Branstator, G., 2002: Circumglobal teleconnections, the jet stream waveguide, and the North Atlantic Oscillation. J. Climate, 15, 1893−1910,<1893:CTTJSW>2.0.CO;2.
Chen, F. H., J. S. Wang, L. Y. Jin, Q. Zhang, J. Li, and J. H. Chen, 2009: Rapid warming in mid-latitude central Asia for the past 100 years. Frontiers of Earth Science in China, 3, 42−50,
Chen, F. H, and Coauthors, 2019: Westerlies Asia and monsoonal Asia: Spatiotemporal differences in climate change and possible mechanisms on decadal to sub-orbital timescales. Earth-Science Reviews, 192, 337−354,
Chen, Y. N., H. J. Deng, B. F. Li, Z. Li, and C. C. Xu, 2014: Abrupt change of temperature and precipitation extremes in the arid region of Northwest China. Quaternary International, 336, 35−43,
Duan, A. M., and G. X. Wu, 2005: Role of the Tibetan Plateau thermal forcing in the summer climate patterns over subtropical Asia. Climate Dyn., 24, 793−807,
Fujinami, H., and T. Yasunari, 2009: The effects of midlatitude waves over and around the Tibetan Plateau on submonthly variability of the east Asian summer monsoon. Mon. Wea. Rev., 137, 2286−2304,
Fukutomi, Y., K. Masuda, and T. Yasunari, 2012: Spatiotemporal structures of the intraseasonal oscillations of precipitation over northern Eurasia during summer. International Journal of Climatology, 32, 710−726,
Giorgi, F., 2006: Climate change hot-spots. Geophys. Res. Lett., 33, L08707,
Harris, I., P. D. Jones, T. J. Osborn, and D. H. Lister, 2014: Updated high-resolution grids of monthly climatic observations-the CRU TS3. 10 Dataset. International Journal of Climatology, 34, 623−642,
He, S. P., Y. Q. Gao, T. Furevik, H. J. Wang, and F. Li, 2018: Teleconnection between Sea Ice in the Barents Sea in June and the Silk Road, Pacific-Japan and East Asian Rainfall Patterns in August. Adv. Atmos. Sci., 35, 52−64,
Hiroyuki, I., 2004: Impact of interannual variability of meteorological parameters on vegetation activity and predict possibility of vegetation activity over Mongolia. J. Meteor. Soc. Japan, 84, 31−34.
Hoskins, B. J., M. E. McIntyre, and A. W. Robertson, 1985: On the use and significance of isentropic potential vorticity maps. Q. J. R. Meteorol. Soc., 111,
Hu, Z. Y., Q. X. Li, X. Chen, Z. D. Teng, C. C. Chen, G. Yin, and Y. Q. Zhang, 2016: Climate changes in temperature and precipitation extremes in an alpine grassland of Central Asia. Theor. Appl. Climatol., 126, 519−531,
Jia, X. J., C. Zhang, R. G. Wu, and Q. F. Qian, 2021: Influence of Tibetan Plateau autumn snow cover on interannual variations in spring precipitation over southern China. Climate Dyn., 56, 767−782,
Jiang, J., T. J. Zhou, X. L. Chen, and L. X. Zhang, 2020: Future changes in precipitation over Central Asia based on CMIP6 projections. Environmental Research Letters, 15, 054009,
Kanamitsu, M., W. Ebisuzaki, J. Woollen, S. K. Yang, J. J. Hnilo, M. Fiorino, and G. L. Potter, 2002: NCEP-DOE AMIP-II reanalysis (R-2). Bull. Amer. Meteor. Soc., 83, 1631−1644,
Li, B. F., Y. N. Chen, and X. Shi, 2012: Why does the temperature rise faster in the arid region of northwest China? J Geophys. Res. Atmos., 117, D16115,
Li, B. F., Y. P. Li, Y. N. Chen, B. H. Zhang and X. Shi, 2020: Recent fall Eurasian cooling linked to North Pacific sea surface temperatures and a strengthening Siberian high. Nature Communications, 11, 5202,
Li, C. F., W. Chen, X. W. Hong, and R. Y. Lu, 2017: Why was the strengthening of rainfall in summer over the Yangtze River valley in 2016 less pronounced than that in 1998 under similar preceding El Niño events?—Role of midlatitude circulation in August Adv. Atmos. Sci., 34, 1290−1300,
Li, S. L., M. P. Hoerling, S. L. Peng, and K. M. Weickmann, 2006: The annular response to tropical Pacific SST forcing. J. Climate, 19, 1802−1819,
Li, W. K., W. D. Guo, B. Qiu, Y. K. Xue, P.-C. Hsu, and J. F. Wei, 2018: Influence of Tibetan Plateau snow cover on East Asian atmospheric circulation at medium-range time scales. Nature Communications, 9, 4243,
Li, Z., Y. N. Chen, W. H. Li, H. J. Deng, and G. H. Fang, 2015: Potential impacts of climate change on vegetation dynamics in Central Asia. J. Geophys. Res., 120, 12 345−12 356,
Lin, H., and Z. Wu, 2011: Contribution of the autumn Tibetan Plateau snow cover to seasonal prediction of North American winter temperature. J. Climate, 24, 2801−2813,
Lioubimtseva, E., and G. M. Henebry, 2009: Climate and environmental change in arid Central Asia: Impacts, vulnerability, and adaptations. Journal of Arid Environments, 73, 963−977,
Liu, Y. Z., Y. H. Li, J. P. Huang, Q. Z. Zhu, and S. S. Wang, 2020: Attribution of the Tibetan Plateau to northern drought. National Science Review, 7, 489−492,
Lu, M. M., S. Yang, Z. N. Li, B. He, S. He, and Z. Q. Wang, 2018: Possible effect of the Tibetan Plateau on the “upstream” climate over West Asia, North Africa, South Europe and the North Atlantic. Climate Dyn., 51, 1485−1498,
Morinaga, Y., S.-F. Tian, and M. Shinoda, 2003: Winter snow anomaly and atmospheric circulation in Mongolia. International Journal of Climatology, 23, 1627−1636,
North, G. R., T. L. Bell, R. F. Cahalan, and F. J. Moeng, 1982: Sampling errors in the estimation of empirical orthogonal functions. Mon. Wea. Rev., 110, 699−706,<0699:seiteo>;2.
Qian, Q. F., X. J. Jia, and R. G. Wu, 2019: Changes in the impact of the Autumn Tibetan Plateau snow cover on the winter temperature over North America in the mid-1990s. J. Geophys. Res., 124, 10 321−10 343,
Thomas W., and NOAA CDR Program (2012): NOAA Climate Data Record (CDR) of Northern Hemisphere (NH) Snow Cover Extent (SCE), Version 1.. NOAA National Centers for Environmental Information [Available online at].
Sardeshmukh, P. D., and B. J. Hoskins, 1988: The generation of global rotational flow by steady idealized tropical divergence. J. Atmos. Sci., 45, 1228−1251,<1228:TGOGRF>2.0.CO;2.
Schiemann, R., D. Lüthi, P. L. Vidale, and C. Schär, 2008: The precipitation climate of central Asia—Intercomparison of observational and numerical data sources in a remote semiarid region. International Journal of Climatology, 28, 295−314,
Si, D., and Y. H. Ding, 2013: Decadal change in the correlation pattern between the tibetan plateau winter snow and the East Asian summer precipitation during 1979-2011. J. Climate, 26, 7622−7634,
Siegfried, T., T. Bernauer, R. Guiennet, S. Sellars, A. W. Robertson, J. Mankin, P. Bauer-Gottwein, and A. Yakovlev, 2012: Will climate change exacerbate water stress in Central Asia? Climate Change, 112, 881−899,
Wang, Z. B., R. G. Wu, S. F. Chen, G. Huang, G. Liu, and L. H. Zhu, 2018a: Influence of Western Tibetan Plateau summer snow cover on East Asian summer rainfall. J. Geophys. Res. Atmos., 123, 2371−2386,
Wang, Z. B., R. G. Wu, and G. Huang, 2018b: Low-frequency snow changes over the Tibetan Plateau. International Journal of Climatology, 38, 949−963,
Wang, Z. B., R. G. Wu, P. Zhao, S.-L. Yao, and X. J. Jia, 2019: Formation of snow cover Anomalies Over the Tibetan Plateau in cold seasons. J. Geophys. Res. Atmos., 124, 4873−4890,
Watanabe, M., 2004: Asian jet waveguide and a downstream extension of the North Atlantic Oscillation. J. Climate, 17, 4674−4691,
Wu, Z. W., Z. H. Jiang, J. P. Li, S. S. Zhong, and L. J. Wang, 2012: Possible association of the western Tibetan Plateau snow cover with the decadal to interdecadal variations of northern China heatwave frequency. Climate Dyn., 39, 2393−2402,
Wu, Z. W., X. X. Li, Y. J. Li, and Y. Li, 2016: Potential influence of arctic sea ice to the interannual variations of East Asian spring precipitation. J. Climate, 29, 2797−2813,
Xiao, Z. X., and A. M. Duan, 2016: Impacts of Tibetan Plateau snow cover on the interannual variability of the East Asian summer monsoon. J. Climate, 29, 8495−8514,
Yao, J. Q., and Y. N. Chen, 2015: Trend analysis of temperature and precipitation in the Syr Darya Basin in Central Asia. Theor. Appl. Climatol., 120, 521−531,
You, Y. J., and X. J. Jia, 2018: Interannual variations and prediction of spring precipitation over China. J. Climate, 31, 655−670,
Yuan, X. L., W. F. Wang, J. J. Cui, F. H. Meng, A. Kurban, and P. De Maeyer, 2017: Vegetation changes and land surface feedbacks drive shifts in local temperatures over Central Asia. Scientific Reports, 7, 3287,
Zhang, P., Z. W. Wu, J. P. Li, and Z. N. Xiao, 2020: Seasonal prediction of the northern and southern temperature modes of the East Asian winter monsoon: The importance of the Arctic sea ice. Climate Dyn., 54, 3583−3597,
Zhang, Y. S., T. Li, and B. Wang, 2004: Decadal change of the spring snow depth over the Tibetan Plateau: The associated circulation and influence on the East Asian summer monsoon. J. Climate, 17, 2780−2793,<2780:DCOTSS>2.0.CO;2.
Zhao, H. X., and G. W. K. Moore, 2006: Reduction in Himalayan snow accumulation and weakening of the trade winds over the Pacific since the 1840s. Geophys. Res. Lett., 33, L17709,
Zhao, P., and L. X. Chen, 2001: Climatic features of atmospheric heat source/sink over the Qinghai-Xizang Plateau in 35 years and its relation to rainfall in China. Sci. China, Ser. D Earth Sci., 44, 858−864,
Zhao, P., Z. J. Zhou, and J. P. Liu, 2007: Variability of Tibetan spring snow and its associations with the hemispheric extratropical circulation and East Asian Summer Monsoon rainfall: An observational investigation. J. Climate, 20, 3942−3955,