On the observational and numerical aspects of explosive East coast cyclogenesis

An explosively deepening storm or 'bomb' (hereafter quotes omitted) is defined by Sanders and Gyakum (1980) as an extratropical cyclone whose central mean sea-level pressure falls at least 1 mb per hour for 24 hours. The composites constructed from the daily global analyses generated and a...

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Other Authors: Manobianco, John Thomas., Florida State University
Format: Text
Language:English
Subjects:
Environmental Sciences
Pacific
North Atlantic
Online Access:http://purl.flvc.org/fsu/lib/digcoll/etd/3161672
http://fsu.digital.flvc.org/islandora/object/fsu%3A77871/datastream/TN/view/On%20the%20observational%20and%20numerical%20aspects%20of%20explosive%20East%20coast%20cyclogenesis.jpg
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spelling ftfloridastunidc:oai:fsu.digital.flvc.org:fsu_77871 2023-05-15T17:36:39+02:00 On the observational and numerical aspects of explosive East coast cyclogenesis Manobianco, John Thomas. Florida State University 393 p. http://purl.flvc.org/fsu/lib/digcoll/etd/3161672 http://fsu.digital.flvc.org/islandora/object/fsu%3A77871/datastream/TN/view/On%20the%20observational%20and%20numerical%20aspects%20of%20explosive%20East%20coast%20cyclogenesis.jpg eng eng Dissertation Abstracts International On campus use only. Environmental Sciences Text ftfloridastunidc 2020-08-10T18:44:23Z An explosively deepening storm or 'bomb' (hereafter quotes omitted) is defined by Sanders and Gyakum (1980) as an extratropical cyclone whose central mean sea-level pressure falls at least 1 mb per hour for 24 hours. The composites constructed from the daily global analyses generated and archived at the European Center for Medium Range Weather Forecasts (ECMWF) accurately describe the three-dimensional kinematic and thermodynamic structure of bombs over the entire depth of the troposphere. Furthermore, a regional $-\overline{\omega\sp\prime\alpha\sp\prime}$ covariance is used for describing the intensity of baroclinic instability and hence cyclogenesis. Numerical experimentation of explosive east coast cyclogenesis is performed using the Florida State University Global Spectral Model (FSUGSM). The three cases examined here are the Presidents' Day storm of 18-19 February 1979 and the North Atlantic and Pacific bombs of 18-20 January 1979 which formed off the east coasts of the United States and Japan respectively. The use of a global model provides a framework for studying the phenomena on the 3-5 day time scale and for examining the sensitivity of the forecasts to data analysis in regions several thousand km upstream of the storm domain. A technique is developed to uniquely partition and quantify the role of the dynamical and physical processes in the explosive cyclogenetic process. Additionally, the complete model-generated four-dimensional data sets are used to compute residual-free Eulerian vorticity budgets. The results of this work reveal that explosive cyclogenesis is a baroclinic phenomena in which the rapid intensification in the presence of pronounced middle and upper tropospheric forcing is enhanced by a highly destabilized lower troposphere that is strongly heated and moistened by upward (positive) oceanic sensible and latent heat fluxes. The focus of the ongoing research is shifting away from the problem of actually predicting explosive cyclogenesis toward improving the skill of bomb forecasts and simultaneously extending the range of predictability of such events. Source: Dissertation Abstracts International, Volume: 49-10, Section: B, page: 4209. Major Professor: T. N. Krishnamurti. Thesis (Ph.D.)--The Florida State University, 1988. Text North Atlantic Florida State University Digital Library (FSUDL) Pacific
institution Open Polar
collection Florida State University Digital Library (FSUDL)
op_collection_id ftfloridastunidc
language English
topic Environmental Sciences
spellingShingle Environmental Sciences
On the observational and numerical aspects of explosive East coast cyclogenesis
topic_facet Environmental Sciences
description An explosively deepening storm or 'bomb' (hereafter quotes omitted) is defined by Sanders and Gyakum (1980) as an extratropical cyclone whose central mean sea-level pressure falls at least 1 mb per hour for 24 hours. The composites constructed from the daily global analyses generated and archived at the European Center for Medium Range Weather Forecasts (ECMWF) accurately describe the three-dimensional kinematic and thermodynamic structure of bombs over the entire depth of the troposphere. Furthermore, a regional $-\overline{\omega\sp\prime\alpha\sp\prime}$ covariance is used for describing the intensity of baroclinic instability and hence cyclogenesis. Numerical experimentation of explosive east coast cyclogenesis is performed using the Florida State University Global Spectral Model (FSUGSM). The three cases examined here are the Presidents' Day storm of 18-19 February 1979 and the North Atlantic and Pacific bombs of 18-20 January 1979 which formed off the east coasts of the United States and Japan respectively. The use of a global model provides a framework for studying the phenomena on the 3-5 day time scale and for examining the sensitivity of the forecasts to data analysis in regions several thousand km upstream of the storm domain. A technique is developed to uniquely partition and quantify the role of the dynamical and physical processes in the explosive cyclogenetic process. Additionally, the complete model-generated four-dimensional data sets are used to compute residual-free Eulerian vorticity budgets. The results of this work reveal that explosive cyclogenesis is a baroclinic phenomena in which the rapid intensification in the presence of pronounced middle and upper tropospheric forcing is enhanced by a highly destabilized lower troposphere that is strongly heated and moistened by upward (positive) oceanic sensible and latent heat fluxes. The focus of the ongoing research is shifting away from the problem of actually predicting explosive cyclogenesis toward improving the skill of bomb forecasts and simultaneously extending the range of predictability of such events. Source: Dissertation Abstracts International, Volume: 49-10, Section: B, page: 4209. Major Professor: T. N. Krishnamurti. Thesis (Ph.D.)--The Florida State University, 1988.
author2 Manobianco, John Thomas.
Florida State University
format Text
title On the observational and numerical aspects of explosive East coast cyclogenesis
title_short On the observational and numerical aspects of explosive East coast cyclogenesis
title_full On the observational and numerical aspects of explosive East coast cyclogenesis
title_fullStr On the observational and numerical aspects of explosive East coast cyclogenesis
title_full_unstemmed On the observational and numerical aspects of explosive East coast cyclogenesis
title_sort on the observational and numerical aspects of explosive east coast cyclogenesis
url http://purl.flvc.org/fsu/lib/digcoll/etd/3161672
http://fsu.digital.flvc.org/islandora/object/fsu%3A77871/datastream/TN/view/On%20the%20observational%20and%20numerical%20aspects%20of%20explosive%20East%20coast%20cyclogenesis.jpg
geographic Pacific
geographic_facet Pacific
genre North Atlantic
genre_facet North Atlantic
op_relation Dissertation Abstracts International
op_rights On campus use only.
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