Affiliation:
1. Heavy Rain and Drought-Flood Disaster in Plateau and Basin Key Laboratory of Sichuan Province, Chengdu 610072, China
2. Sichuan Meteorological Disaster Prevention Technology Center, Chengdu 610072, China
3. Institute of Plateau Meteorology, China Meteorology Administration, Chengdu 610072, China
Abstract
In this study, we aimed to demonstrate the importance of diabatic heating in extreme rainstorm weather events induced by the Southwest China vortex (SWCV) in different precipitation regions with a similar circulation background. The results showed that atmospheric diabatic heating had indicative significance for the intensity evolution of the SWCV and the precipitation area. Changes in the diabatic heating intensity preceded the intensity evolution of the SWCV, and the diabatic heating region was consistent with the heavy precipitation region. The variation in diabatic heating was mainly due to the positive contribution of its vertical transport term. The two types of spatially non-uniform heating effects were similar; however, the western type was located southeast of the SWCV, with an asymmetric distribution on the southeastern and northwestern sides. The eastern type was located in the northeast of the SWCV, with an asymmetric distribution on the northeastern and southwestern sides. The vertically non-uniform heating effect played a decisive role in the distribution and evolution of the spatially non-uniform heating terms. The vertically non-uniform heating effect affected the intensity evolution of the SWCV. In contrast, the horizontally non-uniform heating effect, in opposition to the vertically non-uniform heating effect, had a slightly weaker intensity than the vertically non-uniform heating effect. For the SWCV system, which induces extreme rainstorms, the magnitude of the horizontally non-uniform heating effect could reach that of vertically non-uniform heating; thus, the possible impact of horizontally non-uniform heating should be considered.
Funder
Key Project of the Joint Meteorological Fund of the National Natural Science Foundation of China
the Key Project of the National Natural Science Foundation of China
the Innovation Team Fund of the Sichuan Meteorological Administration
Innovative Development Special Project of the China Meteorological Administration
the 2024 China Meteorological Administration Restoration Projec
Reference30 articles.
1. Zhu, Q.G., Lin, J.R., Shou, S.W., and Tang, D.S. (2000). Principles and Methods of Weather, Meteorological Press. [4th ed.].
2. Wang, Z.S., Wang, Y.H., and Liang, Y.G. (1996). The numeric experiment research on a Southwest Vortex rainstorm. The Research on Rainstorm Science, Professional Experiment and the Theory Research on Weather Dynamics, Meteorological Press.
3. Study of a heavy rain vortex formed over the eastern Flank of the Tibetan Plateau;Wang;Mon. Weather Rev.,1987
4. Synoptic situations of extreme hourly precipitation over China;Luo;J. Clim.,2016
5. How well can a climate model simulate an extreme precipitation event: A case study using the transpose-AMIP experiment;Jian;J. Clim.,2018