Interannual and Diurnal Variations in the Frequency of Heavy Rainfall Events in the Kyushu area, western Japan during the rainy season

IF 1.7 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Sola Pub Date : 2024-05-15 DOI:10.2151/sola.2024-026

Teruyuki Kato

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Abstract

The interannual variation in the number of heavy rainfall events in Japan in 1976-2022, extracted from 3-hour accumulated precipitation (P3H) data exceeding 130 mm, showed a relatively large relationship (correlation coefficient 0.45) with sea surface temperature (SST) around the Japanese Islands. In the Kyushu area during the rainy season (June-July), the correlation coefficient with SST became considerably smaller, while a relatively large relationship (correlation coefficient 0.45) was found with the appearance frequency of 500m-height water vapor flux above 250 g m⁻² s⁻¹, suggesting that the interannual variation could be considerably influenced by the synoptic scale pressure pattern. Diurnal variations in the number of heavy rainfall events, including long-term increasing trends, were also investigated. Although less significant diurnal variations were observed on the annual basis, the events in the Kyushu area were more frequent in the morning (7-9 JST: JST = UTC + 9 hours) during the rainy season. In the Kyushu area, the 47-year long-term trend of heavy rainfall events in 4-9 JST was a 7.47-fold increase in June and July, while it was only a 1.35-fold increase in the other months.

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日本西部九州地区雨季暴雨频率的年际变化和昼夜变化

从超过 130 毫米的 3 小时累积降水量（P3H）数据中提取的 1976-2022 年日本暴雨次数的年际变化表明，日本列岛周围的暴雨次数与海面温度（SST）有较大的关系（相关系数为 0.45）。在雨季（6-7 月）的九州地区，与海表温度的相关系数明显变小，而与 500 米高度水汽通量超过 250 g m-2 s-1 的出现频率的关系相对较大（相关系数为 0.45），这表明年际变化可能在很大程度上受到同步尺度气压模式的影响。此外，还研究了暴雨次数的昼夜变化，包括长期增长趋势。虽然观测到的年昼夜变化不太明显，但九州地区的降雨事件在雨季的上午（日本标准时间 7-9 点：日本标准时间 = UTC + 9 小时）更为频繁。在九州地区，日本时间 4-9 点的暴雨事件 47 年的长期趋势是 6 月和 7 月增加 7.47 倍，而其他月份仅增加 1.35 倍。

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来源期刊

Sola 地学-气象与大气科学

CiteScore

3.50

自引率

21.10%

发文量

审稿时长

>12 weeks

期刊介绍： SOLA (Scientific Online Letters on the Atmosphere) is a peer-reviewed, Open Access, online-only journal. It publishes scientific discoveries and advances in understanding in meteorology, climatology, the atmospheric sciences and related interdisciplinary areas. SOLA focuses on presenting new and scientifically rigorous observations, experiments, data analyses, numerical modeling, data assimilation, and technical developments as quickly as possible. It achieves this via rapid peer review and publication of research letters, published as Regular Articles. Published and supported by the Meteorological Society of Japan, the journal follows strong research and publication ethics principles. Most manuscripts receive a first decision within one month and a decision upon resubmission within a further month. Accepted articles are then quickly published on the journal’s website, where they are easily accessible to our broad audience.