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Monsoons

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Monsoons Tropical M. D. Eastin Tropical M. D. Eastin Outline What is a Monsoon? Societal Impacts of Monsoons Indian Summer Monsoon (the Big One) Other Monsoons ... – PowerPoint PPT presentation

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Title: Monsoons


1
Monsoons
2
Outline
What is a Monsoon? Societal Impacts of
Monsoons Indian Summer Monsoon (the Big
One) Other Monsoons
3
What is a Monsoon?
  • Definition and Background
  • A monsoon is a wind circulation that reverse
    course on seasonal time scales
  • Associated are sharp seasonal contrasts in
    precipitation
  • The primary cause of monsoons are strong thermal
    contrasts between the land and sea
  • Edmond Halley (of comet fame) was first
    of recognize this forcing
  • Three major monsoon systems
  • Asian-Australian (of which the Indian monsoon is
    the dominant component)
  • African (influences easterly wave development
    during the summer)
  • American (of which the Southwest U.S. monsoon is
    a part)
  • Common Characteristics
  • Heavy summer rains and very dry winters
  • Seasonal wind reversals
  • Large cross-equatorial moisture flux from the
    winter hemisphere

4
Monsoon Impacts
  • Large Societal Impact on Global Scale
  • Monsoonal regions cover roughly ½ of the Tropics
    (or ¼ of the global surface area) and
  • plays host to 65 of the worlds population

Population Density
American Monsoon
African Monsoon
Asian-Australian Monsoon
5
Monsoon Impacts
  • Large Societal Impact on Global Scale
  • Most agriculture and the economies of these
    regions are intimately tied to the monsoons
  • Interannual (and climatic) variability of
    monsoon onset and intensity can be catastrophic

6
Indian Monsoon
Wet Season
Dry Season
  • Annual Variability
  • The dry season (Dec-Feb) is
  • characterized by offshore flow
  • toward the southwest
  • Deep convection is located in
  • southern Indian Ocean
  • Precipitation over the continent
  • is very minimal
  • The wet season (Jun-Aug) is
  • characterized by strong onshore
  • flow from the southwest
  • Precipitation is often intense and
  • frequent
  • Three distinct rainfall maxima
  • West coast of India
  • Bay of Bengal

DJF
JJA
Surface winds
Surface winds
DJF
JJA
DJF
Rainfall
Rainfall
7
Indian Monsoon
  • Impact of Topography
  • Very important during the wet season (less so
    during the dry season)
  • The Tibetan Plateau acts as an elevated heat
    source (helps initiate and drive the monsoon)
  • The East African Highlands act as barrier to
    low-level easterly winds (increases the inflow)

8
Indian Monsoon
  • Impact of Tibetan Plateau
  • Solar heating of the Himalayas is quickly
  • converted to mid-level atmospheric
  • heating via sensible heat fluxes
  • Mid-level heating increases the thickness
  • between pressure surfaces
  • Sets-up a strong pressure gradient at
  • upper-levels and strong offshore flow
  • Lowers surface pressure over land and
  • induces onshore low-level flow that gains
  • moisture from the ocean via surface fluxes
  • Moisture convergence and forced ascent
  • over land produces deep convection and
  • latent heat release
  • Both heat sources continue to drive the

Mean Temperature (200-500mb)
N-S cross-section through Monsoon
Heating
9
Indian Monsoon
  • Impact of East African Highlands
  • Low-level easterlies are blocked by the terrain
    and diverted northward (Somalia Jet)
  • Increases the low-level inflow beyond that
    driven by the heating over land
  • Arguably, without the Tibetan and East-African
    Highlands, southeast Asia would be a
  • desert like North Africa

Low Level Flow (z 1 km)
E-W cross section (A-B)
10
Indian Monsoon
  • Interannual Variability (ENSO)
  • El Nino
  • Warmer SSTs combined with a reverse
  • Walker circulation increases near-
  • equatorial convection over the west
  • Indian Ocean and Africa (i.e. more air
  • ascends than is diverted northward)
  • Less low-level onshore monsoonal flow
  • occurs results in less convection and
  • latent heat release ? weaker monsoon
  • Poleward outflow from the enhanced
  • equatorial convection also induces
  • subsidence over the continent, further
  • suppressing convection

Walker Circulation
11
Indian Monsoon
  • Interannual Variability (ENSO)
  • La Nina or Normal years
  • Warm SSTs and enhanced convection
  • over the equatorial west Pacific drives
  • a strong normal Walker Circulation
  • and enhanced subsidence over the
  • west Indian Ocean
  • Increased subsidence enhances the
  • normal monsoon circulations and
  • increases total monsoon precipitation
  • Flooding often occurs across India
  • during strong La Nina events

Walker Circulation
12
African Monsoon
Precipitation Rate / Low-level Winds
  • Annual Variability
  • Characterized by a N-S shift in precipitation
  • and an onshore-offshore flow reversal
  • In DJF offshore northeasterly flow dominates
  • sub-Saharan west Africa, confining the
  • precipitation to a narrow coastal band
  • Onshore south-westerly flow dominates
  • southern Africa with deep convection
  • located west of the East African Highlands
  • (which acts like an elevated heat source)
  • In JJA onshore southwesterly flow dominates
  • sub-Saharan west Africa with deep convection
  • extending northward to 15ºN
  • The very warm Sahara acts like an elevated
  • (but shallow) heat source, driving the
  • west Africa monsoon circulation

DJF
Mountains
Warm
Warm
Cool
JJA
Hot
Mountains
Cool
13
(North) American Monsoon
  • Annual Variability
  • Characterized by a reversal of the low-level
    flow along the Mexican west coast from
  • offshore (during the winter dry season, DJF)
    to onshore (the summer wet season, JJA)
  • Monsoon circulation during the wet season is
    driven by the thermal contrast between
  • relatively cold ocean and the relatively warm
    Mexican mountains (an elevated heat source)

JJA Precipitation Rate (mm/day)
14
(North) American Monsoon
  • Intra-seasonal Variability
  • The northward migration of the incoming
  • solar radiation maximum combined with
  • the roughly N-S orientation of the
  • mountain range results in a northward
  • migration of the elevated heat source
  • As a result, the region of deep convection
  • tends to migrate northward in response

Date of Precipitation Maximum
15
Monsoons
  • Summary
  • Definition (3 primary monsoons, common
    characteristics)
  • Global Societal impacts
  • Indian Monsoon
  • Seasonal Variability
  • Effects of Topography
  • Variability due to ENSO
  • African Monsoon (seasonal variability)
  • North American Monsoon (seasonal variability)

16
References
Adams, D. K., and A. C. Comrie, 1997 The North
American Monsoon. Bull Amer. Meteor. Soc., 78,
2197-2213. Cadet, D., and G. Reverdin, 1981
The monsoon over the Indian Ocean during summer
1975. Part I Mean fields. Mon. Wea. Rev., 109,
148-158. Cadet, D., and G. Reverdin, 1983 The
monsoon over the Indian Ocean during summer 1975.
Part II Break and active monsoons. Mon. Wea.
Rev., 111, 95-108. Climate Diagnostic Centers
(CDCs) Interactive Plotting and Analysis
Webage ( http//www.cdc.noaa.gov/cgi-bin/PublicDa
ta/getpage.pl ) Fennesey, M. J., and Coauthors,
1994 The simulated Indian monsoon A GCM
sensitivity study, J. Climate, 7, 33-43.   Fu,
C., and J. O. Fletcher, 1985 The relationship
between Tibet-tropical ocean thermal contrast and
interannual variability of Indian monsoon
rainfall , J. Appl. Meteor., 24, 841-847.  
Krishnamurthy, V., and B. N. Goswami, 2000
Indian MonsoonENSO relationship on interdecadal
timescale, J. Climate, 13, 579-595. Mooley, D.
A., and B. Parthasarathy, 1983 Variability of
the Indian summer monsoon and tropical
circulation features, Mon. Wea. Rev., 111,
967-987.
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