刘铁,男,理学博士,出生于1977年,山东临沂人。
教育经历:
1999年9月,在华东理工大学获得学士学位;
2006年9月,在天主教鲁汶大学大学获得硕士学位;
2011年8月,在天主教鲁汶大学获博士学位;
工作经历:
2000年1月至2004年9月,在泰安市城市排水管理处做助理工程师工作;
2012年1月至2012年12月,在天主教鲁汶大学做博士后工作,从事水文水资源研究工作
2013年5月至2015年5月,在怀俄明大学做访问学者工作,从事水文水资源研究
2013年4月至今,在中国科学院新疆生态与地理研究所研究员,PI,从事水文水资源研究工作
新疆自然资源学会 副秘书长
新疆地理学会 副秘书长
1.中国科学院, 中科院A类战略先导项目, XDA20060303, 水资源利用和生态决策支持系统, 2018-3至2022-12, 2360万元, 在研, 副主持
2.科技部, 国家重点研发计划, 2017YFC0404501, 河湖系统生态需水核算与调控, 2017-06至2020-12, 246万元, 在研, 主持
3.中国科学院, 中科院重点部署项目, KZZD-EW-12-3, 新疆山区径流水资源趋势预测参数化与风险评估, 2014-12至2016-12, 200万, 已结题, 副主持
4.新疆自治区科技厅, 新疆资源环境科学大型仪器区域中心项目,634231001, 新疆山区山洪灾害预警模型计算平台研发, 2016-10至2018-06, 30万, 已结题, 主持
5.新疆自治区水利厅, 横向项目, QSWJZXHL2016YJYB-003, 新疆中小河流预警预报模型建设, 2016-10至2017-04, 325万, 已结题, 副主持
6.水利部江河水利水电咨询中心项目,横向项目, 654221001, 阿勒泰地区河湖生态系统优化管理对策研究, 2015-11至2017-04, 30万, 已结题, 主持
7.中国科学院, 中国科学院特色所建设项目, 674122001, 塔里木河流域河-湖-库综合调度技术研发, 2015-10至2017-12,100万,已结题, 主持
1. Huang, Y., Ma, Y., Liu, T., 2020. Climate Change Impacts on Extreme Flows Under IPCC RCP Scenarios in the Mountainous Kaidu Watershed , Tarim River Basin. Sustainability 12, 1–23. https://doi.org/10.3390/su12052090
2. Duan, Liu, Meng, Yuan, Luo, Huang, Xing, Nzabarinda, De Maeyer, 2020. Accurate Simulation of Ice and Snow Runoff for the Mountainous Terrain of the Kunlun Mountains, China. Remote Sens. 12, 179. https://doi.org/10.3390/rs12010179
3. Wang, W., Oswald, S.E., Gr?ff, T., Lensing, H.-J., Liu, T., Strasser, D., Munz, M., 2019. Impact of river reconstruction on groundwater flow during bank filtration assessed by transient three-dimensional modelling of flow and heat transport. Hydrogeol. J. https://doi.org/10.1007/s10040-019-02063-3
4. Peng, J., Huang, Y., Liu, T., Jiang, L., Xu, Z., Xing, W., Feng, X., De Maeyer, P., 2019. Atmospheric nitrogen pollution in urban agglomeration and its impact on alpine lake-case study of Tianchi Lake. Sci. Total Environ. 688, 312–323. https://doi.org/10.1016/j.scitotenv.2019.06.202
5. Zhang, Liu, Liu, Li, Ye, 2019. Edge Detection Algorithm of a Symmetric Difference Kernel SAR Image Based on the GAN Network Model. Symmetry (Basel). 11, 557. https://doi.org/10.3390/sym11040557
6. Luo, M., Liu, T., Meng, F., Duan, Y., Bao, A., Xing, W., Feng, X., De Maeyer, P., Frankl, A., 2019. Identifying climate change impacts on water resources in Xinjiang, China. Sci. Total Environ. 676, 613–626. https://doi.org/10.1016/j.scitotenv.2019.04.297
7. Luo, M., Liu, T., Meng, F., Duan, Y., Bao, A., Frankl, A., De Maeyer, P., 2019. Spatiotemporal characteristics of future changes in precipitation and temperature in Central Asia. Int. J. Climatol. 39, 1571–1588. https://doi.org/10.1002/joc.5901
8. Duan, Y., Liu, T., Meng, F., Luo, M., Frankl, A., De Maeyer, P., Bao, A., Kurban, A., Feng, X., 2018. Inclusion of modified snow melting and flood processes in the SWAT model. Water (Switzerland) 10, 1715. https://doi.org/10.3390/w10121715
9. Luo, M., Liu, T., Meng, F., Duan, Y., Frankl, A., Bao, A., De Maeyer, P., 2018. Comparing Bias Correction Methods Used in Downscaling Precipitation and Temperature from Regional Climate Models: A Case Study from the Kaidu River Basin in Western China. Water 10, 1046. https://doi.org/10.3390/w10081046
10. Guo, H., Bao, A., Ndayisaba, F., Liu, T., Jiapaer, G., El-Tantawi, A.M., De Maeyer, P., 2018. Space-time characterization of drought events and their impacts on vegetation in Central Asia. J. Hydrol. 564, 1165–1178. https://doi.org/10.1016/j.jhydrol.2018.07.081
11. Ma, Y., Huang, Y., Liu, T., 2018. Change and Climatic Linkage for Extreme Flows in Typical Catchments of Middle Tianshan Mountain, Northwest China. Water 10, 1061. https://doi.org/10.3390/w10081061
12. Luo, M., Liu, T., Frankl, A., Duan, Y., Meng, F., Bao, A., Kurban, A., De Maeyer, P., 2018. Defining spatiotemporal characteristics of climate change trends from downscaled GCMs ensembles: how climate change reacts in Xinjiang, China. Int. J. Climatol. 38, 2538–2553. https://doi.org/10.1002/joc.5425
13. Li, W., Li, C., Liu, X., He, D., Bao, A., Yi, Q., Wang, B., Liu, T., 2018. Analysis of spatial-temporal variation in NPP based on hydrothermal conditions in the Lancang-Mekong River Basin from 2000 to 2014. Environ. Monit. Assess. 190, 321. https://doi.org/10.1007/s10661-018-6690-7
14. Meng, F., Liu, T., Wang, H., Luo, M., Duan, Y., Bao, A., 2018. An Alternative Approach to Overcome the Limitation of HRUs in Analyzing Hydrological Processes Based on Land Use/Cover Change. Water 10, 434. https://doi.org/10.3390/w10040434
15. Liu, J., Zhang, W., Liu, T., Li, Q., 2018. Runoff Dynamics and Associated Multi-Scale Responses to Climate Changes in the Middle Reach of the Yarlung Zangbo River Basin, China. Water 10, 295. https://doi.org/10.3390/w10030295
16. Liu, T., Fang, H., Willems, P., Bao, A.M., Chen, X., Veroustraete, F., Dong, Q.H., 2013. On the relationship between historical land-use change and water availability: the case of the lower Tarim River region in northwestern China. Hydrol. Process. 27, 251–261. https://doi.org/10.1002/hyp.9223
17. Liu, T., Willems, P., Feng, X.W.W., Li, Q., Huang, Y., Bao, A.M.M., Chen, X., Veroustraete, F., Dong, Q.H.H., 2012. On the usefulness of remote sensing input data for spatially distributed hydrological modelling: Case of the Tarim River basin in China. Hydrol. Process. 26, 335–344. https://doi.org/10.1002/hyp.8129
18. 田霖, 孟凡浩, 刘铁, 巴乌龙, 包安明, 2017. 干旱典型山区CFSR降水数据的偏差校正方法研究. 干旱气象 35, 313–320.
19. 杨帆, 耿银川, 张子文, 吴文豪, 刘铁, 2017. 雷达差分干涉测量技术反演含水层物理量. 测绘科学 32, 65–73.
20. 罗敏, 古丽, 郭浩, 郭辉, 张鹏飞, 孟凡浩, 刘铁, 古丽 加帕尔, 郭浩, 郭辉, 张鹏飞, 孟凡浩, 刘铁, 古丽, 郭浩, 郭辉, 张鹏飞, 孟凡浩, 刘铁, 2017. 2000-2013年塔里木河流域生长季NDVI时空变化特征及其影响因素分析. 自然资源学报 32, 50–63. https://doi.org/10.11849/zrzyxb.20160141
21. 段永超, 孟凡浩, 刘铁, 罗敏, 张军峰, 包安明, 2017. 昆仑山提孜那甫河流域雨雪分离的温度条件分析. 地球科学信息 19. https://doi.org/10.3724/SP.J.1047.2017.01661