姚 遥,男,1985年生。中国海洋大学气象学学士(2009年),博士(2014年),中国科学院大气物理研究所副研究员(2019年),硕士生导师。
主要从事气候异常背景下大气次季节环流的变化及其对极端天气气候的影响。包括极端天气气候发生机制(极寒、热浪、暴雪、雾霾等),北极海冰变化,大气低频模态的时空变化等,并积极探寻极端天气、气候变化等相关成果应用和技术服务。近年来已在Journal of the Atmospheric Sciences, Journal of Climate, Environmental Research Letters, Atmospheric Chemistry and Physics等国际专业期刊发表SCI学术论文40余篇,其中3篇论文被ESI收录为高被引论文;承担国家自然科学基金委项目3项,参加各类科研项目(包括重点研发、重大基金、基金重点项目、基金原创项目、中科院先导专项等)十余项。
个人主页请见:
http://people.ucas.edu.cn/~yaoyao
https://www.researchgate.net/profile/Yao-Yao-33
发表论文情况:
1) Zhuo, W. Q.; Yao, Y.*; Luo, D. H.; Simmonds, I.; Huang, F. The key atmospheric drivers linking regional Arctic amplification with East Asian cold extremes. Atmos. Res. 2023, 283.
2) Yao, Y.*; Zhuo, W.; Gong, Z.; Luo, B.; Luo, D.; Zheng, F.; Zhong, L.; Huang, F.; Ma, S.; Zhu, C.; Zhou, T. Extreme Cold Events in North America and Eurasia in November−December 2022: A Potential Vorticity Gradient Perspective. Adv. Atmos. Sci. 2023, 40, 953-962.
3) Song, Y. Y.; Yao, Y.*; Luo, D. H.; Li, Y. L. Loss of autumn Kara-East Siberian Sea ice intensifies winter Ural blocking and cold anomalies in high latitudes of Eurasia. Atmos. Res. 2023, 295.
4) Luo, B. H.; Luo, D. H.; Zhuo, W. Q.; Xiao, C. D.; Dai, A. G.; Simmonds, I.; Yao, Y.; Diao, Y. A.; Gong, T. T. Increased Summer European Heatwaves in Recent Decades: Contributions From Greenhouse Gases-Induced Warming and Atlantic Multidecadal Oscillation-Like Variations. Earths Future 2023, 11.
5) Luo, B. H.; Luo, D. H.; Ge, Y.; Dai, A. G.; Wang, L.; Simmonds, I.; Xiao, C. D.; Wu, L. X.; Yao, Y. Origins of Barents-Kara sea-ice interannual variability modulated by the Atlantic pathway of El Nino-Southern Oscillation. Nature Communications 2023, 14.
6) Li, M. Y.; Luo, D. H.; Simmonds, I.; Yao, Y.; Zhong, L. H. Bidimensional climatology and trends of Northern Hemisphere blocking utilizing a new detection method. Q. J. Roy. Meteor. Soc. 2023.
7) Yao, Y.*; Zhang W. Q.; Luo D. H.; Zhong L. H.; L., P. Seasonal cumulative effect of Ural blocking episodes on the frequent cold events in China during the early winter of 2020/21. Adv. Atmos. Sci. 2022, 39, 609-624. (ESI高被引论文)
8) Zhuo, W. Q.; Yao, Y.*; Luo, D. H.; Simmonds, I.; Huang, F. Combined impact of the cold vortex and atmospheric blocking on cold outbreaks over East Asia and the potential for short-range prediction of such occurrences. Environmental Research Letters 2022, 17, 1.
9) Zhong, L. H.; Hua, L. J.; Gong, Z. H.; Yao, Y.; Mu, L. Quantifying the Spatial Characteristics of the Moisture Transport Affecting Precipitation Seasonality and Recycling Variability in Central Asia. Adv. Atmos. Sci. 2022, 39, 967-984.
10) Zheng, F.; Wu, B.; Wang, L.; Peng, J. B.; Yao, Y.; Zong, H. F.; Bao, Q.; Ma, J. H.; Hu, S.; Ren, H. L.; Cao, T. W.; Lin, R. P.; Fang, X. H.; Tao, L. J.; Zhou, T. N.; Zhu, J. Can Eurasia Experience a Cold Winter under a Third-Year La Nina in 2022/23? Adv. Atmos. Sci. 2022, 40, 541-548.
11) Yang, M. H.; Li, C. Y.; Luo, D. H.; Yao, Y.; Li, X.; Chen, X.; Lu, Y. Mechanical and Thermal Impacts of the Tibetan-Iranian Plateau on the North Pacific Storm Track: Numerical Experiments by FGOALS-f3-L. Journal of Geophysical Research-Atmospheres 2022, 127.
12) Hou, Y. R.; Cai, W. J.; Holland, D. M.; Cheng, X.; Zhang, J. K.; Wang, L.; Johnson, N. C.; Xie, F.; Sun, W. J.; Yao, Y.; Liang, X.; Yang, Y.; Chang, C. H.; Xin, M. J.; Li, X. C. A surface temperature dipole pattern between Eurasia and North America triggered by the Barents-Kara sea-ice retreat in boreal winter. Environmental Research Letters 2022, 17.
13) Dai, G. K.; Li, C. X.; Han, Z.; Luo, D. H.; Yao, Y. The Nature and Predictability of the East Asian Extreme Cold Events of 2020/21. Adv. Atmos. Sci. 2022, 39, 566-575.
14) Zhong, L. H.; Hua, L. J.; Yao, Y.; Feng, J. M.; Zhao, T. B. Moisture transport to a typical transitional climate zone in North China forced by atmospheric and oceanic internal variability under the background of global warming. Int. J. Climatol. 2021, 41, 2962-2982.
15) Zhong, L. H.; Hua, L. J.; Yao, Y.; Feng, J. M. Interdecadal aridity variations in Central Asia during 1950-2016 regulated by oceanic conditions under the background of global warming. Clim. Dynam. 2021, 56, 3665-3686.
16) Yang, M. H.; Luo, D. H.; Shi, W. L.; Yao, Y.; Li, X.; Chen, X. Contrasting interannual impacts of European and Greenland blockings on the winter North Atlantic storm track. Environmental Research Letters 2021, 16.
17) Yang, M. H.; Luo, D. H.; Li, C. Y.; Yao, Y.; Li, X.; Chen, X. Influence of Atmospheric Blocking on Storm Track Activity Over the North Pacific During Boreal Winter. Geophys. Res. Lett. 2021, 48.
18) Yang, M. H.; Luo, D. H.; Li, C. Y.; Li, X.; Yao, Y.; Zhao, J. J.; Chen, X. Inconsistent Variations Between the Northern and Southern North Pacific Storm Track. Geophys. Res. Lett. 2021, 48.
19) Song, Y. Y.; Luo, D. H.; Zheng, F.; Yao, Y. Impact of Ural blocking on sub-seasonal Siberian cold anomalies modulated by the winter East Asian trough. Clim. Dynam. 2021.
20) Li, M. Y.; Yao, Y.*; Simmonds, I.; Luo, D. H.; Zhong, L. H.; Pei, L. Linkages between the atmospheric transmission originating from the North Atlantic Oscillation and persistent winter haze over Beijing. Atmospheric Chemistry and Physics 2021, 21, 18573-18588.
21) Li, M. Y.; Luo, D. H.; Simmonds, I.; Dai, A. G.; Zhong, L. H.; Yao, Y. Anchoring of atmospheric teleconnection patterns by Arctic Sea ice loss and its link to winter cold anomalies in East Asia. Int. J. Climatol. 2021, 41, 547-558.
22) Chen, Y. A.; Luo, D. H.; Zhong, L. H.; Yao, Y. Effects of Barents-Kara Seas ice and North Atlantic tripole patterns on Siberian cold anomalies. Weather and Climate Extremes 2021, 34.
23) Che, Z. H.; Yao, Y.*; Zhong, L. H. Wintertime sea surface temperature front around the Kuroshio Extension and its impact on North Pacific blocking. Int. J. Climatol. 2021, 41, 1905-1926.
24 Li, M. Y.; Yao, Y.*; Simmonds, I.; Luo, D. H.; Zhong, L. H.; Chen, X. D. Collaborative impact of the NAO and atmospheric blocking on European heatwaves, with a focus on the hot summer of 2018. Environmental Research Letters 2020, 15.
25) Li, M. Y.; Luo, D. H.; Yao, Y.*; Zhong, L. H. Large-scale atmospheric circulation control of summer extreme hot events over China. Int. J. Climatol. 2020, 40, 1456-1476.
26) Zhong, L. H.; Hua, L. J.; Ma, Z. G.; Yao, Y. A quantitative study of moisture transport variation on the interdecadal variation of the summer precipitation in South China from 1979 to 2015. Clim. Dynam. 2019, 53, 4743-4761.
27) Yao, Y.* Spatial Asymmetric Tilt of the NAO Dipole Mode and Its Variability. Atmosphere 2019, 10.
28) Li, M. Y.; Yao, Y.*; Luo, D. H.; Zhong, L. H. The Linkage of the Large-Scale Circulation Pattern to a Long-Lived Heatwave over Mideastern China in 2018. Atmosphere 2019, 10.
29) Yao, Y.*; Luo, D. H.; Zhong, L. H. Effects of Northern Hemisphere Atmospheric Blocking on Arctic Sea Ice Decline in Winter at Weekly Time Scales. Atmosphere 2018, 9.
30) Yao, Y.*; Luo, D. H. An Asymmetric Spatiotemporal Connection between the Euro-Atlantic Blocking within the NAO Life Cycle and European Climates. Adv. Atmos. Sci. 2018, 35, 796-812.
31) Pei, L.; Yan, Z. W.; Sun, Z. B.; Miao, S. G.; Yao, Y. Increasing persistent haze in Beijing: potential impacts of weakening East Asian winter monsoons associated with northwestern Pacific sea surface temperature trends. Atmospheric Chemistry and Physics 2018, 18, 3173-3183.
32) Luo, B. H.; Yao, Y.* Recent Rapid Decline of the Arctic Winter Sea Ice in the Barents-Kara Seas Owing to Combined Effects of the Ural Blocking and SST. Journal of Meteorological Research 2018, 32, 191-202.
33) Yao, Y.; Luo, D. H.; Dai, A. G.; Simmonds, I. Increased Quasi Stationarity and Persistence of Winter Ural Blocking and Eurasian Extreme Cold Events in Response to Arctic Warming. Part I: Insights from Observational Analyses. J. Climate 2017, 30, 3549-3568. (ESI高被引论文)
34) Luo, D. H.; Yao, Y.; Dai, A. G.; Simmonds, I.; Zhong, L. H. Increased Quasi Stationarity and Persistence of Winter Ural Blocking and Eurasian Extreme Cold Events in Response to Arctic Warming. Part II: A Theoretical Explanation. J. Climate 2017, 30, 3569-3587.
35) Yao, Y.; Luo, D. H.; Dai, A. G.; Feldstein, S. B. The Positive North Atlantic Oscillation with Downstream Blocking and Middle East Snowstorms: Impacts of the North Atlantic Jet. J. Climate 2016, 29, 1853-1876.
36) Yao, Y.; Luo, D. H. The North Atlantic Oscillation (NAO) and Europe blocking and their impacts on extreme snowstorms: A review. Advances in Earth Science 2016, 31, 14.
37) Luo, D. H.; Xiao, Y. Q.; Yao, Y.; Dai, A. G.; Simmonds, I.; Franzke, C. L. E. Impact of Ural Blocking on Winter Warm Arctic-Cold Eurasian Anomalies. Part I: Blocking-Induced Amplification. J. Climate 2016, 29, 3925-3947. (ESI高被引论文)
38) Yao, Y.; Luo, D. H. Do European Blocking Events Precede North Atlantic Oscillation Events? Adv. Atmos. Sci. 2015, 32, 1106-1118.
39) Luo, D. H.; Yao, Y.; Dai, A. G.; Feldstein, S. B. The Positive North Atlantic Oscillation with Downstream Blocking and Middle East Snowstorms: The Large-Scale Environment. J. Climate 2015, 28, 6398-6418.
40) Luo, D. H.; Yao, Y.; Dai, A. G. Decadal Relationship between European Blocking and the North Atlantic Oscillation during 1978-2011. Part I: Atlantic Conditions. J. Atmos. Sci. 2015, 72, 1152-1173.
41) Luo, D. H.; Yao, Y.; Dai, A. G. Decadal Relationship between European Blocking and the North Atlantic Oscillation during 1978-2011. Part II: A Theoretical Model Study. J. Atmos. Sci. 2015, 72, 1174-1199.
42) Yao, Y.; Luo, D. H. The Anomalous European Climates Linked to Different Euro-Atlantic Blocking. ATMOSPHERIC AND OCEANIC SCIENCE LETTERS 2014, 7, 5.
43) Yao, Y.; Luo, D. H. Relationship between zonal position of the North Atlantic Oscillation and Euro-Atlantic blocking events and its possible effect on the weather over Europe. Science China-Earth Sciences 2014, 57, 2628-2636.
44) Luo, D. H.; Yao, Y.; Feldstein, S. B. Regime Transition of the North Atlantic Oscillation and the Extreme Cold Event over Europe in January-February 2012. Mon. Weather. Rev. 2014, 142, 4735-4757.
45) Luo, D. H.; Yao, Y. On the Blocking Flow Patterns in the Euro-Atlantic Sector: A Simple Model Study. Adv. Atmos. Sci. 2014, 31, 1181-1196.