The Intensification of Hurricane Maria 2017 in the Antilles

The Intensification of Hurricane Maria 2017 in the Antilles

Environmental influences on Hurricane Maria in the Antilles Islands are analyzed at the large-scale (1−25 September) and at the meso-scale (17−20 September 2017). The storm intensified rapidly prior to landfall in Dominica, going from category 1 to 5 in 15 h. As the storm progres...

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Bibliographic Details
Main Authors: Mark R. Jury, Sen Chiao, Raphael Cécé
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Atmosphere
Subjects:
hurricane intensification
antilles
wrf simulations
Online Access:https://www.mdpi.com/2073-4433/10/10/590
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spelling doaj-904d7bc623054408ae95b1fbc06daa782020-11-25T02:22:04ZengMDPI AGAtmosphere2073-44332019-10-01101059010.3390/atmos10100590atmos10100590The Intensification of Hurricane Maria 2017 in the AntillesMark R. Jury0Sen Chiao1Raphael Cécé2Physics Department, University of Puerto Rico Mayagüez, Mayagüez 00681, Puerto RicoMeteorology and Climate Science, San Jose State University, San Jose, CA 95192, USALaboratory for Research in Geosciences and Energy (LARGE), University of French West Indies, Pointe-à-Pitre 97157, GuadeloupeEnvironmental influences on Hurricane Maria in the Antilles Islands are analyzed at the large-scale (1−25 September) and at the meso-scale (17−20 September 2017). The storm intensified rapidly prior to landfall in Dominica, going from category 1 to 5 in 15 h. As the storm progressed toward Puerto Rico (PR), its NE flank entrained air from seas cooled by the earlier passage of two hurricanes, and strengthened on its SW flank. Operational model forecasts tended to delay intensification until west of the Antilles Islands, thus motivating two independent weather research and forecasting (WRF) simulations. These gave minimal track errors at 1- to 3-day lead time. The simulation for landfall at Dominica on 19 September 2017 showed that a static nest with 0.8 km resolution using a Holland-type synthetic vortex and Yonsei University (YSU)/Kain-Fritsch schemes performed better; with a track error of 8 km and intensity error of 10 m/s. Our PR-area simulation of central pressure lagged 30 hPa behind observation; and caught up with reality by landfall in PR. The simulated rainband structure corresponded with Cloudsat observations over PR. Maria’s intensification occurred in an area of thermodynamic gradients included cooler SST in the right side of the track, so operational models with right-track bias were late in predicting intensification. Category-2 forecasts prior to 18 September 2017 left many Antilles islanders unprepared for the disaster that ensued.https://www.mdpi.com/2073-4433/10/10/590hurricane intensificationantilleswrf simulations
collection DOAJ
language English
format Article
sources DOAJ
author Mark R. Jury
Sen Chiao
Raphael Cécé
spellingShingle Mark R. Jury
Sen Chiao
Raphael Cécé
The Intensification of Hurricane Maria 2017 in the Antilles
Atmosphere
hurricane intensification
antilles
wrf simulations
author_facet Mark R. Jury
Sen Chiao
Raphael Cécé
author_sort Mark R. Jury
title The Intensification of Hurricane Maria 2017 in the Antilles
title_short The Intensification of Hurricane Maria 2017 in the Antilles
title_full The Intensification of Hurricane Maria 2017 in the Antilles
title_fullStr The Intensification of Hurricane Maria 2017 in the Antilles
title_full_unstemmed The Intensification of Hurricane Maria 2017 in the Antilles
title_sort intensification of hurricane maria 2017 in the antilles
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2019-10-01
description Environmental influences on Hurricane Maria in the Antilles Islands are analyzed at the large-scale (1−25 September) and at the meso-scale (17−20 September 2017). The storm intensified rapidly prior to landfall in Dominica, going from category 1 to 5 in 15 h. As the storm progressed toward Puerto Rico (PR), its NE flank entrained air from seas cooled by the earlier passage of two hurricanes, and strengthened on its SW flank. Operational model forecasts tended to delay intensification until west of the Antilles Islands, thus motivating two independent weather research and forecasting (WRF) simulations. These gave minimal track errors at 1- to 3-day lead time. The simulation for landfall at Dominica on 19 September 2017 showed that a static nest with 0.8 km resolution using a Holland-type synthetic vortex and Yonsei University (YSU)/Kain-Fritsch schemes performed better; with a track error of 8 km and intensity error of 10 m/s. Our PR-area simulation of central pressure lagged 30 hPa behind observation; and caught up with reality by landfall in PR. The simulated rainband structure corresponded with Cloudsat observations over PR. Maria’s intensification occurred in an area of thermodynamic gradients included cooler SST in the right side of the track, so operational models with right-track bias were late in predicting intensification. Category-2 forecasts prior to 18 September 2017 left many Antilles islanders unprepared for the disaster that ensued.
topic hurricane intensification
antilles
wrf simulations
url https://www.mdpi.com/2073-4433/10/10/590
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