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Gulf stream and ENSO increase the temperature sensitivity of Atlantic tropical cyclones

Moore, J. C.; Grinsted, A.; Jevrejeva, S. ORCID: https://orcid.org/0000-0001-9490-4665. 2008 Gulf stream and ENSO increase the temperature sensitivity of Atlantic tropical cyclones. Journal of Climate, 21 (7). 1523-1531. 10.1175/2007JCLI1752.1

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Abstract/Summary

Controversy exists over the role of the recent rise in sea surface temperatures (SST) and the frequency of tropical cyclones or hurricanes. Here, 135 yr of observational records are used to demonstrate how sea surface temperature, sea level pressure, and cyclone numbers are linked. A novel wavelet-lag coherence method is used to study cause and effect relations over a large space of time scales, phase lags, and periods. It is found that SST and cyclones are not merely correlated, but are in a negative feedback loop, where rising SST causes increased numbers of cyclones, which reduce SST. This is statistically most significant at decadal and not at longer periods, which is contrary to expectations if long-period natural cycles are important in driving cyclone numbers. Spatial relationships are examined using phase-aware teleconnections, which at the dominant decadal period show the in-phase behavior of the Atlantic SST in the Gulf Stream region, reflecting the role of the transportion of heat northward from the tropical Atlantic. At 5-yr periods there is significant coherence when SST leads cyclones by 2 yr, and this is associated with tropical ENSO activity such that, as predicted, increasing numbers of El Ninos cause fewer Atlantic cyclones. The pattern of coherence existing since 1970 strongly favors the decadal coherence band, and despite growing coherence at higher frequencies, there is none at the 5-yr band, perhaps explaining why the observed sensitivity between SST and cyclones is larger than that from general circulation model (GCM) predictions and becoming greater

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1175/2007JCLI1752.1
Programmes: Oceans 2025 > Climate, ocean circulation and sea level
ISSN: 0894-8755
Additional Keywords: SEA SURFACE TEMPERATURE; SOUTHERN OSCILLATION; WAVELET ANALYSIS; HURRICANES; INTENSITY; EXTENSION; TRENDS; ICE THICKNESS
NORA Subject Terms: Marine Sciences
Date made live: 11 Feb 2009 11:23 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/5410

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