Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 7-Day Trial for You or Your Team.

Learn More →

Trends in Southern Hemisphere Circulation in IPCC AR4 Models over 1950–99: Ozone Depletion versus Greenhouse Forcing

Trends in Southern Hemisphere Circulation in IPCC AR4 Models over 1950–99: Ozone Depletion versus... Simulations by the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report (AR4) models on the Southern Hemisphere (SH) circulation are assessed over the period 1950–99, focusing on the seasonality of the trend and the level of its congruency with the southern annular mode (SAM) in terms of surface zonal wind stress. It is found that, as a group, the models realistically produce the seasonality of the trend, which is strongest in the SH summer season, December–February (DJF). The modeled DJF trend is principally congruent with the modeled SAM trend, as in observations. The majority of models produce a statistically significant positive trend, with decreasing westerlies in the midlatitudes and increasing westerlies in the high latitudes. The trend pattern from an all-experiment mean achieves highest correlation with that from the National Centers for Environmental Prediction (NCEP) data. A total of 48 out of the 71 experiments were run with ozone-depletion forcing, which offers an opportunity to assess the importance of ozone depletion in driving the late-twentieth-century trends. The AR4 model ensemble that contains an ozone-depletion forcing produces an averaged trend that is comparable to the trend from the NCEP outputs corrected by station-based observations. The trend is largely generated after the mid-1970s. Without ozone depletion the trend is less than half of that in the corrected NCEP, although the errors in the observed trend are large. The impact on oceanic circulation is inferred from wind stress curl in the group with ozone-depletion forcing. The result shows an intensification of the southern midlatitude supergyre circulation, including a strengthening East Australian Current flowing through the Tasman Sea. Thus, ozone depletion also plays an important role in the subtropical gyre circulation change over the past decades. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Climate American Meteorological Society

Trends in Southern Hemisphere Circulation in IPCC AR4 Models over 1950–99: Ozone Depletion versus Greenhouse Forcing

Cai, Wenju; Cowan, Tim
Journal of Climate , Volume 20 (4) – Jan 24, 2006
Download PDF
13 pages

Loading next page...
 
/lp/american-meteorological-society/trends-in-southern-hemisphere-circulation-in-ipcc-ar4-models-over-1950-0G7GzRCTo8

References

References for this paper are not available at this time. We will be adding them shortly, thank you for your patience.

Publisher
American Meteorological Society
Copyright
Copyright © 2006 American Meteorological Society
ISSN
1520-0442
DOI
10.1175/JCLI4028.1
Publisher site
See Article on Publisher Site

Abstract

Simulations by the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report (AR4) models on the Southern Hemisphere (SH) circulation are assessed over the period 1950–99, focusing on the seasonality of the trend and the level of its congruency with the southern annular mode (SAM) in terms of surface zonal wind stress. It is found that, as a group, the models realistically produce the seasonality of the trend, which is strongest in the SH summer season, December–February (DJF). The modeled DJF trend is principally congruent with the modeled SAM trend, as in observations. The majority of models produce a statistically significant positive trend, with decreasing westerlies in the midlatitudes and increasing westerlies in the high latitudes. The trend pattern from an all-experiment mean achieves highest correlation with that from the National Centers for Environmental Prediction (NCEP) data. A total of 48 out of the 71 experiments were run with ozone-depletion forcing, which offers an opportunity to assess the importance of ozone depletion in driving the late-twentieth-century trends. The AR4 model ensemble that contains an ozone-depletion forcing produces an averaged trend that is comparable to the trend from the NCEP outputs corrected by station-based observations. The trend is largely generated after the mid-1970s. Without ozone depletion the trend is less than half of that in the corrected NCEP, although the errors in the observed trend are large. The impact on oceanic circulation is inferred from wind stress curl in the group with ozone-depletion forcing. The result shows an intensification of the southern midlatitude supergyre circulation, including a strengthening East Australian Current flowing through the Tasman Sea. Thus, ozone depletion also plays an important role in the subtropical gyre circulation change over the past decades.

Journal

Journal of ClimateAmerican Meteorological Society

Published: Jan 24, 2006

References

  • Contributions of external forcings to southern annular mode trends.
    Arblaster
  • Antarctic ozone depletion causes an intensification of the Southern Ocean super-gyre circulation.
    Cai
  • The response of the Antarctic Oscillation to increasing and stabilized atmospheric CO2.
    Cai
  • The response of the southern annular mode, the East Australian Current, and the southern midlatitude ocean circulation to global warming.
    Cai
  • Climate response associated with the southern annular mode in the surroundings of Antarctic Peninsula: A multimodel ensemble analysis.
    Carril
  • Radiative forcing by well-mixed greenhouse gases: Estimates from climate models in the IPCC AR4.
    Collins
  • GFDL’s CM2 global coupled climate models. Part I: Formulation and simulation characteristics.
    Delworth
  • Simulation of present-day climate with a coupled atmosphere–ocean general circulation model.
    Diansky
  • The Canadian Centre for Climate Modeling and Analysis global coupled model and its climate.
    Flato
  • Human-induced change in the Antarctic Circumpolar Current.
    Fyfe
  • Simulated changes in the extratropical Southern Hemisphere winds and currents.
    Fyfe
  • The Arctic and Antarctic Oscillations and their projected changes under global warming.
    Fyfe
  • Warming of the Southern Ocean since the 1950s.
    Gille
  • Simulation of recent Southern Hemisphere climate change.
    Gillett
  • Sverdrup model of the depth-integrated flow for the World Ocean allowing for island circulations.
    Godfrey
  • The simulation of SST, sea ice extents and ocean heat transports in a version of the Hadley Centre coupled model without flux adjustments.
    Gordon