Verification of Operational Forecast Models in Cases of Extratropical Transition of North Atlantic Hurricanes

Bower, Erica; Reed, Kevin A.; Alaka, Ghassan J.; Hazelton, Andrew T.

doi:10.1175/WAF-D-24-0011.1

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Verification of Operational Forecast Models in Cases of Extratropical Transition of North Atlantic Hurricanes

2024
By Bower, Erica ; Reed, Kevin A. ; Alaka, Ghassan J. ; ...
Source: Weather and Forecasting, 39(11), 1695-1714

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Journal Title:

Weather and Forecasting
Personal Author:

Bower, Erica ; Reed, Kevin A. ; Alaka, Ghassan J. ; Hazelton, Andrew T.

Bower, Erica ; Reed, Kevin A. ; Alaka, Ghassan J. ; Hazelton, Andrew T. Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; AOML (Atlantic Oceanographic and Meteorological Laboratory) ; CIMAS (Cooperative Institute for Marine and Atmospheric Studies)

OAR (Oceanic and Atmospheric Research) ; AOML (Atlantic Oceanographic and Meteorological Laboratory) ; CIMAS (Cooperative Institute for Marine and Atmospheric Studies) Less -
Description:

Operational forecast models are necessary for the prediction of weather events in real time. Verification of these models must be performed to assess model skills and areas in need of improvement, particularly with different types of weather events that may occur. Despite the devastating impacts that can be caused by tropical cyclones (TCs) that undergo extratropical transition (ET) and become post-tropical cyclones (PTCs), these storms have not been extensively studied in the context of short-term weather prediction. This study completes the first analysis of the Global Forecast System (GFS) and a preoperational version of the newly operational Hurricane Analysis and Forecast System (HAFS) models in forecasting the occurrence of ET and the rainfall associated with ET storms in the North Atlantic basin. GFS’s skill exceeds that of HAFS in forecasting the occurrence of ET, but HAFS tends to have lower track and rain-rate errors in the fully tropical phase of ET storms’ life cycles. Both models simulate rain rates that are often too high near the storm center and fail to capture the larger area of moderate rain rates that greatly contributes to total rainfall accumulation. The discrepancies in rain rates between the models and Integrated Multi-satellitE Retrievals for GPM (IMERG) could be attributed to the models’ tendency to keep storms too intense and too compact with an overly strong warm core, even throughout the ET process.
Source:

Weather and Forecasting, 39(11), 1695-1714
DOI:

https://doi.org/10.1175/WAF-D-24-0011.1
ISSN:

0882-8156;1520-0434;
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PDF
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American Meteorological Society
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Journal Article
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urn:sha-512:fd07866289abf33ac46912cb2af24f491eb5360dd06cab293a9a5774a085f09a1cb87042998627c5d4aa47a4cbdc94ec339680f7bc785b4081f20008d0f9dcb8
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Verification of Operational Forecast Models in Cases of Extratropical Transition of North Atlantic Hurricanes

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