Anomalous features of extreme Meiyu in 2020 over the Yangtze-Huai River Basin and attribution to large-scale circulations
R Niu, P Zhai, G Tan - Journal of Meteorological Research, 2021 - Springer
Extremely anomalous features of Meiyu in 2020 over the Yangtze-Huai River basin (YHRB)
and associated causes in perspective of the large-scale circulation are investigated in this …
and associated causes in perspective of the large-scale circulation are investigated in this …
Subseasonal variation of 2020 meiyu rainfall with extremely long duration over the Yangtze–Huaihe River basin in China
S Chen, Z Kang, M Liu, R Lv, J Ma, J He - Frontiers in Earth Science, 2022 - frontiersin.org
An observed fact is proposed that the 2020 record-breaking Meiyu over the Yangtze–Huaihe
River Basin (YHRB) is characteristic of significant subseasonal variation. The anomalously …
River Basin (YHRB) is characteristic of significant subseasonal variation. The anomalously …
Characteristics and possible causes for the extreme Meiyu in 2020
刘芸芸, 丁一汇 - 气象英文版, 2020 - qxqk.nmc.cn
The extreme Meiyu in 2020 was featured with earlier onset, later retreat, longer duration of
rainy season, wider rainfall range, abundant accumulated rainfall, and more severe rainfall …
rainy season, wider rainfall range, abundant accumulated rainfall, and more severe rainfall …
Contribution of water vapor to the record-breaking extreme Meiyu rainfall along the Yangtze River Valley in 2020
A record-breaking extreme Meiyu rainfall occurred along the Yangtze River valley (YRV) in
2020 since 1961, persisting from 11 June to 31 July with the largest amount and the highest …
2020 since 1961, persisting from 11 June to 31 July with the largest amount and the highest …
Synoptic analysis of extreme Meiyu precipitation over Yangtze river basin during June-July 2020
陈涛, 张芳华, 于超, 马杰, 张夕迪, 沈晓琳, 张芳… - 气象英文版, 2020 - qxqk.nmc.cn
Extreme Meiyu struck Yangtze River Basin (YRB) from June to July 2020. The accumulated
precipitation in the middle and lower reaches of Yangtze River exceeded that of the same …
precipitation in the middle and lower reaches of Yangtze River exceeded that of the same …
[PDF][PDF] The 2020 Record-Breaking Mei-yu in the Yangtze River valley of China: The role of anthropogenic forcing and atmospheric circulation
CH Lu, Y Sun, XB Zhang - Bull. Am. Meteorol. Soc, 2022 - ametsoc.org
The Chinese mei-yu is a period of intense precipita-tion during the East Asian rainy season,
and typically provides the majority of June–July precipitation in the middle to lower Yangtze …
and typically provides the majority of June–July precipitation in the middle to lower Yangtze …
[HTML][HTML] Physical mechanism of phased variation of 2020 extremely heavy Meiyu in middle and lower reaches of Yangtze River
BAO Yuan-yuan, LIU Hua… - Journal of Tropical …, 2022 - jtm.itmm.org.cn
The extremely heavy Meiyu in the middle and lower reaches of the Yangtze River in 2020
features early beginning, extremely late retreat, long duration, and a dramatic north-south …
features early beginning, extremely late retreat, long duration, and a dramatic north-south …
Super East Asian monsoon Mei-yu in June and July 2020 tied to dissimilar-shifting upper-level westerlies
Extreme precipitation anomalies over the East Asia–western Pacific exhibited an unusually
similar pattern in June and July 2020, with catastrophic Mei-yu floods in the Yangtze River …
similar pattern in June and July 2020, with catastrophic Mei-yu floods in the Yangtze River …
Understanding the role of SST anomaly in extreme rainfall of 2020 Meiyu season from an interdecadal perspective
Extreme Meiyu rainfall in 2020, starting from early June to the end of July, has occurred over
the Yangtze River valley (YRV), with record-breaking accumulated precipitation amount …
the Yangtze River valley (YRV), with record-breaking accumulated precipitation amount …
The record-breaking Mei-yu in 2020 and associated atmospheric circulation and tropical SST anomalies
Y Ding, Y Liu, ZZ Hu - Advances in Atmospheric Sciences, 2021 - Springer
The record-breaking mei-yu in the Yangtze-Huaihe River valley (YHRV) in 2020 was
characterized by an early onset, a delayed retreat, a long duration, a wide meridional …
characterized by an early onset, a delayed retreat, a long duration, a wide meridional …
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