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田文寿

【来源:大气科学学院 | 发布日期:2010-12-14 | 【选择字号:
田文寿,男,1968年11月出生,甘肃武威人,理学博士,二级教授,博士生导师,现任兰州大学大气科学学院院长。国家杰出青年基金获得者,“万人计划”科技创新领军人才,科技部重点领域创新团队负责人,国华杰出学者奖领军人才,国务院政府特殊津贴专家,“赵九章优秀中青年科技奖”获得者。现为国务院学位委员会第7届学科评议组成员,甘肃省科协第7届委员,中国气象学会热带与海洋气象学委员会委员、中国气象学会数值预报专业委员会委员,《气象学报》、《高原气象》等学术期刊编委。
主要从事平流层大气化学与气候相互作用、平流层-对流层物质交换、平流层对流层动力耦合等方面的研究工作。主持完成国家自然科学基金杰出青年基金项目、国家自然科学基金重点项目、面上项目、国家973项目子课题、中科院A类先导项目子课题等各类项目10余项,发表各类期刊论文120余篇,取得了一些创新性研究成果并得到了国内外同行的普遍关注。
 
联系方式:
邮箱:wstian@lzu.edu.cn
电话:0931-8914376
地址:甘肃省兰州市天水南路222号
邮编:730000
 
教育经历:
1999/10–2002/10,英国Leeds大学地球环境学院攻读博士学位
1991/9–1994/7,兰州大学大气科学系攻读硕士学位
1987/9–1991/7,兰州大学大气科学系攻读学士学位
 
工作经历:
2005 年6 月至今,兰州大学大气科学学院,教授,博士生导师
2002 年10 月-2005 年6 月,英国Leeds 大学地球环境学院,博士后
1998 年4 月-1999 年4 月,英国Edinburgh 大学大气科学系,访问学者
1994 年9 月-1998 年4 月,兰州大学大气科学系,助教,讲师
 
5年代表性论文:
2018年:
1. Zhang, J., Tian, W*., Xie, F., Chipperfield, M. P., Feng, W., Son, S. W., ... & Deushi, M. (2018). Stratospheric ozone loss over the Eurasian continent induced by the polar vortex shift. Nature communications, 9(1), 206. DOI: 10.1038/ s41467-017-02565-2
2. Sang, W., Huang, Q., Tian, W., Wright, J. S., Zhang, J., Tian, H., ... & Han, Y. (2018). A Large Eddy Model study on the effect of overshooting convection on lower stratospheric water vapor. Journal of Geophysical Research: Atmospheres, 123(18), 10-023. DOI: 10. 1029/2017JD028069
3. Zhang, J., Tian, W*., Xie, F., Sang, W., Guo, D., Chipperfield, M., ... & Hu, D. (2018). Zonally asymmetric trends of winter total column ozone in the northern middle latitudes. Climate Dynamics, 1-18. DOI: 10.1007/s00382-018-4393-y
4. Huang, Q., Marsham, J. H., Tian, W., Parker, D. J., & Garcia-Carreras, L. (2018). Large-eddy simulation of dust-uplift by a haboob density current. Atmospheric environment, 179, 31-39. DOI: 10.1016/j.atmosenv.2018.01.048
5. Wang, F., Tian, W*., Xie, F., Zhang, J., & Han, Y. (2018). Effect of Madden–Julian oscillation occurrence frequency on the interannual variability of Northern Hemisphere stratospheric wave activity in winter. Journal of Climate, 31(13), 5031-5049. DOI: 10.1175/JCLI-D-17-0476.1
6. Huang, J., Tian, W*., Gray, L. J., Zhang, J., Li, Y., Luo, J., & Tian, H. (2018). Preconditioning of Arctic stratospheric polar vortex shift events. Journal of Climate, 31(14), 5417-5436. DOI: 10.1175/JCLI-D-17-0695.1
7. Luo, J., Pan, L. L., Honomichl, S. B., Bergman, J. W., Randel, W. J., Francis, G., ... & Tian, W. (2018). Space–time variability in UTLS chemical distribution in the Asian summer monsoon viewed by limb and nadir satellite sensors. Atmospheric Chemistry and Physics, 18(16), 12511-12530.
8. Hu, D., Guan, Z., Tian, W., & Ren, R. (2018). Recent strengthening of the stratospheric Arctic vortex response to warming in the central North Pacific. Nature communications, 9. DOI:10.1038/s41467-018-04138-3
9. Li, Y., Tian, W*., Xie, F., Wen, Z., Zhang, J., Hu, D., & Han, Y. (2018). The connection between the second leading mode of the winter North Pacific sea surface temperature anomalies and stratospheric sudden warming events. Climate Dynamics, 51(1-2), 581-595. DOI: 10.1007/s00382-017-3942-0
2017年:
10. Zhang, J., Xie, F., Tian, W., Han, Y., Zhang, K., Qi, Y., ... & Shu, J. (2017). Influence of the Arctic Oscillation on the Vertical Distribution of Wintertime Ozone in the Stratosphere and Upper Troposphere over the Northern Hemisphere. Journal of Climate, 30(8), 2905-2919. DOI: 10.1175/JCLI-D-16-0651.1
11. Huang, J., Tian, W*., Zhang, J., Huang, Q., Tian, H., & Luo, J. (2017). The connection between extreme stratospheric polar vortex events and tropospheric blockings. Quarterly Journal of the Royal Meteorological Society, 143(703), 1148-1164.
12. Li, Y., & Tian, W*. (2017). Different impact of central Pacific and eastern Pacific El Ni?o on the duration of sudden stratospheric warming. Advances in Atmospheric Sciences, 34(6), 771-782. DOI:10.1007/s00376-017-6286-0
13. Tian, W., Li, Y., Xie, F., Zhang, J., Chipperfield, M. P., Feng, W., ... & Ma, X. (2017). The relationship between lower-stratospheric ozone at southern high latitudes and sea surface temperature in the East Asian marginal seas in austral spring. Atmospheric Chemistry and Physics, 17(11), 6705-6722. DOI: 10.5194/acp-17-6705-2017
14. Xie, F., Li, J., Zhang, J., Tian, W., Hu, Y., Zhao, S., ... & Yang, Y. (2017). Variations in North Pacific sea surface temperature caused by Arctic stratospheric ozone anomalies. Environmental Research Letters, 12(11), 114023. DOI: 10.1088/1748-9326/aa9005
15. Tian, H., Tian, W*., Luo, J., Zhang, J., & Zhang, M. (2017). Climatology of cross‐tropopause mass exchange over the Tibetan Plateau and its surroundings. International Journal of Climatology, 37(11), 3999-4014. DOI: 10.1002/joc.4970
2016年:
16. Wei, D., Tian, W. S*., Chen, Z. Y., Zhahg, J. K., Xu, P. P., Huang, Q., ... & Zhang, J. (2016). Upward transport of air mass during a generation of orographic waves in the UTLS over the Tibetan Plateau. Chinese J. Geophysics. (in Chinese), 59(3): 791-802. DOI: 10.6038/cjg20160303
17. Xie, F., Li, J., Tian, W., Hu, D., Zhang, J., Shu, J., & Wang, C. (2016). A quantitative estimation of the transport of surface emissions from different regions into the stratosphere. Sola, 12, 65-69. DOI:10.215/sola.2016-015
18. Xie, F., Li, J., Tian, W., Fu, Q., Jin, F. F., Hu, Y., ... & Yang, Y. (2016). A connection from Arctic stratospheric ozone to El Ni?o-Southern oscillation. Environmental Research Letters, 11(12), 124026. DOI: 10.1088/1748-9326/11/12/124026
19. Hu, D., Tian, W., Guan, Z., Guo, Y., & Dhomse, S. (2016). Longitudinal asymmetric trends of tropical cold-point tropopause temperature and their link to strengthened Walker circulation. Journal of Climate, 29(21), 7755-7771. DOI:10.1175/JCLI-D-15-0851.1
20. Xie, F., Li, J., Tian, W., Zhou, X., & Ma, X. (2016). The variations in middle and upper stratospheric water vapour over the past two decades. SOLA, 12, 127-134.
21. Zhang, J., Tian, W*., Chipperfield, M. P., Xie, F., & Huang, J. (2016). Persistent shift of the Arctic polar vortex towards the Eurasian continent in recent decades. Nature Climate Change, 6(12), 1094. DOI: 10.1038/NCLIMATE3136
22. Chen, Z., Chen H., et al., Tian, W. (2016). Advances in the researches of the middle and upper atmosphere in china in 2014–2016. 空间科学学报, 36(5), 738-752.
2015年:
23. Hu, D., Tian, W*., Xie, F., Wang, C., & Zhang, J. (2015). Impacts of stratospheric ozone depletion and recovery on wave propagation in the boreal winter stratosphere. Journal of Geophysical Research: Atmospheres, 120(16), 8299-8317. DOI: 10.1002/2014JD022855
24. Zhang, J., Tian, W*., Wang, Z., Xie, F., & Wang, F. (2015). The influence of ENSO on northern midlatitude ozone during the winter to spring transition. Journal of Climate, 28(12), 4774-4793. DOI:10.1175/JCLI-D-14-00615.1
25. Wang, C., Tian, W*., Zhang, J., Hu, D., Dhomse, S., Shu, J., & Luo, J. (2015). Model study of the impacts of emissions, chemical and dynamical processes on the CO variability in the tropical upper troposphere and lower stratosphere. Tellus B: Chemical and Physical Meteorology, 67(1), 27475. http://dx.doi.org/10.3402/tellusb.v67.27475
26. Shang, L., Liu, Y., Tian, W., & Zhang, Y. (2015). Effect of methane emission increases in East Asia on atmospheric circulation and ozone. Advances in Atmospheric Sciences, 32(12), 1617-1627. DOI: 10.1007/s00376-015-5028-4. 
27. Zhang, J., Tian, W*., Xie, F., Li, Y., Wang, F., Huang, J., & Tian, H. (2015). Influence of the El Ni?o southern oscillation on the total ozone column and clear-sky ultraviolet radiation over China. Atmospheric Environment, 120, 205-216. DOI:10.1016/j.atmosenv.2015.08.080
2014年:
28. Huo, Y. F., Duan, M. Z., & Tian, W. S. (2014). A DOAS-like method for total column of CO2 from ground-based FTS measurements of the direct solar beam. Atmospheric Measurement Techniques Discussions, 7(3), 2405-2423.
29. Hu, D., Tian, W*., Xie, F., Shu, J., & Dhomse, S. (2014). Effects of meridional sea surface temperature changes on stratospheric temperature and circulation. Advances in Atmospheric Sciences, 31(4), 888-900. DOI: 10.1007/s00376-013-3152-6 
30. Xie, F., Li, J., Tian, W., Zhang, J., & Sun, C. (2014). The relative impacts of El Ni?o Modoki, canonical El Ni?o, and QBO on tropical ozone changes since the 1980s. Environmental Research Letters, 9(6), 064020. DOI:10.1088/1748-9326/9/6/064020
31. Xie, F., Li, J., Tian, W., Li, Y., & Feng, J. (2014). Indo-Pacific warm pool area expansion, modoki activity, and tropical cold-point tropopause temperature variations. Scientific reports, 4, 4552. DOI: 10.1038/srep04552
32. Zhang, J., Tian, W*., Xie, F., Tian, H., Luo, J., Zhang, J., ... & Dhomse, S. (2014). Climate warming and decreasing total column ozone over the Tibetan Plateau during winter and spring. Tellus B: Chemical and Physical Meteorology, 66(1), 23415. http://dx.doi.org/10.3402/tellusb.v66.23415
33. Xie, F., Li, J., Tian, W., Zhang, J., & Shu, J. (2014). The impacts of two types of El Ni?o on global ozone variations in the last three decades. Advances in Atmospheric Sciences, 31(5), 1113-1126. DOI: 10.1007/s00376-013-3166-0.s
34. Chen Z., Chen H., et al., Tian, W (2014): Advances in the research of the Middle and Upper Atmosphere in China in 2012-2014, 空间科学学报.
35. Wang, W., Tian, W*., Dhomse, S., Xie, F., Shu, J., & Austin, J. (2014). Stratospheric ozone depletion from future nitrous oxide increases. Atmospheric Chemistry and Physics, 14(23), 12967-12982. DOI:10.5194/acp-14-12967-2014

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