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牛俊

社会职务：1. 国际SCI期刊Stochastic Environmental Research and Risk Assessment(2018年IF: 2.807)副主编2. 美国地球物理联合会(AGU)会员、亚洲大洋洲地球科学学会(AOGS)会员、国际水文科学协会(IAHS)会员、国际水利与环境工程学会(IAHR)会员3. 先后担任Journal of Hydro-environment Research, Stochastic Environmental Research and Risk Assessment, Journal of Hydrology, Hydrological Sciences Journal, ASCE Journal of Hydrologic Engineering, Earth Interactions, ASCE Journal of Hydraulic Engineering, Sustainability, Environmental Modelling & Software, Advances in Meteorology, Global and Planetary Change, Water Resources Research, Hydrology Research, Water Resources Management, Climate Research, Agricultural Water Management, Frontiers of Environmental Science & Engineering, Hydrology and Earth System Sciences,Science of the Total Environment, Earth and Space Science,Environmental Modelling & Assessment,Theoretical and Applied Climatology,Journal of Cleaner Production,Journal of Hydrometeorology等国际SCI期刊审稿专家4. 2019年4月1日获聘为中国科学院深圳先进技术研究院数字所高性能计算技术研究中心客座研究员

所在单位：中国农业大学

基本信息

研究领域：工学

职称：

所在单位：中国农业大学

入库日期：2020-02-06

简介

牛俊，博士生导师。现任水利工程系主任，“全国样板党支部”水利教工党支部组织委员。博士毕业于香港大学 (The University of Hong Kong)，当前研究主要包括变化环境下多尺度水碳循环模拟与应用；流域干旱和洪水灾害形成机理和监控；区域农业–水资源–环境的关联效应；气候变化和人类活动对水文生态过程的影响。

发表中英文学术论文60余篇，其中SCI收录34篇，EI收录25篇，CPCI–S收录4篇；第一作者或通讯作者SCI 论文22篇，发表ESI前10%期刊论文13篇；参编书籍章节4章，其中2章为水文学手册《Handbook of Applied Hydrology》第二版中章节；国际学术会议分会场主持人6次、组委会成员1次，国际会议学术报告32次。牛俊博士主持国家自然科学基金项目（面上项目、青年基金）、香港特别行政区水务署(WSD)咨询项目、中央高校青年教师创新项目、香港大学基金项目，参加国家重点研发计划（十三五）专项、国家自然科学基金重大研究计划集成项目、香港研究资助局基金项目、世界银行贷款项目等。

期刊论文

1. Niu, J.*, Zhu, X., Parry, M.A.J., Kang, S.Z.*, Du, T.S., Tong, L., Ding, R.S., 2019. Environmental burdens of groundwater extraction for irrigation over an inland river basin in Northwest China. Journal of Cleaner Production, 222(2019), 182–192.

2. Fu, J., Niu, J.*, Kang, S.Z., Adeloye, A.J., Du, T.S., 2019. Crop production in the Hexi Corridor challenged by future climate change. Journal of Hydrology, 579(2019), 124197,doi: 10.1016/j.jhydrol.2019.124197.

3. Sun, Y.Q., Niu, J.*, Sivakumar, B., 2019. A comparative study of models for short-term streamflow forcasting with emphasis on wavelet-based approach. Stochastic Environmental Research and Risk Assessment, 33, 1875-1891, doi : 10.1007/s00477-019-01734-7.

4. Sun, Y.Q., Niu, J.*, 2019. Regionalization of daily soil moisture dynamics using wavelet-based multiscale entropy and principal component analysis. Entropy, 21(6), 548.

5. Zou, M.Z., Kang, S.Z.*, Niu, J., Lu, H.L., 2019.Untangling the effects of future climate change and human activity on evapotranspiration in the Heihe agricultural region, Northwest China. Journal of Hydrology, 124323, doi: 10.1016/j.jhydrol.2019.124323.

6. Li, X. J., Kang, S.Z.*, Niu, J., Huo, Z.L., Liu, J.Z., 2019. Improving the representation of stomatal responses to CO₂within the Penman–Monteith model to better estimate evapotranspiration responses to climate change. Journal of Hydrology, 572(2019), 692-705.

7. Niu, J., Kang, S.Z.*, Zhang, X.T., Fu, J., 2019. Vunlnerability analysis based on drought and vegetation dynamics. Ecological Indicators,105(2019), 329-336.

8. Niu, J.*, Liu, Q., Kang, S.Z., Zhang, X.T., 2018. The response of crop water productivity to climatic variation in the upper-middle reaches of the Heihe River basin, Northwest China. Journal of Hydrology, 563(2018),909–926.

9. Chen, Y.Y., Niu, J.*, Kang, S.Z., Zhang, X.T., 2018. Effects of irrigation on water and energy balances in the Heihe River basin using VIC model under different irrigation scenarios. Science of The Total Environment, 645(2018), 1183–1193.

10.Fu, J., Niu, J.*, Sivakumar, B., 2018. Prediction of vegetation anomalies over an inland river basin in Northwestern China. Hydrological Processes, 32, 1814–1827.

11.Zou, M.Z., Kang, S.Z.*, Niu, J.,Lu, H.L., 2018. A new technique to estimate regional irrigation water demand and driving factor effects using an iproved SWAT model with LMDI factor decoposition in an arid basin. Journal of Cleaner Proudction, 185, 814–828.

12.Bu, J., Lu, C., Niu, J., Gao, Y.*, 2018. Attribution of runoff reduction in the Juma River basin to climate variation, direct human intervention, and land use change. Water, 10, 1775.

13.Shi, H.Y., Chen, J.*, Wang, K.Y., Niu, J., 2018. A new method and a new index for identifying socioeconomic drought events under climate change : A case study of the East River basin in China. Science of The Total Environment, 616-617, 363–375.

14.Zhao, F.B., Wu, Y.P.*, Qiu, L.H., Sun, Y.Z., Sun, L.Q., Li, Q.L., Niu, J., Wang, G.Q., 2018. Parameter uncertainty analysis of the SWAT model in a Mountain-Loess transitional watershed on the Chinese Loess Plateau. Water, 10, 690.

15.Niu, J.*, Chen, J.*, Sun, L.Q., Sivakumar, B., 2018. Time-lag effects of vegetation responses to soil mositure evolution : a case study in the Xijiang basin in South China. Stochastic Environmental Research and Risk Assessment, 32, 2423-2432.

16.Cheng, L., Niu, J.*, Liao, D., 2017. Entropy-based investigation on the precipitation variability over the Hexi Corridor in China. Entropy, 19(12), 660.

17.Zou, M.Z., Niu, J., Kang, S.Z.*, Li, X.L., Lu, H.L., 2017. The contribution of human agricultural activities to increasing evapotranspiration is significantly greater than climate change effect over Heihe agricultural region. Scientific Reports, 7, 8805.

18.Li, X.J., Kang, S.Z.*, Niu, J., Du, T.S., Tong, L., Li, S.E., Ding, R.S., 2017. Applying uncertain programming model to improve regional farming economic benefits and water productivity. Agricultural Water Management, 179, 352–365.

19.Niu, J.*, Chen, J.*, Wang, K.Y., Sivakumar, B., 2017. Multi-scale streamflow variability responses to precipitation over the headwater catchments in southern China. Journal of Hydrology, 551, 14-28.

20.Li, X.L., Tong, L.*, Niu, J., Kang, S.Z., Du, T.S., Li, S.E., Ding, R.S., 2017. Spatio-temporal distribution of irrigation water productivity and its driving factors for cereal crops in Hexi Corridor, Northwest China. Agricultural Water Management, 179, 55–63.

21.Niu, J.*, Chen, J.*, Wang, K.Y., Sivakumar, B., 2017. Coherent modes in multi-scale variability of precipitation over the headwater catchments in the Pearl River basin, South China. Hydrological Processes, 31, 948–955.

22.Li, X.L., Zhang, X.T., Niu, J., Tong, L., Kang, S.Z.*, Du, T.S., Li, S.E., Ding, R.S., 2016. Irrigatation water productivity is more influenced by agronomic practice factors than by climatic factors in Hexi Corridor, Northwest China. Scientific Reports, 6, 37971.

23.Niu, J.*, Chen, J.*, 2016. A wavelet perspective on variabilities of hydrological processes in conjunction with geomorphic analysis over the Pearl River basin in South China.Journal of Hydrology, 542(2016), 392-409.

24.Wang, F., Niu, J.*, 2016. The implication of climate signal for precipitation in the Heihe River basin, Northwest China. Advances in Meteorology, 2016(4), 1078617, 1-9.

25.Zhu, X.-G., Parry, M., Lu, Y., Heard, M., Ying, G., Vaughan, S., Shen, J., Jenkins, A., Wang, Y., Lacorte, S., Ouyang, T., Salcedo, F.P., Niu, J., Quinton, J., Luo, C., Zhang, F., Zhang, G., Davies, W., Jones, K., Tyfield, D. 2016. Building the new international science of the agriculture–food–water–environment Nexus in China and the world. Ecosystem Health and Sustainability, 2(11), e01249.

26.Niu, J., Chen, J.*, Sun, L.Q., 2015. Exploration of drought evolution using numerical simulations over the Xijiang (West River) basin in South China. Journal of Hydrology, 526, 68-77.

27.Niu, J., Chen, J.*, Sivakumar, B., 2014. Teleconnection analysis of runoff and soil moisture over the Pearl River basin in southern China. Hydrology and Earth System Sciences, 18, 1475-1492.

28.Chen, J.*, Niu, J., Sivakumar, B., 2014. Daily anomalous high flow (DAHF) of a headwater catchment over the Pearl River basin in South China. Journal of Hydrology, 519, 284-294.

29.Niu, J.*, Sivakumar, B., 2014. Study of runoff response to land use change in the East River basin in South China. Stochastic Environmental Research and Risk Assessment, 28(4), 857-865.

30.Niu, J.*, Chen, J., 2014. Terrestrial hydrological responses to precipitation variability in Southwest China with emphasis on drought. Hydrological Sciences Journal, 59(2), 325-335.

31.Niu, J., Sivakumar, B., Chen, J.*, 2013. Impacts of increased CO₂ on the hydrologic response over the Xijiang (West River) basin, South China. Journal of Hydrology, 505, 218-227.

32.Niu, J.*, Sivakumar, B., 2013. Scale-dependent synthetic streamflow generation using a continuous wavelet transform. Journal of Hydrology, 496, 71-78.

33.Niu, J.*, 2013. Precipitation in the Pearl River basin, South China: Scaling, regional patterns, and influence of large-scale climate anomalies. Stochastic Environmental Research and Risk Assessment, 27(5), 1253-1268.

34.Chen, J.*, Li, Q.L., Niu,J.,Sun, L.Q., 2011. Regional climate change and local urbanization effects on weather variables in Southeast China. Stochastic Environmental Research and Risk Assessment, 25, 555-565.

35.Niu, J., Chen, J.*, 2010. Terrestrial hydrological features of the Pearl River basin in South China. Journal of Hydro-environment Research, 4, 279-288.

书籍章节

36.Chen, J., Shi, H., Sun L., Niu, J., 2016. Yangtze River basin. In Vijay P. Singh (Eds.), Handbook of Applied Hydrology, Second Edition, Chapter: 100, McGraw-Hill.

37.Chen, J., Shi, H., Sun L., &l

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