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- Title
Assessment of an Experimental Version of fvGFS for TC Genesis Forecasting Ability in the Western North Pacific.
- Authors
Lin, Shu-Jeng; Hsu, Huang-Hsiung; Tu, Chia-Ying; Chih, Cheng-Hsiang
- Abstract
We evaluated the ability of the fvGFS with a 13-km resolution in simulating tropical cyclone genesis (TCG) by conducting hindcast experiments for 42 TCG events over 2018–19 in the western North Pacific (WNP). We observed an improved hit rate with a lead time of between 5 and 4 days; however, from 4- to 3-day lead time, no consistent improvement in the temporal and spatial errors of TCG was obtained. More "Fail" cases occurred when and where a low-level easterly background flow prevailed: from mid-August to September 2018 and after October 2019 and mainly in the eastern WNP. In "Hit" cases, 850-hPa streamfunction and divergence, 200-hPa divergence, and genesis potential index (GPI) provided favorable TCG conditions. However, the Hit–Fail case differences in other suggested factors (vertical wind shear, 700-hPa moisture, and SST) were nonsignificant. By contrast, the reanalysis used for validation showed only significant difference in 850-hPa streamfunction. We stratified the background flow of TCG into four types. The monsoon trough type (82%) provided the most favorable environmental conditions for successful hindcasts, followed by the subtropical high (45%), easterly (17%), and others (0%) types. These results indicated that fvGFS is more capable of enhancing monsoon trough circulation and provides a much better environment for TCG development but is less skillful in other types of background flow that provides weaker large-scale forcing. The results suggest that the most advanced high-resolution weather forecast models such as the fvGFS warrant further improvement to properly simulate the subtle circulation features (e.g., mesoscale convection system) that might provide seeds for TCG. Significance Statement: This study provides an evaluation of tropical cyclone genesis prediction skill of fvGFS. Favorable large-scale environmental factors for successful prediction are identified. Skill dependence on environmental factors provides guidance for evaluating the reliability of a genesis forecast in advance.
- Subjects
VERTICAL wind shear; TROPICAL cyclones; WEATHER forecasting; CYCLONE forecasting; FORECASTING; STRATIFIED flow
- Publication
Weather & Forecasting, 2023, Vol 38, Issue 11, p2271
- ISSN
0882-8156
- Publication type
Article
- DOI
10.1175/WAF-D-23-0056.1