Page 180 - 《高原气象》2026年第1期
P. 180
高 原 气 象 45 卷
176
Zhou C H, Li Y Q, 2024. Dynamic and thermodynamic characteris‐ teorologican Sinica, 76 (3) : 343-360. DOI: 10. 11676/
tics of warm-sector rainstorms caused by the southwest china vor‐ qxxb2018. 008.
tex in sichuan basin[J]. Theoretical and Applied Climatology, 辜旭赞, 徐明, 2012. 一次西南涡特大暴雨的中尺度诊断分析[J].
155: 7095-7108. DOI: 10. 1007/s00704-024-05056-9. 气象与环境学报, 28 (4): 1-7. DOI: 10. 3969/j. issn. 1673-
陈博宇, 谌芸, 孙继松, 等, 2023. 诱发四川冕宁“6·26”山洪灾害的 503X. 2012. 04. 001. Gu X Z, Xu M, 2012. A meso-scale diag‐
突发性暴雨特征及其形成机制[J]. 大气科学, 47(1): 1−19. nostic analysis of torrential rain caused by a southwest vortex in
DOI: 10. 3878/j. issn. 1006-9895. 2201. 21186. Chen B Y, Chen China[J]. Journal of Meteorology and Environment, 28 (4): 1-
Y, Sun J S, et al, 2023. Characteristics and formation mecha‐ 7. DOI: 10. 3969/j. issn. 1673-503X. 2012. 04. 001.
nism of the sudden rainstorm inducing the “6·26” mountain tor‐ 韩林君, 白爱娟, 2019. 2004-2017年夏半年西南涡在四川盆地形成
rent disaster in Mianning, Sichuan Province[J]. Chinese Journal 降水的特征分析[J]. 高原气象, 38(3): 552-562. DOI: 10.
of Atmospheric Sciences, 47(1): 1-19. DOI: 10. 3878/j. issn. 7522/j. issn. 1000-0534. 2018. 00100. Han L J, Bai A J, 2019.
1006-9895. 2201. 21186. Precipitation characteristics of Southwest Vortex in Sichuan basin
陈贵川, 谌芸, 王晓芳, 等, 2018. 一次冷性停滞型西南涡结构的演 from May to October in 2004-2017[J]. Plateau Meteorology, 38
变特征[J]. 高原气象, 37(6): 1628-1642. DOI: 10. 7522/j. (3): 552-562. DOI: 10. 7522/j. issn. 1000-0534. 2018. 00100.
issn. 1000-0534. 2018. 00093. Chen G C, Shen Y, Wang X F, et 衡志炜, 程晓龙, 2018. 西南涡加密资料同化对西南区域模式降水
al, 2018. The developmental characteristics of the structure of a 预报的影响[J]. 高原山地气象研究, 38(2): 1-8. DOI: 10.
stationery cold Southwest Vortex[J]. Plateau Meteorology, 37 3969/j. issn. 1674-2184. 2018. 02. 001. Heng Z W, Chen X L,
(6): 1628-1642. DOI: 10. 7522/j. issn. 1000-0534. 2018. 2018. Influence of assimilation of southwest vortex intensive ob‐
00093. servation on precipitation forecast of southwestern regional model
陈双, 孙继松, 何立富, 2022. 四川盆地不同落区的三次强降水过 [J]. Plateau and Mountain Meteorology Research, 38(2): 1-8.
程多尺度特征分析[J]. 高原气象, 41(5): 1190-1208. DOI: DOI: 10. 3969/j. issn. 1674-2184. 2018. 02. 001.
10. 7522/j. issn. 1000-0534. 2021. 00060. Chen S, Sun J S, He L 康岚, 郝丽萍, 牛俊丽, 2011. 引发暴雨的西南低涡特征分析[J].
F, 2022. Analysis of multi-scale characteristics of three different 高 原 气 象 , 30(6): 1435-1443. Kang L, Hao L P, Niu J L,
types of heavy rainfall in Sichuan Basin[J]. Plateau Meteorolo‐ 2011. Feature analysis on southwest vortex of triggering rainstorm
gy, 41(5): 1190-1208. DOI: 10. 7522/j. issn. 1000-0534. 2021. [J]. Plateau Meteorology, 30 (6): 1435-1443.
00060. 孔期, 符娇兰, 谌芸, 等, 2022. 河南“21·7”特大暴雨过程中尺度低
陈忠明, 徐茂良, 闵文彬, 等, 2003. 1998年夏季西南低涡活动与长 空急流和低涡的演变特征及成因分析[J]. 气象, 48(12):
江上游暴雨[J]. 高原气象, 22(2): 162-167. Chen Z M, Xu M 1512-1524. DOI: 10. 7519/j. issn. 1000-0526. 2022. 101001.
L, Min W B, et al, 2003. Relationship between abnormal activ‐ Kong Q, Fu J L, Chen Y, et al, 2022. Evolution characteristics
ites of southwest vortex and heavy rain the upper reach of Yangtze and formation analysis of mesoscale low-level jet and vortex in
River during summer of 1998[J]. Plateau Meteorology, 22(2): Henan Province during the July 2021 severe torrential rain[J].
301-312. Meteorological Monthly, 48(12): 1512-1524. DOI: 10. 7519/j.
邓承之, 赵宇, 孔凡铀, 等, 2021.“6·30”川渝特大暴雨过程中西南 issn. 1000-0526. 2022. 101001.
低涡发展机制模拟分析[J]. 高原气象, 40(1): 85-97. DOI: 雷蕾, 孙继松, 何娜等, 2017.“7·20”华北特大暴雨过程中低涡发展
10. 7522/j. issn. 1000-0534. 2019. 00106. Deng C Z, Zhao Y, 演 变 机 制 研 究[J]. 气 象 学 报 , 75(5): 685-699. DOI:
Kong F Y, et al, 2021. A numerical simulation study of the south‐ 10. 11676/qxxb2017. 054. Lei L, Sun J S, He N, et al, 2017. A
west vortex mechanism during the "6·30" heavy rain event in Si‐ study on the mechanism for the vortex system evolution and de‐
chuan and Chongqing[J]. Plateau Meteorology, 40(1): 85-97. velopment during the torrential rain event in North China on 20
DOI: 10. 7522/j. issn. 1000-0534. 2019. 00106. July 2016[J]. Acta Meteorologica Sinica, 75(5): 685-699.
邓承之, 曹洁, 罗娟, 等, 2024. 四川盆地一次暴雨过程中西南低涡 DOI: 10. 11676/qxxb2017. 054.
非对称结构特征及其成因分析[J]. 暴雨灾害, 43(6): 627- 李国平, 陈佳, 2018. 西南涡及其暴雨研究新进展[J]. 暴雨灾害,
636. DOI: 10. 12406/byzh. 2023-239. Deng C Z, Cao J, Luo J, 37(4): 293-302. DOI: 10. 3969/j. issn. 1004-9045. 2018. 04.
et al, 2024. Analysis on characteristics and causes of the South‐ 001. Li G P, Chen J, 2018. New progresses in the research of
west Vortex asymmetric structure during one rainstorm in the Si‐ heavy rain vortices formed over the southwest China[J]. Torren‐
chuan Basin[J]. Torrential Rain and Disasters, 43(6): 627-636. tial Rain and Disasters, 37(4): 293-302. DOI: 10. 3969/j. issn.
DOI: 10. 12406/byzh. 2023-239. 1004-9045. 2018. 04. 001.
高笃鸣, 李跃清, 程晓龙, 2018. 基于西南涡加密探空资料同化的 李跃清, 徐祥德, 2016. 西南涡研究和观测试验回顾及进展[J]. 气
一次奇异路径耦合低涡大暴雨数值模拟研究[J]. 气象学报, 76 象科技进展, 6(3): 134-140. DOI: 10. 3969/j. issn. 2095-1973.
(3): 343-360. DOI: 10. 11676/qxxb2018. 008. Gao D M, Li Y 2016. 03. 018. Li Y Q, Xu X D, 2016. A review of the research
Q, Cheng X L, 2018. Anumerical study on a heavy rainfall and observing experiment on southwest China vortex[J]. Advanc‐
caused by an abnormal-path coupling vortex with the assimilation es in Meteorological Science and Technology, 6(3): 134-140.
of southwest China vortex scientific experiment data[J]. Acta Me‐ DOI: 10. 3969/j. issn. 2095-1973. 2016. 03. 018.
