Statistical assessment of the OWZ Tropical Cyclone Tracking Scheme in ERA-Interim

- Bell, Samuel, Chand, Savin, Tory, Kevin, Turville, Christopher

Title
Statistical assessment of the OWZ Tropical Cyclone Tracking Scheme in ERA-Interim
Creator
Bell, Samuel; Chand, Savin; Tory, Kevin; Turville, Christopher
Date
2018
Type
Text; Journal article
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/165144
Identifier
vital:13201
Identifier
https://doi.org/10.1175/JCLI-D-17-0548.1
Identifier
ISBN:0894-8755
Abstract
The Okubo–Weiss–Zeta (OWZ) tropical cyclone (TC) detection scheme, which has been used to detect TCs in climate, seasonal prediction, and weather forecast models, is assessed on its ability to produce a realistic TC track climatology in the ERA-Interim product over the 25-yr period 1989 to 2013. The analysis focuses on TCs that achieve gale-force (17ms21) sustained winds. Objective criteria were established to define TC tracks once they reach gale force for both observed and detected TCs. A lack of consistency between storm tracks preceding this level of intensity led these track segments to be removed from the analysis.Asubtropical jet (STJ) diagnostic is used to terminate transitioning TCs and is found to be preferable to a fixed latitude cutoff point. TC tracks were analyzed across seven TC basins, using a probabilistic clustering technique that is based on regression mixture models. The technique grouped TC tracks together based on their geographical location and shape of trajectory in five separate ‘‘cluster regions’’ around the globe. A mean trajectory was then regressed for each cluster that showed good agreement between the detected and observed tracks. Other track measures such as interannual TC days and translational speeds were also replicated to a satisfactory level, with TC days showing limited sensitivity to different latitude cutoff points. Successful validation in reanalysis data allows this model- and grid-resolution-independent TC tracking scheme to be applied to climate models with confidence in its ability to identify TC tracks in coarse-resolution climate models.
Publisher
AMER Meteorological Society
Relation
Journal of Climate Vol. 31, no. 6 (2018), p. 2217-2232
Rights
Copyright © 2018 American Meteorological Society.
Rights
Open Access
Rights
This metadata is freely available under a CCO license
Subject
0401 Atmospheric Sciences; 0405 Oceanography; 0909 Geomatic Engineering; Hurricane-type vortices; Cluster-analysis; Extratropical transition; Resolution; Pacific; Climatology
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