Saharan air layer interaction with Hurricane Claudette (2003)
It is well understood that the Saharan air layer (SAL) influences the variability and the intensity of tropical cyclones and African easterly waves in the Atlantic Ocean Basin. The radiative and conductive properties of the mineral dust are thought to contribute to warming within the SAL, creating a...
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| Format: | Thesis |
| Language: | English |
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Texas Tech University
2004
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| Subjects: | |
| Online Access: | http://hdl.handle.net/2346/10708 |
| _version_ | 1821652783631171584 |
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| author | Rothman, Gabriel Samuel |
| author_facet | Rothman, Gabriel Samuel |
| author_sort | Rothman, Gabriel Samuel |
| collection | Texas Tech University: TTU DSpace Repository |
| description | It is well understood that the Saharan air layer (SAL) influences the variability and the intensity of tropical cyclones and African easterly waves in the Atlantic Ocean Basin. The radiative and conductive properties of the mineral dust are thought to contribute to warming within the SAL, creating an anomalous baroclinic zone in the Tropical North Atlantic. Environmental baroclinic instability is a mechanism by which available potential energy is converted to eddy kinetic energy, leading to wave growth. However, this same baroclinic mechanism, along with the dry properties of the SAL could also lead to asymmetries in tropical cyclones, limiting tropical cyclone intensity. Claudette and its formative wave which occurred during the 2003 Atlantic Basin hurricane season propagated along the southern boundary of a broad but moderate SAL outbreak throughout its evolution. First, it was found that the presence of Saharan dust was well correlated to heating in the environment. Thus, the wave growth potential was diagnosed using the Chamey-Stem condition for combined barotropic-baroclinic instability. It was found that the Chamey-Stem condition was satisfied for the formative tropical wave throughout much of its evolution, corresponding to the mostly progressive wave growth which occurred over time. The lifting potential due to the SAL boundaries and the mid-level easterly jet were then investigated, and the current research suggests that there is a dual-celled set of circulations, forced by the SAL boundaries but modified by the mid-level easterly jet. The SAL continued to remain intact in the storm environment almost throughout Claudette's entire evolution, after tropical cyclogenesis and through its entire track into the Western Gulf of Mexico. Rapid intensification in the last 15 hours prior to landfall was concurrent with the breakdown of Saharan air intrusion that had been persistent in the storm environment. Although the presence of dry air may have limited the intensity of Claudette before the rapid ... |
| format | Thesis |
| genre | North Atlantic |
| genre_facet | North Atlantic |
| id | fttexastechuniv:oai:ttu-ir.tdl.org:2346/10708 |
| institution | Open Polar |
| language | English |
| op_collection_id | fttexastechuniv |
| op_relation | http://hdl.handle.net/2346/10708 |
| op_rights | Unrestricted. |
| publishDate | 2004 |
| publisher | Texas Tech University |
| record_format | openpolar |
| spelling | fttexastechuniv:oai:ttu-ir.tdl.org:2346/10708 2025-01-16T23:44:08+00:00 Saharan air layer interaction with Hurricane Claudette (2003) Rothman, Gabriel Samuel 2004-08 application/pdf http://hdl.handle.net/2346/10708 eng eng Texas Tech University http://hdl.handle.net/2346/10708 Unrestricted. Air masses -- Sahara Hurricane Claudette 2003 Boundary layer (Meteorology) Thesis 2004 fttexastechuniv 2023-01-04T07:23:03Z It is well understood that the Saharan air layer (SAL) influences the variability and the intensity of tropical cyclones and African easterly waves in the Atlantic Ocean Basin. The radiative and conductive properties of the mineral dust are thought to contribute to warming within the SAL, creating an anomalous baroclinic zone in the Tropical North Atlantic. Environmental baroclinic instability is a mechanism by which available potential energy is converted to eddy kinetic energy, leading to wave growth. However, this same baroclinic mechanism, along with the dry properties of the SAL could also lead to asymmetries in tropical cyclones, limiting tropical cyclone intensity. Claudette and its formative wave which occurred during the 2003 Atlantic Basin hurricane season propagated along the southern boundary of a broad but moderate SAL outbreak throughout its evolution. First, it was found that the presence of Saharan dust was well correlated to heating in the environment. Thus, the wave growth potential was diagnosed using the Chamey-Stem condition for combined barotropic-baroclinic instability. It was found that the Chamey-Stem condition was satisfied for the formative tropical wave throughout much of its evolution, corresponding to the mostly progressive wave growth which occurred over time. The lifting potential due to the SAL boundaries and the mid-level easterly jet were then investigated, and the current research suggests that there is a dual-celled set of circulations, forced by the SAL boundaries but modified by the mid-level easterly jet. The SAL continued to remain intact in the storm environment almost throughout Claudette's entire evolution, after tropical cyclogenesis and through its entire track into the Western Gulf of Mexico. Rapid intensification in the last 15 hours prior to landfall was concurrent with the breakdown of Saharan air intrusion that had been persistent in the storm environment. Although the presence of dry air may have limited the intensity of Claudette before the rapid ... Thesis North Atlantic Texas Tech University: TTU DSpace Repository |
| spellingShingle | Air masses -- Sahara Hurricane Claudette 2003 Boundary layer (Meteorology) Rothman, Gabriel Samuel Saharan air layer interaction with Hurricane Claudette (2003) |
| title | Saharan air layer interaction with Hurricane Claudette (2003) |
| title_full | Saharan air layer interaction with Hurricane Claudette (2003) |
| title_fullStr | Saharan air layer interaction with Hurricane Claudette (2003) |
| title_full_unstemmed | Saharan air layer interaction with Hurricane Claudette (2003) |
| title_short | Saharan air layer interaction with Hurricane Claudette (2003) |
| title_sort | saharan air layer interaction with hurricane claudette (2003) |
| topic | Air masses -- Sahara Hurricane Claudette 2003 Boundary layer (Meteorology) |
| topic_facet | Air masses -- Sahara Hurricane Claudette 2003 Boundary layer (Meteorology) |
| url | http://hdl.handle.net/2346/10708 |