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by Staff Writers Zurich, Switzerland (SPX) Jul 22, 2015
In 2003, Europe experienced a record-breaking summer, and many people feel that this summer is headed the same way. In the midst of this heatwave, the scientific journal Nature Geoscience has published a study that can help us to understand such extreme weather conditions. For around two years, an ETH research team has analysed climate data from all over the world in a bid to explain the driving force behind stable high-pressure systems. It has long been known that extremely stable high-pressure systems in the upper troposphere, that is five to ten kilometres up into the atmosphere, can trigger summer heatwaves. Researchers have termed these special high-pressure conditions 'blocking', since they deflect low-pressure systems and, as a result, may lead to warm weather patterns. These patterns are around 2,000 kilometres in diameter and can span across large swathes of Europe. They interrupt the typical westerly flow from the North Atlantic, which would otherwise determine the weather conditions in our region.
The opposite of sweating 'Latent heat' plays an important role: clouds form in the ascending air masses, water vapour condenses and releases so-called latent energy. "That is the opposite of sweating, in which water evaporates and cools the body," explains Pfahl. The resultant heating of the parcel of air can lead to a further rise. The latent heat thus provides part of the force needed for the air masses to rise.
Delayed process It is easy to understand this through changes in the weather: clouds or areas of bad weather form over the Atlantic and, a few days later, the patterns appear over Europe with sunny weather. "The process is thus always delayed; in the week before the blocking occurs, far more than half of the air masses undergo this latent heating process," says ETH Professor Heini Wernli. For 20 years, Wernli has specialised in the analysis of low-pressure systems, in which latent heat has long been recognised as an essential process. The research team has focussed on the phenomenon of blocking for a good ten years. "At the beginning we were all curious as to why the flow suddenly changed from westerly to another state," says Wernli. The current study has combined the findings from the analysis of low-pressure areas with those from the research into blocking.
Immense volumes of data analysed The new findings may also prove useful in other areas of climate research. "There is more moisture in the air as the result of global warming. This causes more latent heat to be released, which could also lead to a change in the frequency of blocking weather conditions," says Pfahl. "But that is still highly speculative; we need to conduct further research into this." The weather forecast could conceivably benefit from the new findings as well, since it often misses the moment at which the blocking pattern forms or disintegrates, which can have a significant impact on weather developments. It remains to be seen how well the latent heat process can be reproduced in existing weather models.
Blocking also causes high fog Pfahl S, Schwierz C, Croci-Maspoli M, Grams CM, Wernli H: Importance of latent heat release in ascending streams for atmospheric blocking. Nature Geoscience, 20 July 2015, doi: 10.1038/ngeo2487
Related Links ETH Zurich Weather News at TerraDaily.com
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