Abstract
Existing studies show that the change in the meridional position of East Asian westerly jet (EAWJ) is associated with rainfall anomalies in Yangtze-Huaihe River Valley (YHRV) in summer. However, the dynamic mechanism has not been resolved yet. The present study reveals underlying mechanisms for this impact for early summer and midsummer, separately. Mechanism1: associated with EAWJ’s anomalously southward displacement, the 500-hPa westerly wind over YHRV is strengthened through midtropospheric horizontal circulation anomalies; the westerly anomalies are related to the formation of warm advection anomalies over YHRV, which cause increased rainfall through adiabatic ascent motion and convective activities; the major difference in these processes between early summer and midsummer is the midtropospheric circulation anomaly pattern. Mechanism 2: associated with EAWJ’s anomalously southward displacement, the large day-to-day variability of midtropospheric temperature advection in midlatitudes is displaced southward by the jet’s trapping transient eddies; this change enhances the day-to-day variability of temperature advection over YHRV, which in turn causes the increased rainfall in most part of YHRV through “lower-bound effect” (rainfall amount can not become negative); there is not much difference in these processes between early summer and midsummer.
Highlights
The Yangtze-Huaihe River Valley (YHRV, 110°–120°E, 25°–35°N) is one of the core industrial regions throughout China
The present section describes the impact of the meridional displacement of East Asian westerly jet (EAWJ) on the summer rainfall changes in YHRV to facilitate the dynamical diagnoses in the following parts of the paper
Because the first empirical orthogonal function (EOF) pattern obtained for precipitation in YHRV shows loadings of the same sign for most of YHRV in both early summer and midsummer, average rainfall in YHRV is employed for correlation analysis
Summary
The Yangtze-Huaihe River Valley (YHRV, 110°–120°E, 25°–35°N) is one of the core industrial regions throughout China. The impact of the variation in East Asian westerly jet (EAWJ) on the rainfall anomaly in YHRV attracts much attention from climate community (e.g., Lu 2004; Dong et al 2011; Li and Zhang 2014). These studies stress the importance of the intensity and meridional position of EAWJ to the rainfall changes in YHRV. 2. Section 3.1 briefs the impact of the meridional position of EAWJ on the summer rainfall in YHRV based on the data used in the present study.
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