Impact of Zonal and Meridional Atmospheric Flow on Surface Climate and Extremes in the Southern Hemisphere

Author:

Boschat Ghyslaine12ORCID,Purich Ariaan34,Rudeva Irina1,Arblaster Julie23

Affiliation:

1. a Bureau of Meteorology, Melbourne, Victoria, Australia

2. b ARC Centre of Excellence for Climate Extremes, Melbourne, Victoria, Australia

3. c School of Earth, Atmosphere and Environment, Monash University, Melbourne, Victoria, Australia

4. d ARC Special Research Initiative for Securing Antarctica’s Environmental Future, Melbourne, Victoria, Australia

Abstract

Abstract The Southern Annular Mode (SAM) describes the annular or zonal component of the large-scale atmospheric circulation in the Southern Hemisphere (SH) extratropics and influences surface climate across the SH. Although this annular flow is dominant in austral summer, in other seasons considerable zonal asymmetries are evident, reflecting a zonal wave 3 (ZW3) pattern. We define an index representing asymmetric flow using the first two leading modes of meridional wind variability in the SH. Two orthogonal ZW3 indices are used together to capture longitudinal shifts in the wave train and their connection to tropical convection. We compare the impacts of the SAM and ZW3 on surface climate by examining composites of temperature and precipitation fields during each season. Impacts on mean and extreme surface climates are assessed. We find that the SAM and ZW3 are not clearly separated modes, but rather, ZW3 modulates the impact of the SAM across the midlatitudes. The SAM influence on regional temperature and precipitation is similar for both mean impacts and extremes. The ZW3 influence on extremes is more varied across indices and does not always reflect the ZW3 impact on mean fields. Notably, amplified ZW3 activity has a significant influence on the number of midlatitude fronts and frontal rainfall, highlighting the importance of considering ZW3 when exploring the surface climate impacts of large-scale SH circulation states, particularly for nonsummer seasons. Significance Statement Variations in the strength and position of the midlatitude westerly winds have a strong influence on surface climates. While these winds are predominantly zonally symmetric in the Southern Hemisphere, few studies to date have explored the role of the asymmetric component of this circulation, particularly for seasons outside of summer. By defining two new indices of meridional circulation, this study reveals new important impacts on temperature, rainfall, and the likelihood of extreme climates in regions of southern Australia and South America, and sea ice regions around Antarctica. These findings question the validity of considering only zonal-mean winds for climate studies of the Southern Hemisphere and have important implications for the seasonal forecasting and predictability of extreme climate events in the near future.

Funder

Department of Environment, Land, Water and Planning, State Government of Victoria

ARC Centre of Excellence for Climate Extremes

Australian Research Council Discovery Grant

ARC Special Research Initiative for Securing Antarctica''s Environmental Future

Publisher

American Meteorological Society

Subject

Atmospheric Science

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