2017
DOI: 10.1007/s00382-017-3681-2
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Influence of Kuroshio SST front in the East China Sea on the climatological evolution of Meiyu rainband

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Cited by 20 publications
(19 citation statements)
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“…correspondence with the rainband over southern China and the Kuroshio warm tongue in the ECS (not shown). Then, the rapid northward migration from 298 to 338N occurs until mid-July, generally consistent with previous studies (e.g., Wang and LinHo 2002;Tomita et al 2011;Xu et al 2018). However, when the Kuroshio shifts offshore, the mei-yu-baiu front indeed substantially shifts to north of its climatological location by ;28 of latitude (i.e., staying within 308-328N) during mid-Maymid-June (see yellow dots with circles in Fig.…”
Section: B Modulation On the Mei-yu-baiu Front During Mid-may-junesupporting
confidence: 89%
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“…correspondence with the rainband over southern China and the Kuroshio warm tongue in the ECS (not shown). Then, the rapid northward migration from 298 to 338N occurs until mid-July, generally consistent with previous studies (e.g., Wang and LinHo 2002;Tomita et al 2011;Xu et al 2018). However, when the Kuroshio shifts offshore, the mei-yu-baiu front indeed substantially shifts to north of its climatological location by ;28 of latitude (i.e., staying within 308-328N) during mid-Maymid-June (see yellow dots with circles in Fig.…”
Section: B Modulation On the Mei-yu-baiu Front During Mid-may-junesupporting
confidence: 89%
“…S1 and S2 in the online supplemental material). Therefore, we chose the 6-hourly fields of ERA-Interim to diagnose the moisture budget, rather than the NCEP-CFSR that was used by Sasaki and Yamada (2018) and Xu et al (2018). In the present study, all results are presented for the period of 1994-2015, except the TRMM precipitation product for 1998-2015.…”
Section: A Satellite Observations and Era-interimmentioning
confidence: 99%
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“…The Meiyu period on the Yangtze Plain usually starts in mid-June and ends in mid-July (Tao & Ding, 1981). Much research has been carried out to gain a better understanding of Meiyu rainfall with the aim of improving the prediction of heavy rainfall and reducing losses due to flooding (Li et al, 2019;Luo et al, 2013;Ninomiya & Akiyama, 1992;Ninomiya & Shibagaki, 2007;Sampe & Xie, 2010;Xu et al, 2018;Zhang et al, 2008;Zheng et al, 2008). Much research has been carried out to gain a better understanding of Meiyu rainfall with the aim of improving the prediction of heavy rainfall and reducing losses due to flooding (Li et al, 2019;Luo et al, 2013;Ninomiya & Akiyama, 1992;Ninomiya & Shibagaki, 2007;Sampe & Xie, 2010;Xu et al, 2018;Zhang et al, 2008;Zheng et al, 2008).…”
Section: Introductionmentioning
confidence: 99%
“…Despite the short duration of the Meiyu period, Meiyu rainfall accounts for a large proportion of the annual precipitation, exceeding 50% of the total precipitation on the Yangtze Plain in some years (Ding, 1992). Much research has been carried out to gain a better understanding of Meiyu rainfall with the aim of improving the prediction of heavy rainfall and reducing losses due to flooding (Li et al, 2019;Luo et al, 2013;Ninomiya & Akiyama, 1992;Ninomiya & Shibagaki, 2007;Sampe & Xie, 2010;Xu et al, 2018;Zhang et al, 2008;Zheng et al, 2008). Diurnal variation is influenced by atmospheric heat and dynamic processes on the water cycle and is an important aspect of precipitation research (Yu & Li, 2016).…”
Section: Introductionmentioning
confidence: 99%