Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010

This study analyzes precipitable water vapor (PWV) in and around tropical cyclones (TC) over the Caribbean region. PWV is highly variable in time and space, and it is a potential energy source for tropical cyclone development. To characterize the PWV profile in and around TCs, observations of PWV ar...

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Main Authors: Almanza, Vanessa, Braun, John, MuĂąoz, Ernesto, Hunt, Douglas
Format: Text
Language:unknown
Published: University Corporation For Atmospheric Research (UCAR) 2011
Subjects:
The Gib
North Atlantic
Online Access:https://dx.doi.org/10.5065/k4a7-wj05
https://opensky.ucar.edu/islandora/object/manuscripts:623
id ftdatacite:10.5065/k4a7-wj05
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spelling ftdatacite:10.5065/k4a7-wj05 2023-05-15T17:34:45+02:00 Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010 Almanza, Vanessa Braun, John MuĂąoz, Ernesto Hunt, Douglas 2011 https://dx.doi.org/10.5065/k4a7-wj05 https://opensky.ucar.edu/islandora/object/manuscripts:623 unknown University Corporation For Atmospheric Research (UCAR) manuscript Text article-journal ScholarlyArticle 2011 ftdatacite https://doi.org/10.5065/k4a7-wj05 2021-11-05T12:55:41Z This study analyzes precipitable water vapor (PWV) in and around tropical cyclones (TC) over the Caribbean region. PWV is highly variable in time and space, and it is a potential energy source for tropical cyclone development. To characterize the PWV profile in and around TCs, observations of PWV are compared to PWV from an operational weather forecasting model for the years 2007-2010. PWV observations were gathered from the Suomi Network of ground-based Global Positioning System (GB-GPS) stations within a 1,000 km radius of a TC's center and categorized by storm strength. Maximum wind speeds and coordinates of storm centers were obtained from the North Atlantic Basin Hurricane Dataset. The Global Forecast System (GFS) model initializations of PWV were then linearly interpolated to the GB-GPS at a 6-hourly time resolution for comparison. The statistical analysis of PWV from the GPS and the GFS revealed a consistent overestimation of PWV in the GFS. This overestimation ranged from 2-4 mm at distances beyond 200 km from the storms' centers. However, at distances within 100 km from the storms' centers, the average PWV was underestimated by the GFS in the tropical storm category. The GFS model error was greatest at approximately 200 km from storm centers. Statistics correlating PWV and storm strengths of Category 3 and higher were inconclusive due to lack of observations. This study thus provides adequate analysis of PWV for TC strengths below Category 3, and this can be useful for improving tropical cyclone forecasts. Text North Atlantic DataCite Metadata Store (German National Library of Science and Technology) The Gib ENVELOPE(-57.531,-57.531,51.817,51.817)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
description This study analyzes precipitable water vapor (PWV) in and around tropical cyclones (TC) over the Caribbean region. PWV is highly variable in time and space, and it is a potential energy source for tropical cyclone development. To characterize the PWV profile in and around TCs, observations of PWV are compared to PWV from an operational weather forecasting model for the years 2007-2010. PWV observations were gathered from the Suomi Network of ground-based Global Positioning System (GB-GPS) stations within a 1,000 km radius of a TC's center and categorized by storm strength. Maximum wind speeds and coordinates of storm centers were obtained from the North Atlantic Basin Hurricane Dataset. The Global Forecast System (GFS) model initializations of PWV were then linearly interpolated to the GB-GPS at a 6-hourly time resolution for comparison. The statistical analysis of PWV from the GPS and the GFS revealed a consistent overestimation of PWV in the GFS. This overestimation ranged from 2-4 mm at distances beyond 200 km from the storms' centers. However, at distances within 100 km from the storms' centers, the average PWV was underestimated by the GFS in the tropical storm category. The GFS model error was greatest at approximately 200 km from storm centers. Statistics correlating PWV and storm strengths of Category 3 and higher were inconclusive due to lack of observations. This study thus provides adequate analysis of PWV for TC strengths below Category 3, and this can be useful for improving tropical cyclone forecasts.
format Text
author Almanza, Vanessa
Braun, John
MuĂąoz, Ernesto
Hunt, Douglas
spellingShingle Almanza, Vanessa
Braun, John
MuĂąoz, Ernesto
Hunt, Douglas
Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
author_facet Almanza, Vanessa
Braun, John
MuĂąoz, Ernesto
Hunt, Douglas
author_sort Almanza, Vanessa
title Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
title_short Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
title_full Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
title_fullStr Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
title_full_unstemmed Influence of precipitable water vapor in and around tropical cyclones in the Caribbean: 2007-2010
title_sort influence of precipitable water vapor in and around tropical cyclones in the caribbean: 2007-2010
publisher University Corporation For Atmospheric Research (UCAR)
publishDate 2011
url https://dx.doi.org/10.5065/k4a7-wj05
https://opensky.ucar.edu/islandora/object/manuscripts:623
long_lat ENVELOPE(-57.531,-57.531,51.817,51.817)
geographic The Gib
geographic_facet The Gib
genre North Atlantic
genre_facet North Atlantic
op_doi https://doi.org/10.5065/k4a7-wj05
_version_ 1766133682868846592

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