141 research outputs found
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A 4D feature tracking algorithm: a multidimensional view of cyclone systems
An objective 4D algorithm developed to track extratropical relative vorticity anomaly 3D structure over time
is introduced and validated. The STACKER algorithm, structured with the TRACKER single level tracking
algorithm as source of the single-level raw tracks, objectively combines tracks from various levels to
determine the 3D structure of the cyclone (or anticyclone) events throughout their life cycle. Stacker works
progressively, beginning with two initial levels and then adding additional levels to the stack in a bottom-up
and/or top-down approach. This allows an iterative stacking approach, adding one level at a time, resulting in
an optimized 4D determination of relative vorticity anomaly events.
A two-stage validation process is carried out with the ERA-Interim dataset for the 2015 austral winter. First
the overall tracking capability during an austral winter, taking into account a set of climate indicators and
their impacts on Southern Hemisphere circulation, was compared to previous climatologies, in order to
verify the density and distribution of the cyclone events detected by STACKER. Results show the cyclone
density distribution is in very good agreement with previous climatologies, after taking into account potential
differences due to climate variability and different tracking methodologies. The second stage focuses on
three different long-lived events over the Southern Hemisphere, during the winter of 2015 spanning seven
different pressure levels. Both GOES satellite imagery, infrared and water vapour channels, and ERAInterim
cloud cover products are used in order to validate the tracks obtained as well as the algorithmâs
capability and reliability. The observed 3D cyclone structures and their time evolution are consistent with
current understanding of cyclone system development. Thus, the two-stage validation confirms that the
algorithm is suitable to track multilevel events, and can follow and analyse their 3-D life cycle and develop
full 3D climatologies and climate variability studie
Relationship between the southern annular mode and southern hemisphere atmospheric systems
Le bilan de la rotationnelle absolue dans l'atmosphĂšre
The equation of balance of the absolute vorticity is derived from V. Bjerknes' Circulation Theorem, formulated in an arbitrary moving frame of general coordinates. The flux and the rate of production of absolute vorticity are defined. The case of the component of absolute vorticity normal to the equiscalar surfaces of a meteorological quantity is considered. From the expression of the horizontal convective flux of the vertical component of the relative vorticity, a relation between the horizontal meridional flows of relative vorticity and angular momentum is deduced.info:eu-repo/semantics/publishe
ON THE MAGNITUDE OF CYCLONE DEVELOPMENT AND THE POSSIBILITY OF LARGE-SCALE MODIFICATIONS
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A review of extratropical cyclones: observations and conceptual models over the past 100 years
This article reviews synoptic extratropical cyclone research starting from the skilfully constructed conceptual diagrams of the Bergen school in the 1920s. Careful analysis of multiple surface observations allowed Norwegian scientists to deduce the existence of cold and warm fronts and to characterise a complete cyclone lifecycle. Since then, new observing systems and advances in computational capabilities have enabled scientific research which has greatly expanded and enriched our knowledge of extratropical cyclone structure and evolution
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