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Mountain Impacts on Climate Local to Planetary Scale

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Title: Mountain Impacts on Climate Local to Planetary Scale


1
Mountain Impacts on ClimateLocal to Planetary
Scale
  • Maura Hahnenberger
  • Meteo 6030

2
Outline
  • Scales of Impact
  • Planetary Scale
  • Synoptic Scale
  • Mesoscale
  • Considerations
  • Summary

3
Scales of Impact
  • Planetary scale wave motion
  • Modification of Synoptic scale weather systems
  • Mesoscale wave motion through local gravitional
    effects
  • Local thermally and mechanically driven flows
  • Blocking and channeling of flows

4
Planetary Scale Effects
1000mb Height
850mb Height
  • Planetary waves
  • Mountains create semi-permanent stationary waves
  • Conservation of potential vorticity
  • Causes ridge over mountain barrier and trough
    downstream

Observed
M - model
NM -model
(Manabe, 1974)
5
Planetary Scale Effects
  • Distribution of Arid Climates
  • Mountains help spread aridity into the
    midlatitudes (gt35º)
  • Aridity co-located with mountain induced ridging

M - model
NM -model
Observed
(Broccoli, 1992)
6
Planetary Scale Effects
  • Monsoon circulations
  • Intensification of
  • Pacific High
  • Easterly Trades
  • Asian Monsoon
  • Mountains act as elevated heat source to global
    system

Observed
No Mountains
Current Mountains
(Kitoh, 2004)
7
Planetary Scale Effects
  • Monsoon circulations
  • Results in increased moisture flux into Southeast
    Asia
  • Similar processes take place in Southwestern U.S.

(Kitoh, 2004)
8
Synoptic Scale Effects
  • Deformation of fronts
  • Retardation by mountains
  • Acceleration in valleys
  • Sometimes become decoupled and reform in the lee

(Steenburgh, 2001)
9
Synoptic Scale Effects
  • Lee Cyclogenesis
  • Also based on conservation of potential vorticity
  • Aided by less stable environment in lee
  • Often primary and secondary lows form

(Schultz, 2000)
10
Mesoscale Effects
  • Orographic Precipitation
  • Also acts as source of elevated latent heating

(Steenburgh, 2003)
11
Mesoscale Effects
  • Thermally Driven Winds
  • Downslope downvalley during nighttime
  • Upslope upvalley during day
  • Can help create cold pools leading to vegetation
    inversions

(Stewart, 2002)
12
Mesoscale Effects
  • Mechanically produced winds
  • Downslope windstorms
  • Lee waves
  • Channeled flow
  • Barrier jets
  • Gap winds
  • Can lead to significant local climate variations

(Beran, 1967)
13
Mesoscale Effects
  • Foehn Rotor Clouds
  • Downsloping

14
Other Considerations
  • Scale of mountains determine scale of impact
  • Southern Hemisphere exhibits far fewer effects
    Much less topography
  • Impacts vary with time of year
  • Effects are coupled with other large scale
    phenomena, e.g. ENSO
  • Not clear if and how these impact may change in a
    changing climate (good area for future research!)

15
Summary
  • Mountains impact climate by
  • Determining position of troughs ridges
  • Acts as an elevated heat source
  • Produce orographic convective precipitation
  • Impacts synoptic mesoscale circulations
  • Blocks channels flows

16
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