ECMWF Ensemble Forecasts of Six Tropical Cyclones That Formed during a Long-Lasting Rossby Wave Breaking Event in the Western North Pacific

Atmosphere Pub Date : 2024-05-17 DOI:10.3390/atmos15050610

Russell L. Elsberry, Hsiao-Chung Tsai, Wei-Chia Chin, Timothy P. Marchok

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Abstract

The ECMWF‘s ensemble (ECEPS) predictions are documented for the lifecycles of six tropical cyclones (TCs) that formed during a long-lasting Rossby wave breaking event in the western North Pacific. All six TC tracks started between 20° N and 25° N, and between 136° E and 160° E. All five typhoons recurved north of 30° N, and the three typhoons that did not make landfall had long tracks to 50° N and beyond. The ECEPS weighted mean vector motion track forecasts from pre-formation onward are quite accurate, with track forecast spreads that are primarily related to initial position uncertainties. The ECEPS intensity forecasts have been validated relative to the Joint Typhoon Warning Center (JTWC) Working Best Track (WBT) intensities (when available). The key results for Tokage (11 W) were the ECEPS forecasts of the intensification to a peak intensity of 100 kt, and then a rapid decay as a cold-core cyclone. For Hinnamnor (12 W), the key result was the ECEPS intensity forecasts during the post-extratropical transition period when Hinnamnor was rapidly translating poleward through the Japan Sea. For Muifa (14 W), the key advantage of the ECEPS was that intensity guidance was provided for longer periods than the JTWC 5-day forecast. The most intriguing aspect of the ECEPS forecasts for post-Merbok (15 W) was its prediction of a transition to an intense, warm-core vortex after Merbok had moved beyond 50° N and was headed toward the Aleutian Islands. The most disappointing result was that the ECEPS over-predicted the slow intensification rate of Nanmadol (16 W) until the time-to-typhoon (T2TY), but then failed to predict the large rapid intensification (RI) following the T2TY. The tentative conclusion is that the ECEPS model‘s physics are not capable of predicting the inner-core spin-up rates when a small inner-core vortex is undergoing large RI.

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ECMWF 对在北太平洋西部一次持续时间较长的罗斯比破浪事件中形成的六个热带气旋的集合预报

ECMWF 的集合（ECEPS）预测记录了在北太平洋西部一次持续时间较长的罗斯比破浪事件中形成的六个热带气旋（TC）的生命周期。所有 6 个热带气旋的路径都始于北纬 20 度和 25 度之间，以及东经 136 度和 160 度之间。所有 5 个台风都在北纬 30 度以北重新出现，没有登陆的 3 个台风的路径长达北纬 50 度及以上。从台风形成前开始，ECEPS 的加权平均矢量运动路径预报相当准确，路径预报偏差主要与初始位置的不确定性有关。根据联合台风警报中心（JTWC）的工作最佳路径（WBT）强度（如有），对 ECEPS 强度预报进行了验证。"蝎虎"（11 W）的关键结果是 ECEPS 预测强度增强到 100 kt 的峰值，然后作为冷核气旋迅速衰减。对于 Hinnamnor（12 W），关键结果是 ECEPS 在后副热带高压过渡期间的强度预测，当时 Hinnamnor 正穿过日本海快速向极地移动。对于 "缪法"（14 W），ECEPS 的主要优势是提供了比 JTWC 5 天预报更长时间的强度指导。ECEPS 对后 "梅博克"（15 W）的预报最吸引人的地方是，它预测在 "梅博克 "移动到北纬 50 度以外并向阿留申群岛移动后，会过渡到一个强烈的暖核涡旋。最令人失望的结果是，ECEPS 过高预测了南玛都（16 W）在台风来临时（T2TY）之前的缓慢加强率，但未能预测 T2TY 之后的大规模快速加强（RI）。初步结论是，ECEPS 模型的物理学原理无法预测小内核涡旋在经历大 RI 时的内核自旋上升率。

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Atmosphere

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