人才详细信息
简介
中国科学院青藏高原研究所,研究员
青藏高原环境变化与地表过程研究中心,主任
青藏高原地球系统与资源环境重点实验室,副主任
受教育经历(从大学本科开始,按时间倒排序):
2005/09-2010/07,中国科学院青藏高原研究所,博士
2001/09-2005/09,兰州大学,资源环境学院地理系,理学学士
研究工作经历(按时间倒排序):
2019/01-至今, 中国科学院青藏高原研究所,青藏高原环境变化与地表过程重点实验室,研究员
2012/07-2019/01,中国科学院青藏高原研究所,青藏高原环境变化与地表过程重点实验室,副研究员
2010/07-2012/06,中国科学院青藏高原研究所,青藏高原环境变化与地表过程重点实验室,助理研究员
2012/07-2012/10,法国国家科学院Laboratoire des Sciences du Climat et de l’Environnement (LSCE),访问学者
2009/02-2009/05,法国国家科学院Laboratoire des Sciences du Climat et de l’Environnement (LSCE),访问学者
研究方向
水体稳定同位素现代过程和冰芯记录
职务
社会任职
承担项目
获奖及荣誉
代表论著
发表论著(*表示通讯作者):
1. Gao, J.* , T. Yao, V. Masson-Delmotte, H. Steen-Larsen and W. Wang. (2019). Collapsing glaciers threaten Asia’s water supplies. Nature, 565, 19-21, 2019.
2. Yuqing Wu, Jing Gao*, Aibin Zhao. (2024). Cloud properties and dynamics over the Tibetan Plateau - A review, Earth-Science Reviews, 248(2024), 104633, https://doi.org/10.1016/j.earscirev.2023.104633.
3. Adhikari N., Gao J*., Zhao A., Xu T., Chen M., Niu X., & Yao T. (2024). Spring tropical cyclones modulate near-surface isotopic compositions of atmospheric water vapour in Kathmandu, Nepal. Atmospheric Chemistry and Physics, 24(5), 3279-3296.
4. Chen M., Gao J.*, Luo L., Zhao A., Niu X., Yu W., Liu Y. & Chen G. (2024). Temporal variations of stable isotopic compositions in atmospheric water vapor on the Southeastern Tibetan Plateau and their controlling factors. Atmospheric Research, 303, 107328.
5. Niranjan Adhikari, Jing Gao*, Tandong Yao, Aruna Puri, Manli Chen, Aibin Zhao. (2024). The influence of moisture transport processes on the stable isotopic compositions in precipitation on the South slope of the Himalayas. Global and Planetary Change, Available online 28 April 2024, 104453
6. Fan, X., Gao, J.*, Zhao, A. and Gong, P. (2023). Spatial variability of stable isotopes in river water over the Tibetan Plateau. Hydrological Processes, 37(10), p.e15012.
7. Di Dai, Jing Gao*, Hans Christian Steen-Larsen, Tandong Yao, Yaoming Ma, Meilin Zhu, Shenghai Li. (2021). Continuous monitoring of the isotopic composition of surface water vapor at Lhasa, southern Tibetan Plateau, Atmospheric Research, 264(2021), 105827, https://doi.org/10.1016/j.atmosres.2021.105827.
8. Islam, M. R., J. Gao*, N. Ahmed, M. M. Karim, A. Q. Bhuiyan, A. Ahsan, and S. Ahmed. (2020). Controls on spatiotemporal variations of stable isotopes in precipitation across Bangladesh, Atmospheric Research, 247, https://doi.org/10.1016/j.atmosres.2020.105224.
9. Adhikari, N., J. Gao*, T. Yao, Y. Yang and D. Dai. (2020). The main controls of the precipitation stable isotopes at Kathmandu, Nepal, Tellus B: Chemical and Physical Meteorology, 72:1, 1-17, DOI: 10.1080/16000889.2020.1721967.
10. Gao, J., Y. He, V. Masson-Delmotte, and T. Yao. (2018). ENSO Effects on Annual Variations of Summer Precipitation Stable Isotopes in Lhasa, Southern Tibetan Plateau. Journal of Climate, 31, 1173–1182, https://doi.org/10.1175/JCLI-D-16-0868.1.
11. Gao, J.*, C. Risi, V. Masson-Delmotte, Y. He, and B. Xu. (2016). Southern Tibetan Plateau ice core δ18O reflects abrupt shifts in atmospheric circulation in the late 1970s, Clim. Dyn., 1-12, doi:10.1007/s00382-015-2584-3, 2016.
12. Gao, J.*, S. S. P. Shen, T. Yao, N. Tafolla, C. Risi, and Y. He, Reconstruction of precipitation δ18O over the Tibetan Plateau since 1910, J. Geophys. Res. Atmos., 120, doi:10.1002/2015JD023233, 2015.
13. He, Y., C. Risi, J. Gao*, et al., Impact of atmospheric convection on south Tibet summer precipitation isotopologue composition using a combination of in situ measurements, satellite data, and atmospheric general circulation modeling, J. Geophys. Res. Atmos., doi:10.1002/2014JD022180, 2015.
14. Jing Gao*, Tandong Yao and Daniel Joswiak. Variations of water stable isotopes (δ18O) in two lake basins, southern Tibetan Plateau. Annals of Glaciology, 55(66). doi: 10.3189/2014AoG66A109, 2014.
15. Tandong Yao*, Valerie Masson-Delmotte, Jing Gao*, Wusheng Yu, Xiaoxin Yang, Camille Risi, Christophe Sturm, Martin Werner, Huabiao Zhao, You He, Wei Ren, Lide Tian, Chunming Shi and Shugui Hou. A review of climatic controls on δ18O in precipitation over the Tibetan Plateau: observations and simulations. Reviews of Geophysics, DOI: 10.1002/rog.20023, 2013.
16. Jing Gao*, Valerie Masson-Delmotte, Camille Risi, You He and Tandong Yao*, What controls precipitation δ18O in the southern Tibetan Plateau at seasonal and intra-seasonal scales? A case study at Lhasa and Nyalam. Tellus B, 65, 21043, https://dx.doi.org/10.3402/tellusb.v65i0.21043, 2013.
17. Jing Gao*, V. Masson-Delmotte, T. Yao, L. Tian, C. Risi and G. Hoffmann, Precipitation water stable isotopes in the south Tibetan Plateau: observations and modeling. Journal of Climate, 24: 3161-3178, 2011.
18. Gao Jing*, Tian Lide, Liu Yongqin and Gong Tongliang, Oxygen isotope variation in the water cycle of the Yamzho Lake Basin in southern Tibetan Plateau. Chinese Science Bulletin, 54(16): 2758-2765, 2009.
19. Axelsson J., Gao J., Eckhardt S., Cassiani M., Chen D., & Zhang Q. (2023). A precipitation isotopic response in 2014–2015 to moisture transport changes in the central Himalayas. Journal of Geophysical Research: Atmospheres, 128, e2023JD038568. https://doi.org/10.1029/2023JD038568
20. Tandong Yao, Tobias Bolch, Deliang Chen, Jing Gao, Walter Immerzeel, Shilong Piao, Fengge Su, Lonnie Thompson, Yoshihide Wada, Lei Wang, Tao Wang, Guangjian Wu, Baiqing Xu, Wei Yang, Guoqing Zhang & Ping Zhao. The imbalance of the Asian water tower. Nat Rev Earth Environ, 3, 618–632 (2022). https://doi.org/10.1038/s43017-022-00299-4
21. Yu W., T. Yao, L. G. Thompson, J. Jouzel, H. Zhao, B. Xu, Z. Jing, N. Wang, G. Wu, Y. Ma, J. Gao, X. Yang, J. Zhang, D. Qu (2021), Temperature signals of ice core and speleothem isotopic records from Asian monsoon region as indicated by precipitation δ18O, Earth Planet. Sci. Lett., 554, https://doi.org/10.1016/j.epsl.2020. 116665.
22. Ahmed N., N. Kurita, A. Chowdhury, J. Gao, S. M. Quamrul Hassan, A. Mannan, A. Mallik, S. Choudhury, A. Bhuiyan & M. Karim (2020), Atmospheric factors controlling stable isotope variations in modern precipitation of the tropical region of Bangladesh, Isotopes in Environmental and Health Studies, 56:3, 220-237, DOI: 10.1080/10256016.2020.1770245.
23. Munksgaard, N.C., N. Kurita, R.Sánchez-Murillo, N. Ahmed, Araguas L., Balachew D. L., Bird M. I., Chakraborty S., Chinh N. K., Cobb K. M., Ellis S. A., Esquivel-Hernández G., Ganyaglo S. Y., J. Gao, Gastmans D., Kaseke K. F., Kebede S., Morales M. R., Mueller M., Chee Poh S., Santos V., He S., Wang L., Yacobaccio H. and Zwart C (2019), Data Descriptor: Daily observations of stable isotope ratios of rainfall in the tropics. Scientific Reports, 9, 14419. https://doi.org/10.1038/s41598-019-50973-9.
24. Liu Y.Q. *, Yao T.D., Jiao N.Z., Zhu L.P., Hu A.Y., Liu X.B., Gao J., Chen Z.Q. Salinity Impact on Bacterial Community Composition in Five High-Altitude Lakes from the Tibetan Plateau, Western China. Geomicrobiology Journal, 30(5): 462-469, 2013.
25. Shi Chunming, V. Masson-Delmotte, C. Risi, T. Eglin, M. Stievenard, M. Pierre, X. Wang, J. Gao, F. Bréon, Q. Zhang*, V. Daux, Sampling Strategy and Climatic Implications of Tree-Ring Stable isotopes in Southeast Tibetan Plateau, Earth and Planetary Science Letters, 301: 307-316, 2011.
26. Huabiao Zhao*, Baiqing Xu, Tandong Yao, Guangjian Wu, Shubiao Lin, Jing Gao and Mo Wang. Deuterium excess record in a southern Tibetan ice core and its potential climatic implications, Climate Dynamics, DOI: 10.1007/s00382-011-1161-7, 2011.
27. 高晶*, 姚檀栋, 蔡榕, 张泰华, 何泽青, 牛晓伟, 徐柏青, 邬光剑. (2019). 青藏高原大气水汽稳定同位素三维观测体系,科学通报,64(27),2822-2829,2019.
28. 王逸凡, 高晶*, 胡迈, 姚檀栋, 牛晓伟, 赵爱斌, 申子恒 (2023). 青藏高原大气CH_4源汇及其浓度时空变化特征研究进展. 冰川冻土, 45(01):1-17.
29. 高晶*, 姚檀栋, 田立德, 刘勇勤. 羊卓雍错流域湖水氧稳定同位素空间分布特征, 冰川冻土, 30(2): 932-943, 2008.
30. 席文涛, 高晶. 基于地理探测器分析青藏高原降水δ~(18)O空间分异特征[J]. 干旱区研究, 2021, 38(05):1199-1206. DOI:10.13866/j.azr.2021.05.01.
31. 任行阔, 高晶, 杨育龙, 陈曼丽, 牛晓伟, 赵爱斌. 慕士塔格地区大气水汽氢氧稳定同位素季节内变化特征及影响因素分析[J]. 冰川冻土, 2021, 43(02):331-341.
32. 袁峰, 高晶, 姚路, 陈兵, 何亚柏, 胡迈, 许振宇, 阚瑞峰. 球载CRDS高灵敏度甲烷测量系统的研制[J]. 光学精密工程, 2020, 28(09):1881-1892.
33. 周天军*,高晶, 赵寅, 张丽霞, 张文霞. 影响“亚洲水塔”的水汽输送过程,中国科学院院刊,34(11),1210-1219,2019.
34. 姚檀栋, 邬光剑, 徐柏青, 王伟财, 高晶, 安宝晟. “亚洲水塔”变化与影响[J]. 中国科学院院刊, 2019, 34(11):1203-1209, DOI:10.16418/j.issn.1000-3045.2019.11.003.
35. 王茉, 徐柏青, 杨松, 高晶, 张泰华, 何泽青, Matja Kobal, A. D. A. Hansen. 基于系留气球的藏东南大气黑碳垂直分布[J]. 科学通报, 2019, 64(27):2949-2958.
36. 姚檀栋, 朴世龙, 沈妙根, 高晶, 杨威, 张国庆, 类延斌, 高杨, 朱立平, 徐柏青, 余武生, 李生海. 印度季风与西风相互作用在现代青藏高原产生连锁式环境效应[J]. 中国科学院院刊, 2017, 32(09):976-984. DOI: 10.16418/j.issn.1000-3045.2017.09.007.
37. 何由, 高晶, 姚檀栋, 丁永建, 辛儒. 利用不同插值方法对青藏高原降水稳定同位素空间分布分析, 冰川冻土, 37(2): 351-359, 2015.