A new view of heat wave dynamics and predictability over the eastern Mediterranean
<p>Skillful forecasts of extreme weather events have a major socioeconomic relevance. Here, we compare two complementary approaches to diagnose the predictability of extreme weather: recent developments in dynamical systems theory and numerical ensemble weather forecasts. The former allows us...
| Main Authors: | , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Copernicus Publications
2021-02-01
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| Series: | Earth System Dynamics |
| Online Access: | https://esd.copernicus.org/articles/12/133/2021/esd-12-133-2021.pdf |
| Summary: | <p>Skillful forecasts of extreme weather events have a major
socioeconomic relevance. Here, we compare two complementary approaches to
diagnose the predictability of extreme weather: recent developments in
dynamical systems theory and numerical ensemble weather forecasts. The
former allows us to define atmospheric configurations in terms of their
persistence and local dimension, which provides information on how the atmosphere evolves
to and from a given state of interest. These metrics may be used as proxies
for the intrinsic predictability of the atmosphere, which only depends on
the atmosphere's properties. Ensemble weather forecasts provide information on the
practical predictability of the atmosphere, which partly depends on the
performance of the numerical model used. We focus on heat waves affecting
the eastern Mediterranean. These are identified using the climatic stress
index (CSI), which was explicitly developed for the summer weather
conditions in this region and differentiates between heat waves (upper
decile) and cool days (lower decile). Significant differences are found
between the two groups from both the dynamical systems and the numerical
weather prediction perspectives. Specifically, heat waves show relatively
stable flow characteristics (high intrinsic predictability) but
comparatively low practical predictability (large model spread and error). For
500 hPa geopotential height fields, the <i>intrinsic</i> predictability of heat waves is
lowest at the event's onset and decay. We relate these results to the
physical processes governing eastern Mediterranean summer heat waves:
adiabatic descent of the air parcels over the region and the geographical
origin of the air parcels over land prior to the onset of a heat wave. A
detailed analysis of the mid-August 2010 record-breaking heat wave provides
further insights into the range of different regional atmospheric
configurations conducive to heat waves. We conclude that the dynamical
systems approach can be a useful complement to conventional numerical
forecasts for understanding the dynamics and predictability of eastern
Mediterranean heat waves.</p> |
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| ISSN: | 2190-4979 2190-4987 |