Tracking the extent of the South Pacific Convergence Zone since the early 1600s

Publication Type  Journal Article
Year of Publication  2006
Authors  Linsley, B. K.; Kaplan, A.; Gouriou, Y.; Salinger, J.; Demenocal, P. B.; Wellington, G. M.; Howe, S. S.
Journal Title  Geochemistry Geophysics Geosystems
Volume  7
Pages  -
Journal Date  May 3
ISBN Number  1525-2027
Accession Number  ISI:000237445800004
Key Words  south pacific convergence zone (spcz); itcz variability; paleoceanography : corals; geochemistry : stable isotope geochemistry oceanography : physical : decadal ocean variability; global change : climate variability; atmospheric processes : paleoclimatolo
Abstract  

[ 1] The South Pacific Convergence Zone (SPCZ) is the largest and most persistent spur of the Intertropical Convergence Zone. At the southeastern edge of the SPCZ near 170 degrees W and 15 degrees - 20 degrees S a surface ocean salinity frontal zone exists that separates fresher Western Pacific Warm Pool water from saltier and cooler waters in the east. This salinity front is known to shift east and west with the phase of the El Nino Southern Oscillation. We have generated subannually resolved and replicated coral oxygen isotopic time series from Fiji ( 17 degrees S, 179 degrees E) and Rarotonga (21.5 degrees S, 160 degrees W) that have recorded interannual displacements of the salinity front over the last 380 years and also indicate that at lower frequencies the decadal mean position of the salinity front, and eastern extent of the SPCZ, has shifted east-west through 10 degrees to 20 degrees of longitude three times during this interval. The most recent and largest shift began in the mid 1800s as the salinity front progressively moved eastward and salinity decreased at both sites. Our results suggest that sea surface salinity at these sites is now at the lowest levels recorded and is evidence for an unprecedented expansion of the SPCZ since the mid 1800s. The expansion of the SPCZ implies a gradual change in the South Pacific to more La Nina-like long-term mean conditions. This observation is consistent with the ocean thermostat mechanism for the Pacific coupled ocean-atmosphere system, whereby exogenous heating of the atmosphere would result in greater warming in the western Pacific and a greater east-west surface temperature gradient.

Notes  

041HQTimes Cited:3Cited References Count:42

URL  <Go to ISI>://000237445800004
DOI  Doi 10.1029/2005gc001115