THE MARINE LAYER AND COASTAL EDDIES THE MARINE LAYER AND COASTAL EDDIES.
Kushner: GCC Lecture Topics 3-D Dynamical Models … ßTropospheric eddies and the general...
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Transcript of Kushner: GCC Lecture Topics 3-D Dynamical Models … ßTropospheric eddies and the general...
Kushner: GCC Lecture Topics
• 3-D Dynamical Models …Tropospheric eddies and the general circulation.Simple troposphere and stratosphere-troposphere
atmospheric general circulation models.
• … Climate Models (Tropospheric GCMs) …Building them and using them.
• … and a Little PhilosophyPlease indulge me.
Three-Dimensional Dynamical Models, 1
Paul J. KushnerUniversity of Toronto
GCC Summer SchoolBanff 2005
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Outline
• Introduction: A little philosophy …
• Phenomenology: Large-scale waves and the atmospheric general circulation.
• Theory and simple models of transient eddies: baroclinic instabilities and lifecycles
• Introducing simple atmospheric general circulation models.
• Conclusion: Points to take hiking
Introduction: A Little Philosophy …
• Thanks to Isaac Held at NOAA/GFDL.
• We don’t want to get hung up on generalities, but it’s good to know what we’re doing and why we’re doing it.
• Conceptual models/pictures are useful but they are often ambiguous, only vaguely understood, and overplayed.
Some Common Conceptual Models
• Conveyor belt
• IPCC Radiative Forcing Graphic
• STE
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In Defense of Simple Systems
• In addition to conceptual pictures, we need to understand simple physically realizable analog systems.
• Held (2005):Biologists agree without apology that a relentless
focus on E. Coli, flies and mice will lead to progress in human biology.
• We should focus on studying such analogs in climate systems.
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Today
• I will stress the importance of midlatitude weather (baroclinic eddies) to understand the tropospheric and stratospheric general circulation.
• I will try (not always successfully) to build my arguments on physically realizable systems.
Radiative Imbalance and Transport
Top-of-Atmosphere Radiation
Hartmann 1994
At each latitude, there is an imbalance between absorbed and emitted radiation
This radiative imbalance can occur because the atmosphere and oceans can move energy around.
A Steady-State Model
Imagine heating up water in a box.
When heating and cooling are vertically distributed, various details determine the horizontal scales of motion.
But with a lateral heating distribution, the circulation cell tends to fill the cell.
In steady state, there is a balance between baroclinic generation of circulation and friction.
Heat Source
Heat Sink
(Wallace and Hobbes)
A Steady-State Model
But with a lateral heating distribution, the circulation cell tends to fill the cell.
In steady state, there is a balance between baroclinic generation of circulation and friction.
(Wallace and Hobbes)
An Adjustment Model
Annual-mean Potential Temperature
Adjustment of a baroclinic fluid
Gill 1992
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IRI/LDEO via J. Marshall
Now suppose we turned off the heating. The fluid spontaneously adjusts to a stable equilibrium.
The adjustment involves a “poleward” flux of heat and constituents.
The distribution of potential temperature in the troposphere is analogous to these models.
As of today, we still lack a theory for the slope of the isentropes in the troposphere.
Rotation and Jets are Important
IRI/LDEO via J. Marshall
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Annual-mean Potential Temperature
Annual-mean Zonal Wind
The fluid-cell examples, to be relevant, need to be complemented by rotation.
The reason is that for a rapidly rotating hydrostatic fluid, baroclinicity also gives rise to zonal jets.
These jets in turn give rise to waves that can transport heat poleward much more efficiently than zonal motions.
Breakdown of Energy Transports
Meridional Flux of Sensible Heat
Peixoto and Oort 1992
Sensible-heat (T) transport is representative of the total energy transport.
Zonally symmetric motions do most of the transport in the tropics.
Waves do most of the transport in midlatitudes.
Stationary waves are important in NH winter;
At other times, and in the SH, transient waves dominate.
Laboratory Baroclinic Waves
• The rotating annulus below is heated on the inside ring (orange = warm, blue = cold)
• The flow remains annular until the rotation is increased enough.
• Then baroclinic instability sets in (right).
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Observed Wave Spectra
Aircraft measurements of spatial spectra (upper trop)
Gage and Nastrom 1985
The energetic waves have scales between 103-104km.
The figure suggests a self-similar turbulent character.
But in many ways these waves have a linear or weakly nonlinear character.
We will focus on the transient waves but show stationary waves for comparison … animations
Midlatitude Baroclinic Waves
Meridional Velocity Correlations
Chang and Yu 1999, Chang 1993
These waves propagate in packets.
Their group speed (blue) is greater than their phase speed (red).
Their “crescent” shape implies a meridional convergence of zonal momentum.
Their westward phase tilt with height implies a poleward heat transport.
Explanation of Phase Tilts
• Consider fluxes of momentum and of heat (for simplicity, flux of buoyancy).
–
Midlatitude Stationary WavesDJF Z*500, NCEP Reanalysis
DJF Z*(60N), NCEP Reanalysis
Like the transient eddies, these waves are associated with momentum flux converges and poleward heat transports.
Unlike the transient eddies, these waves amplify into the stratosphere.
Transient and Stationary Eddies
Randel 1992
We see that both transient and stationary eddies play a large role in stratospheric variability and transports of heat and momentum.
On Eddy Fluxes of Heat and Momentum
• The stationary and transient eddies share some common features and their flux contributions rarely seem to cancel.
• We expect this reinforcement because of the robust tendency for atmospheric waves to flux potential vorticity downgradient.
• Dylan discussed this in the context of flux-gradient Kyy formulations for the BDC.
• We’ll return to these ideas later.
Transient and Stationary Wave Models
• We will now run through a set of models that capture the main features of transient eddies, representing work that extends from the 1940’s until today.
• These all represent transient “initial-value problem” models where initial conditions matter.For climate (equilibrated) models, initial
conditions should be forgotten.
Initial Value Problems
• The first set of problems we’ll look at are linear wave problems.
1. We start with the primitive equations.2. We scale them using the assumptions of
quasigeostrophic scaling to obtain QG equations.
3. We then assume some basic flow and linearize about it (as Charles did).
4. Fast growing (unstable) waves are taken to be the relevant ones.
Models of Baroclinic Eddies: Phillips
• We linearize the equations about this basic state using QG scaling.
• When we add waves to this basic state, we find:
Holton: A Growing Baroclinic Wave
This model has some of the basic elements we are looking for, in particular the westward phase tilt with height and the right kind of growth rates.
Notice the x-z plane circulation accompanying the growing wave: all these agree qualitatively with observed waves.
Models of Baroclinic Eddies: Eady
• The fastest growing wave: 4000 km (m=6)• Growth rate corresponds to about 2-3 days e-
folding time:
Gill: A Growing Eady Wave
This model has the appropriate phase tilt with height.
It suggests that a strong interaction between the surface and tropopause can help baroclinic waves grow.
Models of Baroclinic Eddies: Charney
• Growth rate as in Eady model:
Gill: A Growing Charney Wave
In this model, the vertical phase tilt and heat fluxes are more surface trapped. The vertical scale of the wave is a strong function of beta and u.
Linear Baroclinic Eddies: Simmons and Hoskins
Basic State Wind, Temperature, and Growing Wave
Simmons and Hoskins 1976
Modern computers made it possible to avoid QG scaling, include spherical effects and a realistic basic state.
The resulting waves looked more and more like Chang’s regression maps.
Notice how the unstable waves flux momentum into the jet core
Nonlinear Baroclinic Eddies
Simmons and Hoskins 1978
Polvani et al. 2004
Nonlinear simulations allowed the baroclinic waves to run through life cycles of growth, saturation and decay.
Notice how the waves sharpen the jet.
The Polvani et al. calculations showed the packet structure clearly.
Transient Eddies in Climate Models
Transient Eddies in Climate Models
• We now look for the simplest models that can maintain a general circulation similar to nature.
• We think of a dry atmosphere in which the temperature is relaxed back to a baroclinically unstable profile of temperature.
• The PBL and sponge (!) are damped with Rayleigh friction.
• This system is not fully realizable (Rayleigh drag).• Animations …
Points to Take Hiking
• Baroclinic eddies play a central part in the general circulation, so we should get to know them.
• Baroclinic eddies can be captured by a sequence of more and more sophisticated models.
• By putting them in a climate setting (the simple AGCM), we will now be able to see how baroclinic eddies:Set the stratification of the troposphere. Influence the connection of the stratosphere to the
troposphere.