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North Atlantic Oscillation Lecture Outline

North Atlantic Oscillation Lecture Outline. Development of Ideas Westerlies and waves in the westerlies North Atlantic Oscillation basic pattern impact on Northern Hemisphere Forcing of NAO.

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North Atlantic Oscillation Lecture Outline

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  1. North Atlantic OscillationLecture Outline • Development of Ideas • Westerlies and waves in the westerlies • North Atlantic Oscillation basic pattern impact on Northern Hemisphere • Forcing of NAO

  2. Hans Egede Saabye made the following observation in a diary which he kept in Greenland during the years 1770-78:

  3. 1920s Walker NAO • 1950s Jerome Namias: Index Cycle • 1950s Ed Lorenz: Lorenz Boxes • 1980s Lamb and Peppler • 1995 onwards: Work begins!

  4. Poles Subtropics Pressure Gradient Force

  5. Con Div Vertical motion in Rossby Wave LOW Vorticity maximum LOW

  6. Lecture Outline • Westerlies and waves in the westerlies • North Atlantic Oscillation basic pattern impact on Northern Hemisphere • Forcing of NAO

  7. North Atlantic Oscillation • Pattern of Climate Variability that determines weather and climate in N.Atlantic • Controls much of the month to month variability of temperature and rainfall in N.W. Europe

  8. North Atlantic Setting • High Pressure over the Azores • Low Pressure over Iceland • Westerly wind • low pressure systems (rain) travel in the westerlies

  9. North Atlantic Oscillation • Azores high and Icelandic Low are the centres of action • Azores high can weaken or strengthen • Icelandic low can weaken or strengthen • Tendency for Azores high and Icelandic low to be negatively correlated

  10. High Phase Azores High strong Icelandic Low deep westerlies strong wind and rain mild conditions in NW Europe dry conditions in Med and N Africa Dry and cold in N Canada and Greenland Eastern USA wet and mild Low Phase Azores high weak Icelandic Low shallow westerlies weak clear and still NW Europe cold and dry wet conditions in Med and N Africa US east coast cold outbreaks and snow Greenland mild conditions North Atlantic Oscillation

  11. Temperature

  12. Rainfall

  13. - NAO Negative NAOI

  14. + NAO Positive NAOI

  15. U Component (East-West) + NAO - NAO

  16. Lecture Outline • Westerlies and waves in the westerlies • North Atlantic Oscillation basic pattern impact on Northern Hemisphere • Forcing of NAO

  17. Forcing of NAO • Internal variability in the atmosphere • Ocean forcing • Ocean-Atmosphere coupling • Atmosphere – Ocean • Stratospheric forcing Observational studies Modelling Studies

  18. Internal Variability • Models forced with non-varying SST still produce a NAO response (Barnett, 1985; Marshall and Molteni, 1993, e.g., Kitoh et al. 1996; Saravanan 1998; Osborn et al. 1999; Shindell et al. 1999). • Fundamental mechanism of NAO may be internal atmospheric variability – • Phase and amplitude of NAO can be forced • Ocean models forced with noise can generate coherent decadal SST patterns

  19. SST Forcing • Modelling • Davies et al 1997 forced HADAM1 with observed SST 1949-1993. • NAO pattern similar to observed • Rodwell et al 1999 Nature • Observational • Sutton and Allen 1997 Nature • Hurrell

  20. OCEAN - ATMOSPHERE INTERACTION Sensible and latent heat flux wind stress Sensible and latent heat flux

  21. OCEAN - ATMOSPHERE INTERACTION Sensible and latent heat flux wind stress Sensible and latent heat flux

  22. OCEAN - ATMOSPHERE INTERACTION Sensible and latent heat flux wind stress Sensible and latent heat flux

  23. OCEAN - ATMOSPHERE INTERACTION: AGCM experiments SST hypotheses Sensible and latent heat flux SSTs (and therefore heat fluxes to atmosphere) prescribed by observed SSTs BUT Heat fluxes and wind stress from atmosphere are ignored

  24. OCEAN - ATMOSPHERE INTERACTION: AGCM experiments Internal variability hypotheses Sensible and latent heat flux SSTs (and therefore heat fluxes to atmosphere) fixed by constant SSTs Any variability must be internal to atmosphere (i.e. chaos)

  25. Coupled Mechanisms • NAO may be determined by an inherently coupled interaction between ocean and atmosphere • Low frequency response of the ocean to atmospheric forcing and its feedback on the atmosphere result in decadal oscillations • 2 possible mechanisms exist:

  26. Mechanical and thermal interaction between the wind-driven ocean gyres and overlying atmospheric circulation - gyre dynamics then set decadal time scales (e.g. Deser and Blackmon, 1993) • variability is governed by processes that modulate the strength of the meridional or thermohaline circulation (and heat transport) - hence SSTs (e.g. Latif, 1996)

  27. CMIP, the Coupled Model Intercomparison Project, is the analog of AMIP for global coupled ocean-atmosphere general circulation models. • CMIP began in 1995 under the auspices of the Working Group on Coupled Models (WGCM) of CLIVAR.

  28. NAOMIP is a multi-national CMIP sub-project to compare the coupled ocean-atmosphere model simulations of the annual, interannual, and interdecadal variability in the North Atlantic Oscillation.

  29. OCEAN - ATMOSPHERE INTERACTION Sensible and latent heat flux wind stress Sensible and latent heat flux

  30. OCEAN - ATMOSPHERE INTERACTION: AOGCM Experiments Sensible and latent heat flux wind stress Sensible and latent heat flux Model calculates SSTs Wind stress heat fluxes O-A and A-O

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