Climatology of Tibetan Plateau Vortices in Reanalysis Data and a High-Resolution Global Climate Model

The Tibetan Plateau (TP) and surrounding high mountains constitute an important forcing of the atmospheric circulation due to their height and extent, and thereby impact weather and climate in downstream regions of East Asia. Mesoscale Tibetan Plateau vortices (TPVs) are one of the major precipitati...

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Veröffentlicht in:Journal of climate Jg. 32; H. 6; S. 1933 - 1950
Hauptverfasser: Curio, Julia, Schiemann, Reinhard, Hodges, Kevin I., Turner, Andrew G.
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Boston American Meteorological Society 15.03.2019
Schlagworte:
Algorithms
Atmospheric circulation
Climate
Climate models
Climatology
Computer simulation
Cyclones
Datasets
Extreme weather
Flooding
Global climate
Global climate models
High resolution
Mesoscale vortexes
Mountains
Plateaus
Precipitation
Resolution
River valleys
Rivers
Simulation
Studies
Tracking
Vortices
Weather
Tibetan Plateau
ISSN:0894-8755, 1520-0442
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Zusammenfassung:The Tibetan Plateau (TP) and surrounding high mountains constitute an important forcing of the atmospheric circulation due to their height and extent, and thereby impact weather and climate in downstream regions of East Asia. Mesoscale Tibetan Plateau vortices (TPVs) are one of the major precipitation-producing systems on the TP. A fraction of TPVs move off the TP to the east and can trigger extreme precipitation in parts of China, such as the Sichuan province and the Yangtze River valley, which can result in severe flooding. In this study, the climatology of TPV occurrence is examined in two reanalyses and, for the first time, in a high-resolution global climate model using an objective feature tracking algorithm. Most TPVs are generated in the northwestern part of the TP; the center of this main genesis region is small and stable throughout the year. The strength and position of the subtropical westerly jet is correlated to the distance TPVs can travel eastward and therefore could have an effect on whether or not a TPV is moving off the TP. TPV-associated precipitation can account for up to 40% of the total precipitation in parts of China in selected months, often due to individual TPVs. The results show that the global climate model is able to simulate TPVs at N512 (∼25 km) horizontal resolution and in general agrees with the reanalyses. The fact that the global climate model can represent the TPV climatology opens a wide range of options for future model-based research on TPVs.
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ISSN:0894-8755
1520-0442
DOI:10.1175/JCLI-D-18-0021.1