Seventh Conference on Polar Meteorology and Oceanography and Joint Sympsoium on High-Latitude Climate Variations

13.14

Modeling the ENSO modulation of Antarctic climate in the late 1990s with Polar MM5

David H. Bromwich, Byrd Polar Research Center, Ohio State Univ., Columbus, OH; and A. J. Monaghan and Z. Guo

The Polar MM5 is employed to examine the strong El Niņo-Southern Oscillation (ENSO) modulation of Antarctic climate for July 1996-June 1999. This provides a more comprehensive assessment than can be achieved with observational datasets by using a regional atmospheric model adapted for high-latitude applications (Polar MM5; http://www-bprc.mps.ohio-state.edu/pmm5.html). The most pronounced ENSO response is observed over the Ross Ice Shelf-Marie Byrd Land and over the Weddell Sea-Ronne/Filchner Ice Shelf. In addition to having the largest climate variability associated with ENSO, these two regions exhibit anomalies of opposite sign throughout the study period, which supports and extends similar findings by other investigators. The dipole structure is observed in surface temperature, meridional winds, cloud fraction and precipitation. The ENSO-related variability is primarily controlled by the large-scale circulation anomalies surrounding the continent, which are consistent throughout the troposphere. When comparing the El Niņo / La Niņa phases of this late 1990s ENSO cycle, the circulation anomalies are nearly mirror images over the entire Antarctic, indicating their significant modulation by ENSO. Large temperature anomalies, especially in autumn, are prominent over the major ice shelves. This is most likely due to their relatively low elevation with respect to the continental interior making them more sensitive to shifts in synoptic forcing offshore of Antarctica, especially during months with considerable open water. The Polar MM5 simulations are in broad agreement with observational data, and the simulated precipitation closely follows the European Centre for Medium-Range Weather Forecasts Tropical Ocean - Global Atmosphere precipitation trends over the study period. The collective findings of this work suggest the Polar MM5 is capturing ENSO-related atmospheric variability with good skill and may be a useful tool for future climate studies.

extended abstract  Extended Abstract (1.7M)

Session 13, Observations of and explanations for recent and/or abrupt change (Continued)
Friday, 16 May 2003, 1:30 PM-3:15 PM

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