Gravity Waves and The Study of LowerUpper atmosphere Coupling - PowerPoint PPT Presentation

1 / 11
About This Presentation
Title:

Gravity Waves and The Study of LowerUpper atmosphere Coupling

Description:

Gravity Waves and The Study of Lower/Upper atmosphere Coupling. Han-Li Liu ... 'Anomalous' mesospheric structures and need for dynamical forcing (Rayleigh ... – PowerPoint PPT presentation

Number of Views:114
Avg rating:3.0/5.0
Slides: 12
Provided by: terriac
Category:

less

Transcript and Presenter's Notes

Title: Gravity Waves and The Study of LowerUpper atmosphere Coupling


1
Gravity Waves and The Study of Lower/Upper
atmosphere Coupling
Han-Li Liu High Altitude Observatory National
Center for Atmospheric Research
2
Upper atmospheric gravity wave TID
  • The start of upper atmospheric gravity wave
    study Traveling Ionospheric Disturbance (TID)
    and (linear) gravity waves (Hines, 1960).

3
Upper atmospheric gravity wave Wave breaking
  • Gravity wave wave breaking and turbulence
    generation (Hodges, 1967).

4
Mesospheric Circulation
  • Anomalous mesospheric structures and need for
    dynamical forcing (Rayleigh friction) (Murgatroyd
    and Singleton, 1961 Leovy, 1964).
  • Gravity wave impact on the mesospheric
    circulation (Holton, 1982, 1983).

5
  • Seasonal variability of mesospheric atomic oxygen
    is closely dependent on the seasonal variability
    of eddy diffusion induced by gravity wave
    breaking (Garcia and Solomon, 1985) O peak
    around equinox.
  • Atomic oxygen distribution also closely dependent
    on the change of mesospheric circulation driven
    by the gravity wave (Liu and Roble, 2004) O
    depleted around equinox.
  • Proximity of the characteristic times of
    diffusive and advective transport, which are the
    competive processes in this case, is the cause of
    the large variability and highlights the need for
    accurate gravity wave information.

6
Change of Gravity Wave Forcing During SSW
  • Filtering of gravity waves by wind gravity wave
    will be reflected or absorbed at critical layer.
  • Eastward stratospheric jet under normal winter
    conditions dominant westward propagating gravity
    waves in the mesosphere.
  • Jet reversal during SSW dominant direction of
    gravity wave in mesosphere also reverses.

7
Variability/Uncertainty of GW Forcing
Liu and Roble, 2002
8
Gravity Wave and Mesospheric Variability
  • Interaction of gravity waves and planetary waves
    (Smith, 1997) and tides (Meyer, 1999).
  • Mesosphere semi-annual oscillation (MSAO) is
    sensitive to convectively generated gravity waves
    (Sassi Garcia, 1997 Garcia Sassi, 1999
    Beres, 2005).
  • How are the variability affected by gravity wave
    sources with spatial and temporal distributions?

9
Carbone et al, 2002
10
Some Issues Regarding GW Parameterization
  • The GW source specification in most global models
    are necessity-based (to obtain mean middle/upper
    atmospheric structures that are climatologically
    OK).
  • Spatial/temporal distribution usually not
    considered, and its impact on mesospheric
    dynamics not well understood.
  • Difficult to estimate the variability and
    uncertainty. Lack means to constrain and justify
    the parameterization.

11
How to Address These Issues
  • Better understanding of the wave generation
    mechanisms related to various tropospheric
    processes and waves generated in realistic
    atmospheric flows (Smolarkievicz, Lane, Alexakis,
    Shapiro, Hsu, Pan, Sassi, Richter ).
  • Spectral structures of wave sources (Cohn
    Brown, Sassi, Richter).
  • Global distribution of gravity wave sources
    (Randel, Sassi, Richter).
  • Quantification of gravity waves at various
    atmosphere layers (Wu, Randel).
  • Gravity wave propagation and breaking processes
    (Smolarkievicz, Lane, Smith ).
  • Get more people to work on it (Foster).
  • Disclaimer These studies will help the study of
    upper atmospheric GW and GW parameterziations,
    but they are surely of interests and values in
    their own rights.

12
Back to the Thermosphere/Ionosphereand Beyond
  • Thermosphere compositional structure dependent on
    transport between the thermosphere and the
    mesosphere. Diffusive transport is critical in
    quantifying the transport (Smith).
  • Ionospheric disturbances in E and F regions that
    are thought to have lower atmospheric origins
    (Wang).
  • Gravity wave generation and properties in the
    Solar atmosphere (MacGregor).
Write a Comment
User Comments (0)
About PowerShow.com