2C.4
Distinctive modes of variability associated with active versus subdued Atlantic tropical cyclone activity
Wilbur Y. Chen, NOAA/NWS/NCEP/CPC, Camp Spring, MD
The large-scale environmental conditions are investigated for active and subdued tropical cyclone (TC) activity in the Atlantic basin. A highly non-linear relationship is uncovered. For the subdued TC seasons, the unfavorable atmospheric conditions over the cyclone prone basin are found to be a manifestation of a much larger global-scale variability, with its center located at the eastern equatorial Pacific and the mode of variability resembles the anomaly during the El Nino boreal summers. On the other hand, for the active seasons, the favorable atmospheric anomalies are primarily confined to the lower troposphere in the western North Atlantic region and appears to be associated with the local underlying warm sea surface temperature (SST) anomaly. Hence, there is a distinctive association of the active versus subdued TC season with a regional versus an El Nino mode of variability. The La Nina associated variability does not appear to play a role.
The influence of the lower boundary SST conditions, in both the Pacific and the Atlantic sectors, is found also to be distinct and highly non-linear. While a local warm SST anomaly promotes TC activity, a local cool anomaly does not play a role in inhibiting it. By the same token, while a remote Pacific warm SST anomaly produces unfavorable atmospheric conditions, a cool La Nina event does not play the opposite role of promoting the Atlantic TC activity. An implication of these findings is that the conventional linear correlation analysis, or other linear tool such as the empirical orthogonal function analysis, is most likely to be inadequate to address and depict this highly non-linear phenomenon.
The long-lead predicative capability of TC's interannual variability by employing SST's antecedent modes of variability is carefully compared with that of the other variables, such as sea level pressure, low- and upper-level flows, and the vertical wind shear. The former variable appears to be a better contender. In general, the SST precursor is already in place in April or May, way ahead of the ensuing peak season of the TC activity, which falls in August to October.
Session 2C, Intraseasonal Variations of Tropical Cyclones (Parallel with Sessions 2A and 2B)
Tuesday, 23 May 2000, 1:15 PM-3:00 PM
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