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A Tale of Two Gradients : Atmospheric Dynamics in an Inhomogeneous Background

Electronic Theses of Indian Institute of Science

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Title A Tale of Two Gradients : Atmospheric Dynamics in an Inhomogeneous Background
 
Creator Monteiro, Joy Merwin
 
Subject Moisture Gradients
Madden-Julian Oscillation (MJO)
Atmospheric Dynamics
Rossby Waves
Potential Vorticity Gradient
PV Gradient
Matsuno-Gill Response
El Nino Southern Oscillation (ENSO)
Atmospheric and Oceanic Sciences
 
Description The effects of a non-zero background state on atmospheric dynamics is explored through simple models and observations. Firstly, we examine the effects of moisture gradients on the stability and propagation of Rossby waves in a mid-latitude -plane. We begin by a consistent derivation of the forced quasi-geostrophic equations on a -plane to understand the constraints placed by geostrophy on the time scale of condensation. We see that the presence of meridional gradients of moisture results in a slowdown of the waves. On the introduction of zonal gradients of moisture, the waves become unstable, and for certain parameters which are representative of the real atmosphere, they propagate eastward and mature on an intra-seasonal timescale. The mechanism of the in hence of moisture on waves is understood by thinking of condensation as providing an \equivalent" potential vorticity (PV) gradient which opposes the dynamical PV gradient.
Secondly, we look at the effects of a mean background ow on the Matsuno-Gill response in the spherical shallow water system. The mean ow is prescribed to resemble the climatological upper tropospheric zonal wind structure in the atmosphere. As the strength of the ow increases, the equatorially trapped Matsuno-Gill response rst transforms into a poleward propagating Rossby wavetrain. As the strength of the mean ow reaches values similar to that observed in the atmosphere, the stationary wave response becomes a zonally oriented quadrupole structure. This structure bears a striking resemblance to the observed upper level structure of the Madden-Julian oscillation (MJO). The time evolution of this quadrupole structure is quick enough to be relevant on MJO timescales, and the structure is quite robust across a range of values for the drag coefficient.
Finally, we look at the role played by low frequency variability in the Pacific in the recent expansion of the Hadley cell. We find that the dominant effect of the low frequency variability is a stationary dispersive Rossby wavetrain extending from the tropical Paci. We further find that most of the observed expansion of the Hadley cell can be accounted for by this low frequency variability. We nd that large scale changes such as the changes in the equator-pole temperature gradient or midlatitude static stability need not be invoked to understand the observed expansion.
 
Contributor Jai, Sukhatme
 
Date 2017-11-29T17:30:54Z
2017-11-29T17:30:54Z
2017-11-29
2016
 
Type Thesis
 
Identifier http://etd.iisc.ernet.in/handle/2005/2836
http://etd.ncsi.iisc.ernet.in/abstracts/3687/G27248-Abs.pdf
 
Language en_US
 
Relation G27248