temporal patterns of green and blue water flows under natural conditions in inland river basins in northwest China.Hydrology and Earth System Sciences16(8): 2859-2870. (SCI, IF=4.936)

117. Fritz S., You L., Bun A., See L., McCallum I., Schill C., Perger C.,Liu J., Hansen M., and Obersteiner M., 2011. Cropland for sub-Saharan Africa: a synergistic approach using five land cover data sets.Geophysical Research Letters38: L04404. (SCI)(SCI, IF=578)

118. Liu J.*,and Yang H., 2010. Spatially explicit assessment of global consumptive water uses in cropland: green and blue water.Journal of Hydrology384(3-4): 187-197. (SCI, IF=4.405)

119. Srivastava G., Panda S.N., Mondal P.,Liu J., 2010. Forecasting of rainfall using ocean-atmospheric indices with a fuzzy neural technique.Journal of Hydrology395: 190-198. (SCI, IF=4.405)

120. Liu J.*,Yang H., 2009. China fights against statistical corruption.Science325: 675-676. (SCI, Correspondance Letter)

121. Liu, J.*,Zehnder A.J.B., Yang H., 2009. Global consumptive water use for crop production: the importance of green water and virtual water,Water Resources Research45(5): W05428. (SCI, IF=4.142)

122. Liu J.*,Williams J.R., Wang X., Yang H., 2009. Using MODAWEC to generate daily weather data for the EPIC model.Environmental Modelling & Software24(5): 655-664. (SCI, IF=4.552)

123. Liu J.*, 2009. A GIS-based tool for modelling large-scale crop-water relations.Environmental Modelling & Software24(3): 411-422. (SCI, IF=4.552)

124. Liu J.*, 2009. Consumptive water use in cropland and its partitioning: a high-resolution assessment.Science in China Series E: Technological Sciences52(11): 3309-3314. (SCI, IF=1.019)

125. Yang H., Zhou Y.,Liu J., 2009. Land and water requirements of biofuel and implications for food supply and the environment in China.Energy Policy37: 1876-1885. (SCIE) (SCI, IF=4.880)

126. Liu J.*,Savenije H.H.G., 2008. Time to break the silence around virtual-water imports.Nature453 (7195): 587. (SCI,Correspondance Letter)

127. Liu J.*, Yang H., Savenije H.H.G., 2008. China’s move to higher-meat diet hits water security.Nature454 (7203): 397. (SCI,Correspondance Letter)

128. Liu J.*, Fritz S., van Wesenbeeck C.F.A., Fuchs M., Obersteiner M., Yang H., 2008. A spatially explicit assessment of current and future hotspots of hunger in Sub-Saharan Africa in the context of global change.Global and Planetary Change64(3-4): 222-235. (SCI, IF=4.100)

129. Liu J.*, Savenije H.H.G., 2008. Food consumption patterns and their effect on water requirement in China.Hydrology and Earth System Sciences12(3): 887-898. (SCIE) (SCI, IF=4.936)

130. Liu J.*, Zehnder A.J.B., Yang H., 2008. Drops for crops: modelling crop water productivity on a global scale.Global NEST Journal10(3): 295-300. (SCIE) (SCI, IF=0.869)

131. Wang X., Zhong X., Liu S.,Liu J., Wang Z., Li M., 2008. Regional assessment of environmental vulnerability in the Tibetan Plateau: development and application of a new method.Journal of Arid Environments72(10): 1929-1939. (SCI, IF=1.825)

132. Liu J.*, Williams J.R., Zehnder A.J.B., Yang H., 2007. GEPIC–modelling wheat yield and crop water productivity with high resolution on a global scale.Agricultural Systems94(2): 478-493. (SCI, IF=4.131)

133. Liu J.*, Wiberg D., Zehnder A.J.B., Yang H., 2007. Modelling the role of irrigation in winter wheat yield and crop water productivity in China.Irrigation Science26(1): 21-33. (SCI, IF=2.440)

134. Liu J.*, Zehnder A.J.B., Yang H., 2007. Historical trends in China’s virtual water trade.Water International32(1): 78-90. (SCIE) (SCI, IF=1.885)

135. Liu J.*, Savenije H.H.G., Xu J., 2003. Water as an economic good and water tariff design—comparison between IBT-con and IRT-cap.Physics and Chemistry of The Earth28(4-5): 209-217. (SCIE) (SCI, IF=1.968)

136. Liu J.*, Savenije H.H.G., Xu J., 2003. Forecast of water demand in Weinan City in China using WDF-ANN.Physics and Chemistry of the Earth28(4-5): 219-224. (SCIE) (SCI, IF=1.968)

专著、译注：

1. Liu J., Clewell A., 2017. Management of Ecological Rehabilitation Projects. Science Press. ISBN：

2. 刘俊国, Clewell A., 2017. 生态修复学导论. 科学出版社. 北京

3. 刘俊国, 臧传富,曾昭, 2015. 黑河流域蓝绿水资源及其可持续利用. 科学出版社. 北京

4. 刘俊国, 曾昭, 赵乾斌, 马坤, 臧传富, 2012. 水足迹评价手册. 科学出版社. [译著]

5. Liu J., 2007. "Modelling global water and food relations development and application of a GIS-based EPIC model, Ph.D. thesis, ETHZ, Zurich, Switzerland, 2007.

论文评奖

1. 2020：ESI高被引论文（Top 1%）(Nature Communications8: 15697).

2. 2020：ESI高被引论文（Top 1%） (Science of the Total Environment 613: 218–232).

3. 2019：ESI高被引论文（Top 1%）(Nature Climate Change 8, 70–74).

4. 2019：ESI高被引论文（Top 1%）(Nature 524 (7565): 335-338).

5. 2019：ESI高被引论文（Top 1%）(CATENA. 160: 134-140).

6. 2019：ESI高被引论文（Top 1%）(Earth's Future 5: 545-559).

7. 2019：ESI高被引论文（Top 1%）(PNAS 112(4): 1031-1035).

8. 2019：ESI高被引论文（Top 1%）(Climatic Change 141 (3): 597–598).

9. 2019：ESI高被引论文（Top 1%）(PNAS 112(4): 1031-1035).

10. 2019：ESI高被引论文（Top 1%）(Global Environmental Change 23(3): 633-643).

11. 2019：Earth's Future 高被下载论文（阅读次数Top 20） (Earth's Future 5: 545-559).

12. 2019：封面论文 (Nature Climate Change9 (12): 979-985).

13. 2019：封面论文(Earth's Future 5: 545-559).

14. 2018：ESI热点论文(Top 0.1%) (Nature 524 (7565): 335-338).

15. 2015：ESI高被引论文（Top 1%）(PNAS 107(17): 8035-8040).

16. 2011：被中国科学技术信息研究所评为“中国前100最具影响力论文”

17. 2010：被北京林业大学评为“最优秀研究论文”