Reorganization of moisture transport underpins the leading modes of East Asian summer precipitation
ID:958
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Updated Time:2026-04-09 14:10:56 Hits:179
Oral Presentation
Abstract
East Asian summer precipitation (EASP) alternates interannually mainly between a meridional tripole mode (with a wet Yangtze River basin and dry north/south) and a dipole mode (with a wet south and dry north). How associated moisture pathways reorganize remains poorly quantified from a Lagrangian perspective. We analyze moisture transport to East Asia during July–August 1961–2022 using the Hybrid Single-Particle Lagrangian Integrated Trajectory (HYSPLIT) model to trace backward air-parcel trajectories, categorizing pathways into four quadrants (SW, SE, NW, NE). Climatologically, the SW pathway dominates, supplying 48% of the total moisture. The positive tripole mode, driven by a southwestward-shifted western Pacific subtropical high (WPSH), reduces SE moisture by 25% while the other three paths strengthen. In the positive dipole mode, an eastward-retreating WPSH and prevalent northerlies boost NE moisture by 42% but reduce SE and NW by 14% and 7%. This pathway-resolved budget links circulation regimes to rainfall anomalies, advances understanding of EASP variability, and also provides an analogue for interpreting moisture‑sensitive paleoclimate records.
Keywords
Precipitation variation,Moisture transport,Lagrangian analysis,East Asian summer precipitation
Submission Author
马雯澜
中国地质大学(武汉)
刘博
成都信息工程大学
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