Antarctic sea ice extent variability and its global connectivity

Publication Type  Journal Article
Year of Publication  2000
Authors  Yuan, X. J.; Martinson, D. G.
Journal Title  Journal of Climate
Volume  13
Issue  10
Pages  1697-1717
Journal Date  May 15
ISBN Number  0894-8755
Accession Number  ISI:000087350100005
Key Words  nino-southern oscillation; harmonic standing waves; surface-temperature; circumpolar wave; el-nino; interannual variability; atmospheric circulation; semiannual oscillation; extratropical cyclone; model sensitivity
Abstract  

This study statistically evaluates the relationship between Antarctic sea ice extent and global climate variability. Temporal cross correlations between detrended Antarctic sea ice edge (SIF) anomaly and Various climate indices are calculated. For the sea surface temperature (SST) in the eastern equatorial Pacific and tropical Indian Ocean, as well as the tropical Pacific precipitation, a coherent propagating pattern is clearly evident in all correlations with the spatially averaged (over 12 degrees longitude) detrended SIE anomalies ((SIE*)). Correlations with ENSO indices imply that up to 34% of the variance in (SIE*) is linearly related to ENSO. The (SIE*) has even higher correlations with the tropical Pacific precipitation and SST in the tropical Indian Ocean. In addition, correlation of (SIE*) with global surface temperature produces four characteristic correlation patterns: 1) an ENSO-like pattern in the Tropics with strong correlations in the Indian Ocean and North America (r > 0.6); 2) a teleconnection pattern between the eastern Pacific region of the Antarctic and western-central tropical Pacific; 3) an Antarctic dipole across the Drake Passage; and 4) meridional banding structures in the central Pacific and Atlantic expending from polar regions to the Tropics, even to the Northern Hemisphere.

Notes  

319PJTimes Cited:101Cited References Count:91

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