Editorial Type:
Article
Article Type:
Research Article

An Analysis of the Landfall of Hurricane Nora (1997)

Luis M. Farfán Department of Geography, Arizona State University, Tempe, Arizona

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Joseph A. Zehnder Department of Geography and Department of Mathematics, Arizona State University, Tempe, Arizona

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Print Publication:
01 Aug 2001
DOI:
https://doi.org/10.1175/1520-0493(2001)129<2073:AAOTLO>2.0.CO;2
Page(s):
2073–2088
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Abstract

The changes to the motion and structure of the eastern Pacific Tropical Cyclone Nora (1997) during landfall are investigated. Nora developed south of the Mexican coast, intensified into a hurricane, and made landfall over northwestern Mexico and the southwestern United States. In this study, the authors document the evolution of the structure of Nora from a variety of sources. Observations derived from satellite imagery show the approach of the hurricane to the Baja California peninsula and the development of a localized area of mesoscale convection that intensified while moving over the Gulf of California. The propagation of this convective system became the dominant feature of the landfall and provided heavy precipitation over a region confined to western Arizona.

Numerical simulations with the Pennsylvania State University–National Center for Atmospheric Research Mesoscale Model version 5 are used to examine the details of the evolution of the observed area of convection over the gulf. Simulations at different spatial resolutions show that the model is able to provide a reasonable prediction of the changes to the track, structure, and intensity of the hurricane at landfall. In addition, the model fields show that orographic modification of the low-level flow is involved in the development of a secondary circulation over the gulf. The simulated location and structure of this circulation are consistent with the observations derived from satellite imagery.

Corresponding author address: Luis M. Farfán, Department of Geography, Arizona State University, Tempe, AZ 85287-0104. Email: farfan@asu.edu

Abstract

The changes to the motion and structure of the eastern Pacific Tropical Cyclone Nora (1997) during landfall are investigated. Nora developed south of the Mexican coast, intensified into a hurricane, and made landfall over northwestern Mexico and the southwestern United States. In this study, the authors document the evolution of the structure of Nora from a variety of sources. Observations derived from satellite imagery show the approach of the hurricane to the Baja California peninsula and the development of a localized area of mesoscale convection that intensified while moving over the Gulf of California. The propagation of this convective system became the dominant feature of the landfall and provided heavy precipitation over a region confined to western Arizona.

Numerical simulations with the Pennsylvania State University–National Center for Atmospheric Research Mesoscale Model version 5 are used to examine the details of the evolution of the observed area of convection over the gulf. Simulations at different spatial resolutions show that the model is able to provide a reasonable prediction of the changes to the track, structure, and intensity of the hurricane at landfall. In addition, the model fields show that orographic modification of the low-level flow is involved in the development of a secondary circulation over the gulf. The simulated location and structure of this circulation are consistent with the observations derived from satellite imagery.

Corresponding author address: Luis M. Farfán, Department of Geography, Arizona State University, Tempe, AZ 85287-0104. Email: farfan@asu.edu

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