Subseasonal Variability of Rossby Wave Breaking and Impacts on Tropical Cyclones during the North Atlantic Warm Season

This study investigates the subseasonal variability of anticyclonic Rossby wave breaking (AWB) and its impacts on atmospheric circulations and tropical cyclones (TCs) over the North Atlantic in the warm season from 1985 to 2013. Significant anomalies in sea level pressure, tropospheric wind, and hum...

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Bibliographic Details
Published in:Journal of climate 2018-12, Vol.31 (23), p.9679-9695
Main Authors: Li, Weiwei, Wang, Zhuo, Zhang, Gan, Peng, Melinda S., Benjamin, Stanley G., Zhao, Ming
Format: Article
Language:English
Subjects:
Anomalies
Atmospheric circulation
Climate
Cold
Cyclogenesis
Cyclones
Cyclonic circulation
Ensemble forecasting
Hurricanes
Investigations
Lead time
Madden-Julian oscillation
Planetary waves
Precipitation
Rossby wave breaking
Rossby waves
Sea level
Sea level anomalies
Sea level pressure
Seasons
Summer
Tropical atmosphere
Tropical circulation
Tropical climate
Tropical cyclogenesis
Tropical cyclones
Tropospheric winds
Variability
Vertical wind shear
Vorticity
Warm seasons
Wave breaking
Weekly
Wind
Wind shear
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Summary:This study investigates the subseasonal variability of anticyclonic Rossby wave breaking (AWB) and its impacts on atmospheric circulations and tropical cyclones (TCs) over the North Atlantic in the warm season from 1985 to 2013. Significant anomalies in sea level pressure, tropospheric wind, and humidity fields are found over the tropical–subtropical Atlantic within 8 days of an AWB activity peak. Such anomalies may lead to suppressed TC activity on the subseasonal time scale, but a significant negative correlation between the subseasonal variability of AWB and Atlantic basinwide TC activity does not exist every year, likely due to the modulation of TCs by other factors. It is also found that AWB occurrence may be modulated by the Madden–Julian oscillation (MJO). In particular, AWB occurrence over the tropical–subtropical west Atlantic is reduced in phases 2 and 3 and enhanced in phases 6 and 7 based on the Real-Time Multivariate MJO (RMM) index. The impacts of AWB on the predictive skill of Atlantic TCs are examined using the Global Ensemble Forecasting System (GEFS) reforecasts with a forecast lead time up to 2 weeks. The hit rate of tropical cyclogenesis during active AWB episodes is lower than the long-term-mean hit rate, and the GEFS is less skillful in capturing the variations of weekly TC activity during the years of enhanced AWB activity. The lower predictability of TCs is consistent with the lower predictability of environmental variables (such as vertical wind shear, moisture, and low-level vorticity) under the extratropical influence.
ISSN:0894-8755
1520-0442
DOI:10.1175/jcli-d-17-0880.1