Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Effect of Overturning Circulation on Long Equatorial Waves: A Low-Frequency Cutoff

Effect of Overturning Circulation on Long Equatorial Waves: A Low-Frequency Cutoff AbstractZonally long tropical waves in the presence of a large-scale meridional and vertical overturning circulation are studied in an idealized model based on the intraseasonal multiscale moist dynamics (IMMD) theory. The model consists of a system of shallow-water equations describing barotropic and first baroclinic vertical modes coupled to one another by the zonally symmetric, time-independent background circulation. To isolate the effects of the meridional circulation alone, an idealized background flow is chosen to mimic the meridional and vertical components of the flow of the Hadley cell; the background flow meridionally converges and rises at the equator. The resulting linear eigenvalue problem is a generalization of the long-wave-scaled version of Matsuno’s equatorial wave problem with the addition of meridional and vertical advection. The results demonstrate that the meridional circulation couples equatorially trapped baroclinic Rossby waves to planetary, barotropic free Rossby waves. The meridional circulation also causes the Kelvin wave to develop an equatorially trapped barotropic component, imparting a westward-tilted vertical structure to the wave. The total energy of the linear system is positive definite, so all waves are shown to be neutrally stable. A critical layer exists at latitudes where the meridional background flow vanishes, resulting in a minimum frequency cutoff for physically feasible waves. Therefore, linear Matsuno waves with periods longer than the vertical transport time of the meridional circulation do not exist in the equatorial waveguide. This implies a low-frequency cutoff for long equatorial waves. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of the Atmospheric Sciences American Meteorological Society

Effect of Overturning Circulation on Long Equatorial Waves: A Low-Frequency Cutoff

Download PDF
19 pages

Loading next page...
1
 
/lp/ams/effect-of-overturning-circulation-on-long-equatorial-waves-a-low-ZG05Vw0d0T

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 © American Meteorological Society
ISSN
1520-0469
eISSN
1520-0469
DOI
10.1175/JAS-D-17-0173.1
Publisher site
See Article on Publisher Site

Abstract

AbstractZonally long tropical waves in the presence of a large-scale meridional and vertical overturning circulation are studied in an idealized model based on the intraseasonal multiscale moist dynamics (IMMD) theory. The model consists of a system of shallow-water equations describing barotropic and first baroclinic vertical modes coupled to one another by the zonally symmetric, time-independent background circulation. To isolate the effects of the meridional circulation alone, an idealized background flow is chosen to mimic the meridional and vertical components of the flow of the Hadley cell; the background flow meridionally converges and rises at the equator. The resulting linear eigenvalue problem is a generalization of the long-wave-scaled version of Matsuno’s equatorial wave problem with the addition of meridional and vertical advection. The results demonstrate that the meridional circulation couples equatorially trapped baroclinic Rossby waves to planetary, barotropic free Rossby waves. The meridional circulation also causes the Kelvin wave to develop an equatorially trapped barotropic component, imparting a westward-tilted vertical structure to the wave. The total energy of the linear system is positive definite, so all waves are shown to be neutrally stable. A critical layer exists at latitudes where the meridional background flow vanishes, resulting in a minimum frequency cutoff for physically feasible waves. Therefore, linear Matsuno waves with periods longer than the vertical transport time of the meridional circulation do not exist in the equatorial waveguide. This implies a low-frequency cutoff for long equatorial waves.

Journal

Journal of the Atmospheric SciencesAmerican Meteorological Society

Published: May 7, 2018

References

  • The effect of meridional and vertical shear on the interaction of equatorial baroclinic and barotropic Rossby waves
    Biello, J.; Majda, A.
  • Intraseasonal multi-scale moist dynamics of the tropical atmosphere
    Biello, J.; Majda, A.
  • The dynamics of long waves in a baroclinic westerly current
    Charney, J.
  • Convectively coupled waves propagating along an equatorial ITCZ
    Dias, J.; Pauluis, O.
  • Long waves and cyclone waves
    Eady, E.
  • Some simple solutions for heat-induced tropical circulation
    Gill, A.
  • Modulation of the convectively coupled Kelvin waves over South America and the tropical Atlantic Ocean in association with the Madden–Julian oscillation
    Guo, Y.; Jiang, X.; Waliser, D. E.
  • The NCEP/NCAR Reanalysis 40-Year Project
    Kalnay, E. A.
  • Convectively coupled equatorial waves
    Kiladis, G. N.; Wheeler, M. C.; Haertel, P. T.; Straub, K. H.; Roundy, P. E.
  • Mechanisms of global teleconnections associated with the Asian summer monsoon: An intermediate model analysis
    Liu, F.; Wang, B.
  • The nonlinear interaction of barotropic and equatorial baroclinic Rossby waves
    Majda, A.; Biello, J.
  • Systematic multiscale models for the tropics
    Majda, A.; Klein, R.
  • Convective inhibition, subgrid-scale triggering energy, and stratiform instability in a toy tropical wave model
    Mapes, B.
  • Quasi-geostrophic motions in the equatorial area
    Matsuno, T.
  • Identifying convectively coupled equatorial waves using theoretical wave eigenvectors
    Ogrosky, H. R.; Stechmann, S. N.
  • Effect of dry large-scale vertical motions on initial MJO convective onset
    Powell, S. W.; Houze, R. A.
  • On the stability or instability of certain fluid motions
    Rayleigh, J.
  • Observed relationships between oceanic Kelvin waves and atmospheric forcing
    Roundy, P. E.; Kiladis, G. N.
  • Rossby–Kelvin instability—A new type of ageostrophic instability caused by a resonance between Rossby waves and gravity waves
    Sakai, S.
  • The general circulation of the atmosphere
    Schneider, T.
  • The MJO–Kelvin wave transition
    Sobel, A. H.; Kim, D.
  • Large-scale cloud disturbances associated with equatorial waves. Part 1: Spectral features of the cloud disturbances
    Takayabu, Y. N.
  • Low-frequency equatorial waves in vertically sheared zonal flow. Part I: Stable waves
    Wang, B.; Xie, X.
  • Convectively coupled equatorial waves: Analysis of clouds and temperature in the wavenumber–frequency domain
    Wheeler, M.; Kiladis, G.
  • Large-scale dynamical fields associated with convectively coupled equatorial waves
    Wheeler, M.; Kiladis, G.; Webster, P.
  • Low-frequency equatorial waves in vertically sheared zonal flow. Part II: Unstable waves
    Xie, X.; Wang, B.
  • Madden–Julian oscillation
    Zhang, C.