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Intraseasonal Variability of the West African Monsoon and Atlantic ITCZ Öffentlichkeit Deposited

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https://ir.library.oregonstate.edu/concern/articles/3b591b365

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Abstract
  • Intraseasonal variability of boreal summer rainfall and winds in tropical West Africa and the east Atlantic is examined using daily Tropical Rainfall Measuring Mission (TRMM) precipitation and the NCEP–NCAR reanalysis during 1998–2006. Intraseasonal precipitation variability is dominated by two significant spectral peaks at time scales near 15 and 50 days, accompanied by corresponding peaks in eddy kinetic energy (EKE) and eddy enstrophy. Regional precipitation variability on 30–90-day time scales is significantly correlated (+0.6) with a global Madden–Julian oscillation time series based on equatorial zonal winds, supporting the results of A. J. Matthews. The overall amplitude of the 30–90-day West African monsoon precipitation variability during a given summer, however, does not appear to be strongly regulated by interannual variability in MJO amplitude. Composite analysis and complex empirical orthogonal function analysis shows that 30–90-day precipitation anomalies are generally zonally elongated, grow and decay in place, and have maximum amplitude near the Gulf of Guinea and in the Atlantic ITCZ. Composite 30–90-day enhanced precipitation events are accompanied by a significant suppression of eastern North Atlantic trade winds. Suppressed 30–90-day precipitation events are associated with an enhancement of the Atlantic trade winds. Enhanced (suppressed) EKE occurs just to the north of the east Atlantic ITCZ during positive (negative) 30–90-day precipitation events, with the maximum EKE magnitude lagging precipitation events by about 5 days. East Atlantic tropical cyclone activity is significantly modulated on intraseasonal time scales. The number of tropical cyclones that occur in the Atlantic’s main development region to the east of 60°W is suppressed about 5–10 days before maxima in a regional intraseasonal precipitation time series, and enhanced about 5–10 days after time series maxima. An analysis of east Atlantic tropical cyclone activity based on an equatorial MJO index produces similar results. Consistent with the results of K. C. Mo, variations in vertical shear may help explain this modulation of tropical cyclone activity.
  • Keywords: Atlantic Ocean, Intertropical convergence zone, Monsoons, Africa
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  • Maloney, Eric D., Jeffrey Shaman, 2008: Intraseasonal Variability of the West African Monsoon and Atlantic ITCZ. Journal of Climate, 21, 2898–2918.
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  • 21
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  • 12
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  • This work was supported by the Climate and Large-Scale Dynamics Program of the National Science Foundation (NSF) under Grants ATM-0540901 and ATM-0632341, and under Award# NA05OAR4310006 from the National Oceanic and Atmospheric Administration (NOAA), U.S. Department of Commerce.
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