Page 277 - 《高原气象》2026年第1期
P. 277
1 期 黄玉霞等:甘肃“7·22”特大暴雨水汽来源及定量贡献分析 273
崔晓鹏, 杨玉婷, 2022.“21·7”河南暴雨水汽源地追踪和定量贡献 gional short-time heavy rainfall in eastern Gansu Province in sum‐
分 析[J]. 大 气 科 学 , 46(6): 1543-1556. DOI: 10. 3878/j. mer[J]. Plateau Meteorology, 43(2): 329-341. DOI: 10. 7522/
issn. 1006-9895. 2203. 22016. Cui X P, Yang Y T, 2022. Track‐ j. issn. 1000-0534. 2023. 00056.
ing and quantitative contribution analyses of moisture sources of 刘鸿波, 何明洋, 王斌, 等, 2014. 低空急流的研究进展与展望[J].
rainstorm in Henan Province in July 2021[J]. Chinese Journal of 气象学报, 72(2): 191−206. DOI: 10. 11676/qxxb2014. 022.
Atmospheric Sciences, 46(6): 1543 − 1556. DOI: 10. 3878/j. Liu H B, He M Y, Wang B, et al, 2014. Advances in low-level
issn. 1006-9895. 2203. 22016. jet research and future prospects[J]. Acta Meteorologica Sinica,
丁一汇, 柳艳菊, 宋亚芳, 2020. 东亚夏季风水汽输送带及其对中 72(2): 191−206. DOI: 10. 11676/qxxb2014. 022.
国大暴雨与洪涝灾害的影响[J]. 水科学进展, 31(5): 629− 刘晶, 周玉淑, 杨莲梅, 等, 2019. 伊犁河谷一次极端强降水事件水
643. DOI: 10. 14042/j. cnki. 32. 1309. 2020. 05. 001. Ding Y H, 汽特征分析[J]. 大气科学, 43(5): 959-974. DOI: 10. 3878/j.
Liu Y J, Song Y F, 2020. East Asian summer monsoon moisture issn. 1006-9895. 1901. 18114. Liu J, Zhou Y S, Yang L M, et
transport belt and its impact on heavy rainfalls and floods in China al, 2019. A diagnostic study of water vapor during an extreme
[J]. Advances in Water Science, 31(5): 629 − 643. DOI: 10. precipitation event in the Yili River Valley[J]. Chinese Journal of
14042/j. cnki. 32. 1309. 2020. 05. 001. Atmospheric Sciences, 43(5): 959-974. DOI: 10. 3878/j. issn.
段海霞, 刘新伟, 2009. 喇叭口地形对一次暴雨影响的数值试验 1006-9895. 1901. 18114.
[J]. 干旱气象, 27(4): 327-333. DOI: 10. 3969/j. issn. 1006- 刘静, 靳莉君, 韩作强, 等, 2023.“21·7”河南持续性暴雨成因分析
7639. 2009. 04. 005. Duan H X, Liu X W, 2009. Numerical ex‐ [J]. 水 文 , 43(5): 1-7. DOI: 10. 19797/j. cnki. 1000-
periment of trumpet-shaped topography influence on a heavy rain 0852. 20210511. Liu J, JinL J, HanZ Q, et al, 2023. Analysis on
[J]. Journal of Arid Meteorology, 27(4): 327-333. DOI: 10. the cause of “21·7” persistent heavy rainfall in Henan[J]. Journal
3969/j. issn. 1006-7639. 2009. 04. 005. of China Hydrology, 43(5): 1-7. DOI: 10. 19797/j. cnki. 1000-
符娇兰, 权婉晴, 麦子, 等, 2023.“23·7”华北特大暴雨过程雨强精 0852. 20210511.
细化特征及动力和热力条件初探[J]. 气象, 49(12): 1435- 刘新伟, 王澄海, 郭润霞, 等, 2021. 1981-2018 年甘肃省极端暴雨
1450. DOI: 10. 7519/j. issn. 1000-0526. 2023. 112701. Fu J L, 天气过程的气候与环流特征[J]. 干旱气象, 39(5): 750-758.
Quan W Q, Mai Z, et al, 2023. Preliminary study on the refined DOI: 10. 11755/j. issn. 1006-7639(2021)-05-0750. Liu X W,
characteristics of rainfall intensity and dynamic and thermody‐ Wang C H, Guo R X, et al, 2021. Climate and circulation char‐
namic conditions in the july 2023 severe torrential rain in North acteristics of extreme rainstorm processes in Gansu from 1981 to
China[J]. Meteorological Monthly, 49(12): 1435-1450. DOI: 2018[J]. Journal of Arid Meteorology, 39(5): 750-758. DOI:
10. 7519/j. issn. 1000-0526. 2023. 112701. 10. 11755/j. issn. 1006-7639(2021)-05-0750.
傅朝, 刘维成, 宋兴宇, 等, 2022. 西北干旱区一次极端暴雨局地性 马莉, 杨晓军, 王勇, 等, 2023. 1990-2019 年甘肃汛期极端小时降
增强的对流环境特征[J]. 干旱气象, 40(6): 909-921. DOI: 水特征[J]. 高原气象, 42(4): 993-1004. DOI: 10. 7522/j. issn.
10. 11755/j. issn. 1006-7639(2022)-06-0909. Fu Z, Liu W C, 1000-0534. 2022. 00053. Ma L, Yang X J, Wang Y, et al,
Song X Y, et al, 2022. Local enhanced convective environment 2023. Characteristics of extreme hourly precipitation during flood
characteristics of an extreme rainstorm event in arid region of season in Gansu Province from 1990 to 2019[J]. Plateau Meteo‐
Northwest China[J]. Journal of Arid Meteorology, 40(6): 909- rology, 42(4): 993-1004. DOI: 10. 7522/j. issn. 1000-0534.
921. DOI: 10. 11755/j. issn. 1006-7639(2022)-06-0909. 2022. 00053.
江志红, 梁卓然, 刘征宇, 等, 2011. 2007年淮河流域强降水过程的 孙建华, 汪汇洁, 卫捷, 等, 2016. 江淮区域持续性暴雨过程的水汽
水汽输送特征分析[J]. 大气科学, 35(2): 361-372. DOI: 10. 源地和输送特征[J]. 气象学报, 74(4): 542-555. DOI: 10.
3878/j. issn. 1006-9895. 2011. 02. 14. Jiang Z H, Liang Z R, Liu 11676/ qxxb2016. 047. Sun J H, Wang H J, Wei J, et al, 2016.
Z Y, et al, 2011. A diagnostic study of water vapor transport and The sources and transportation of water vapor in persistent heavy
budget during heavy precipitation over the Huaihe River Basin in rainfall events in the Yangtze Huaihe River Valley[J]. Acta Meteo‐
2007[J]. Chinese Journal of Atmospheric Sciences, 35(2): 361- rologica Sinica, 74(4): 542-555. DOI: 10. 11676/ qxxb2016.
372. DOI: 10. 3878/j. issn. 1006-9895. 2011. 02. 14. 047.
黄玉霞, 王宝鉴, 黄武斌, 等, 2019. 我国西北暴雨的研究进展[J]. 孙力, 马梁臣, 沈柏竹, 等, 2016. 2010 年 7~8 月东北地区暴雨过
暴雨灾害, 38(5): 515-525. DOI: 10. 3969/j. issn. 1004-9045. 程的水汽输送特征分析[J]. 大气科学, 40(3): 630-646. DOI:
2019. 05. 013. Huang Y X, Wang B J, Huang W B, et al, 2019. 10. 3878/j. issn. 1006-9895. 1506. 15101. Sun L, Ma L C, Shen
A review on rainstorm research in northwest China[J]. Torrential B Z, et al, 2016. A diagnostic study of water vapor transport and
Rain and Disasters, 38(5): 515-525. DOI: 10. 3969/j. issn. budget of heavy rainfall over northeast China during July to Au‐
1004-9045. 2019. 05. 013. gust 2010[J]. Chinese Journal of Atmospheric Sciences, 40(3):
孔祥伟, 李晨蕊, 杨秀梅, 等, 2024. 甘肃河东夏季区域性短时强降 630-646. DOI: 10. 3878/j. issn. 1006-9895. 1506. 15101.
水环流形势分类特征[J]. 高原气象, 43(2): 329-341. DOI: 孙旭映, 2006. 甘肃河东地区降水特征及天气系统分型[J]. 干旱区
10. 7522/j. issn. 1000-0534. 2023. 00056. Kong X W, Li C R, 资 源 与 环 境 , 20(4): 35-39. DOI: 10. 3969/j. issn. 1003-
Yang X M, et al, 2024. Circulation situation characteristics of re‐ 7578. 2006. 04. 008. Sun Y, 2006. The precipitation characteris‐
