Page 45 - 《高原气象》2022年第5期

P. 45

高原气象 41 卷
1138
144（31）：89-102. DOI：10. 1002/qj. 3240. joc. 4988
Bonsal B R，Zhang X，Vincent L A，et al，2001. Characteristics of Huang B Y，Coauthors，2017. Extended reconstructed sea surface tem‐
daily and extreme temperatures over Canada［J］. Journal of Cli‐ perature，version 5（ERSST v5）：upgrades，validations，and in‐
mate，14（9）：1959-1976. DOI：10. 1175/1520-0442（2001）014 tercomparisons［J］. Journal of Climate，30（20）：8179-8205.
<1959：codaet>2. 0. co；2. DOI：10. 1175/JCLI-D-16-0836. 1.
Bothe O，Fraedrich K，Zhu X，2012. Precipitation climate of Central Huang W，Feng S，Chen J H，et al，2015. Mechanisms of summer
Asia and the large-scale atmospheric circulation［J］. Theoretical precipitation variations in the Tarim Basin in Northwestern China
and Applied Climatology，108（3/4）：345-354. DOI：10. 1007/ ［J］. Journal of Climate，28（9）：3579-3591. DOI：10. 1175/
s00704-011-0537-2. JCLI-D-14-00395. 1.
Cannon F，Carvalho L M V，Jones C，et al，2016. Winter westerly Kunkel K E，Robinson D A，Champion S，2016. Trends and extreme
disturbance dynamics and precipitation in the western Himalaya in Northern Hemisphere snow characteristics［J］. Current Climate
and Karakoram：a wave-tracking approach［J］. Theoretical and Change Reports，2（2）：1-9. DOI：10. 1007/s40641-016-0036-8.
Applied Climatology，125（1/2）：27-44. DOI：10. 1007/s00704- Kushnir，Y，Seager R，Ting M F，et al，2010. Mechanisms of tropi‐
015-1489-8. cal Atlantic SST influence on North American precipitation vari‐
Chen F H，Huang W，Jin L Y，et al，2011. Spatiotemporal precipita‐ ability［J］. Journal of Climate，23（21）：5610-5628. DOI：10.
tion variations in the arid Central Asia in the context of global 1175/2010jcli3172. 1.
warming［J］. Science China Earth Sciences，54（12）：1812-1821. Liu H，Liu X D，Dong B W，2017. Intraseasonal variability of winter
DOI：10. 1007/s11430-011-4333-8. precipitation over Central Asia and the western tibetan plateau
Chen M Y，Shi W，Xie P P，et al，2008. Assessing objective tech‐ from 1979 to 2013 and its relationship with the North Atlantic Os‐
niques for gauge-based analyses of global daily precipitation［J］. cillation［J］. Dynamics of Atmospheres and Oceans，79（9）：31-
Journal of Geophysical Research，113（D4）：110-122. DOI：10. 42. DOI：10. 1016/j. dynatmoce. 2017. 07. 001.
1029/2007jd009132. Luo J S，Chen H S，Zhou B T，2020. Comparison of snowfall varia‐
Chen X，Wang S S，Hu Z Y，et al，2018. Spatiotemporal characteris‐ tions over China identified from different snowfall/rain discrimi‐
tics of seasonal precipitation and their relationships with ENSO in nation methods［J］. Journal of Meteorolgical Research，34（5）：
Central Asia during 1901-2013［J］. Journal of Geographical Sci‐ 224-238. DOI：10. 1007/s13351-020-0004-z.
ences，28（9）：1341-1368. DOI：10. 1007/s11442-018-1529-2. Luo M，Liu T，Meng F H，et al，2019. Spatiotemporal characteristics
Chen Y N，Li B F，Li Z，et al，2016. Water resource formation and of future changes in precipitation and temperature in Central Asia
conversion and water security in arid region of Northwest China ［J］. International Journal of Climatology，39（3）：1571-1588.
［J］. Journal of Geographical Sciences，26（7）：939-952. DOI： DOI：10. 1002/joc. 5901.
10. 1007/s11442-016-1308-x. Lutz A F，Immerzeel W W，Shrestha A B，et al，2014. Consistent in‐
Dee D P，Uppala S M，Simmons A J，et al，2011 The ERA-Interim crease in High Asia’s runoff due to increasing glacier melt and
re-analysis：Configuration and performance of the data assimila‐ precipitation［J］. Nature Climate Chang，4（7）：587-592. DOI：
tion system［J］. Quartey Journal of Royal Meteorological，137 10. 1038/nclimate2237.
（656）：553-597. DOI：10. 1002/qj. 828. Marks D，Winstral A，Reba M，et al，2013. An evaluation of methods
Donat M G，Lowry A L，Alexander L V，et al，2016. More extreme for determining during storm precipitation phase and the rain/
precipitation in the world's dry and wet regions［J］. Nature Cli‐ snow transition elevation at the surface in a mountain basin［J］.
mate Change，6（5）：508-513. DOI：10. 1038/nclimate2941. Advances in Water Resources，55：98-110. DOI：10. 1016/j. ad‐
Du Y，Zhang J，Zhao S W，2020. Impact of the eastward shift in the vwatres. 2012. 11. 012.
negative-phase NAO on extreme drought over northern China in Pohl E，Gloaguen R，Seiler R，2015. Remote sensing-based assess‐
summer［J］Journal of Geophysical Research，125（16）. DOI： ment of the variability of winter and summer precipitation in the
10. 1029/2019JD032019. Pamirs and their effects on hydrology and hazards using Harmon‐
Enomoto T，2004. Interannual variability of the Bonin high associated ic Time Series Analysis［J］. Remote Sensing，7（8）：9727-9752.
with the propagation of Rossby waves along the Asian jet［J］. DOI：10. 3390/rs70809727.
Journal of the Meteorological Society Japan，82（4）：1019-1034. Rana S，McGregor J，Renwick J，2016. Wintertime precipitation cli‐
DOI：10. 2151/jmsj. 2004. 1019. matology and ENSO sensitivity over central southwest Asia［J］.
Han T T，He S P，Hao X，et al，2017. Recent interdecadal shift in the International Journal of Climatology，37（3）：1494-1509. DOI：
relationship between Northeast China’s winter precipitation and 10. 1002/joc. 4793.
the North Atlantic and Indian Oceans［J］. Climate Dynamics，50 Sato N，Takahashi M，2006. Dynamical processes related to the ap‐
（3/4）：1413-1424. DOI：10. 1007/s00382-017-3694-x. pearance of quasi-stationary waves on the subtropical jet in the
Hu Z Y，Zhou Q M，Chen X，et al，2017. Variations and changes of midsummer Northern Hemisphere［J］. Journal of Climate，19
annual precipitation in Central Asia over the last century［J］. Inter‐ （8），1531-1544. DOI：10. 1175/jcli3697. 1.
national Journal of Climatology，37：157-170. DOI：10. 1002/ Schubert S D，Wang H L，Koster R D，et al，2014. Northern Eurasian

40 41 42 43 44 45 46 47 48 49 50