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BC/HMI Lecture 9 March, 2006
Weather Forecasting:From Art to Science
Peter LynchMeteorology & Climate CentreSchool of Mathematical Sciences
University College Dublin
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Outline of this Lecture
• The Emergence of the Science of Meteorology
• The Development of Numerical Weather Prediction
• Modern Computer Weather Forecasting
• An Example: The Great Flood of 1953
The central theme of the lecture will be the remarkableprogress which has been made over the past fifty years inour ability to predict the behaviour of the atmosphere overa wide range of time-scales.
This is thanks to the power of mathematics.
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Money makes the world go round
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Galileo Galilei (1564–1642)
Galileo formulated the basiclaw of falling bodies, which heverified by careful measure-ments.
He constructed a telescope,with which he studied lu-nar craters, and discoveredfour moons revolving aroundJupiter.
Galileo is credited with the in-vention of the Thermometer.
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Galileo’s Thermometer
The Galileo Thermometer is apopular modern collectable andan attractive decoration.
As temperature rises, thefluid expands and its densitydecreases.
The reduced buoyancy causesthe glass baubles to sink, indi-cating temperature changes.
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Galileo’s Ace Post-Doc.
Evangelista Torricelli (1608–1647), a student of Galileo,devised the first accuratebarometer.
Torricelli inventing the barometer
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Barometric Pressure
The relationship between the height of the mercury columnand the character of the weather was soon noticed.
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Isaac Newton (1642-1727)
Newton established the fundamen-tal principles of Dynamics.
He formulated the basic law ofGravitation.
He produced monumental results inCelestial Mechanics.
He laid the foundation for differen-tial and integral Calculus.
He made fundamental contributionsto Optics.
Arguably the greatest scientist the world has ever known.
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Newton: the Inventor of Science
John Banville, in his work The Newton Letters, goes so far asto write that ‘Newton invented science’.
This is a provocative and thought-provoking claim.
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Newton’s Law of Motion
The rate of change of momentum of a body is equal to thesum of the forces acting on the body.
If F is the total applied force, Newton’s Second Law gives
dp
dt= F .
The acceleration a is the rate of change of velocity, that is,a = dV/dt. If the mass m is constant, we have
F = ma .
Force = Mass×Acceleration .
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Euler’s Equations for Fluid Flow
Leonhard Euler
• Born in Basel in 1707.
• Died 1783 in St Petersburg.
• Formulated the equationsfor incompressible, inviscidfluid flow:
∂V
∂t+ V · ∇V +
1
ρ∇p = g .
∇ ·V = 0
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The Navier-Stokes Equations
∂V
∂t+ V · ∇V +
1
ρ∇p = ν∇2V + g? .
The Navier-Stokes Equations describe how the change of
velocity, the acceleration of the fluid, is determined by thepressure gradient force, the gravitational force and the fric-tional force.
For motion relative to the rotating earth, we must includethe Coriolis force:
∂V
∂t+ V · ∇V + 2Ω×V +
1
ρ∇p = ν∇2V + g .
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The Inventors of Thermodynamics
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The Equations of the AtmosphereGAS LAW (Boyle’s Law and Charles’ Law.)Relates the pressure, temperature and densityCONTINUITY EQUATIONConservation of mass; air neither created nor distroyedWATER CONTINUITY EQUATIONConservation of water (liquid, solid and gas)EQUATIONS OF MOTION: Navier-Stokes EquationsDescribe how the change of velocity is determined by thepressure gradient, Coriolis force and frictionTHERMODYNAMIC EQUATIONDetermines changes of temperature due to heating or cool-ing, compression or rarifaction, etc.
Seven equations; seven variables (u, v, w, ρ, p, T, q).
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The Primitive Equations
du
dt−
(f +
u tan φ
a
)v +
1
ρ
∂p
∂x+ Fx = 0
dv
dt+
(f +
u tan φ
a
)u +
1
ρ
∂p
∂y+ Fy = 0
p = RρT∂p
∂y+ gρ = 0
dT
dt+ (γ − 1)T∇ ·V =
Q
cp∂ρ
∂t+∇ · ρV = 0
∂ρw
∂t+∇ · ρwV = [Sources− Sinks]
Seven equations; seven variables (u, v, w, p, T, ρ, ρw).
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Scientific Weather Forecasting in a Nut-Shell
• The atmosphere is a physical system
• Its behaviour is governed by the laws of physics
• These laws are expressed quantitatively in the form ofmathematical equations
• Using observations, we can specify the atmospheric stateat a given initial time: “Today’s Weather”
• Using the equations, we can calculate how this state willchange over time: “Tomorrow’s Weather”
• The equations are very complicated (non-linear) and apowerful computer is required to do the calculations
• The accuracy decreases as the range increases; there isan inherent limit of predictibility.
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Irish Scientists who have made
Contributions to Meteorology
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Robert Boyle (1627-1691)
Robert Boyle was born in Lis-more, Co. Waterford.
He was a founding fellow ofthe Royal Society.
Boyles Law:Boyle formulated the re-
lationship between pressure
and volume of a fixed mass of
gas at fixed temperature.
p ∝ 1/V
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Richard Kirwan (1733–1812)
Richard Kirwan was born inCo. Galway.
He was a noted Chemist, Min-eralogist, Meteorologist andGeologist
He was an early President ofthe Royal Irish Academy
He anticipated the concept ofair-masses
He believed that the AuroraBorealis resulted from com-bustion of equatorial air.
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Francis Beaufort (1774–1857)Born near Navan in Co. Meath.
Served in the Royal Navy in theNapoleonic wars.
Helped to establish a telegraphline from Dublin to Galway.
Appointed Hydrographer to theRoyal Navy in 1829, a post heheld until the age of 81.
Promoted Rear Admiral in 1846.
Knight Commander of the Bathtwo years later.
Best remembered for theBeaufort scale,for estimating winds at sea.
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John Tyndall (1820–1893)
Born in 1820 at Leighlinbridge, Carlow.
Studied with Robert Bunsen inMarburg, 1848.
Associated with the Royal Institutionfrom 1853. Assistant to Michael Faraday.
Published more than 16 books and145 papers.
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Tyndall and the Greenhouse Effect
• Tyndall wrote that, without watervapour, the Earth’s surface would beheld fast in the iron grip of frost.
• He showed that water vapour, carbondioxide and ozone are strong absorbersof heat radiation.
• This is what we now call theGreenhouse Effect.
• Tyndall speculated how changes in wa-ter vapour and carbon dioxide could berelated to climate change.
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George G Stokes, 1819–1903
• Founder of modernhydrodynamics
• Stokes’ Theorem
• Stokes Drag andStokes’ Law
• Fluorescence
• Stokes Drift
• Stokes Waves
• Campbell-StokesSunshine Recorder
• Navier-StokesEquations
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William Thompson (1824–1907)
Sir William Thompson, 1st Baron Kelvin of Largs,born in Belfast. His family moved to Glasgow in 1832.
Kelvin was one of the most brilliant scientistsof the 19th century.
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• Professor of Natural Philosophyin Glasgow at age 22
• Pioneering research into electro-dynamic and thermoelectricproperties of matter.
• Developed the founda-tions of thermodynamics.
• Introduced the absolute scale oftemperature; zero at -273.
• Knighted 1866, after completionof the Atlantic Telegraph cable.
• Invented a tide machine, whichpredicted the water levels for ayear in advance.
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Robert Henry Scott (1833–1916)
Robert Scott, born in Dublin,1833.
Founder ofValentia Observatory
First Director of the BritishMeteorological Office.
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Osborne Reynolds, 1842–1912• Born in Belfast, 1842
• Graduated from Queens Col-lege, Cambridge in 1867
• First Professor of Engineer-ing at Owens College, Manch-ester, in 1868
• Work in heat transfer led tomajor developments in boilerand condenser design
• The Reynolds Number,a criterion for turbulence.
Re ≡ V L
ν
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Met Eireann-UCD LinkWith the exception of Kirwan, all these scientists, thoughborn in Ireland, made their names abroad.
All that has now changed!!!
In October 2003, Met Eireann and UCD signed an agree-ment to establish a Meteorology & Climatology Centre.
• The Centre is based in the School of MathematicalSciences in UCD Belfield
• A post-graduate course commenced in September, 2004
• Undergraduate meteorology modules are being designed.
Our Stokeses and Kelvins no longer have to leave Irelandto make their marks on meteorology.
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www.ucd.ie/meteorology30
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Vilhelm Bjerknes (1862–1951)
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Bjerknes’ 1904 ManifestoObjective:To establish a science of meteorology
Purpose:To predict future states of the atmosphere.
Necessary and sufficient conditions forthe solution of the forecasting problem:
1. A sufficiently accurate knowledge of the stateof the atmosphere at the initial time
2. A sufficiently accurate knowledge of the lawsaccording to which one state of the atmospheredevelops from another.”
Step (1) is Diagnostic. Step (2) is Prognostic.
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Lewis Fry Richardson, 1881–1953.
During WWI, Richardsoncomputed by hand thepressure change ata single point.
It took him two years !
His ‘forecast’ was acatastrophic failure:
∆p = 145 hPa in 6 hours
But his method wasunimpeachable.
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The Leipzig Charts for 0700 UTC, May 20, 1910
Bjerknes’ sea level pressure analysis.
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Richardson Grid (also called an Arakawa E-grid)
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Evolution of surface pressure before and after NNMI.(Williamson and Temperton, 1981)
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Richardson’s Forecast Factory
c©Francois Schuiten
64,000 Computers: The first Massively Parallel Processor
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Advances since Bjerknes and Richardson
Dynamic MeteorologyQuasi-geostrophic Theory. Baroclinic Instability
Numerical AnalysisCFL Stability Criterion. Semi-Lagrangian Techniques
Atmopsheric ObservationsRadiosondes. Satellite Instrumentation
Electronic ComputingENIAC . . . Moore’s Law . . . IBM Blue Gene
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The ENIAC
The ENIAC (Electronic Nu-merical Integrator and Com-puter) was the first multi-purpose programmable elec-tronic digital computer.It had:
• 18,000 vacuum tubes
• 70,000 resistors
• 10,000 capacitors
• 6,000 switches
Power Consumption: 140 kWatts
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1950: The First Computer Forecast
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The global observing system today.
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Meteorological satellite network today.43
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Processing speed of Met Office computers 1959–2005(data from http://www.metoffice.gov.uk)
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The Great Flood of 1953
• Occurred on 31 Jan/1 Feb, 1953.
• Greatest storm surge on recordfor the North Sea
• 100,000 hectares flooded andmore than 300 people lost theirlives In eastern England.
• 5 dykes burst and 1,800 peopledrowned in Holland.
• The Princess Victoria sank inthe North Channel.
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PMSL V10mAnalysis, 00 UTC, 1 February, 1953
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Analysis 24-h Forecast
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Analysis 36-h Forecast
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Analysis 48-h Forecast
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Analysis 72-h Forecast
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Analysis 24-h Forecast
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Anomaly Correlations: Operational
Anomaly Correlation of 3, 5 and 7 day 500 hPa forecastsfor extra-tropical northern and southern hemispheres.
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Progress in numerical weather prediction overthe past fifty years has been quite dramatic.
Forecast skill continues to increase . . .by one day per decade.
However, there is a limit . . .
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Chaos in Atmospheric Flow
Edward Lorenz (b. 1917)
In a paper published in
1963, entitled Deterministic
Nonperiodic Flow, Edward
Lorenz showed that the sim-
ple system
x = −σx + σyy = −xz + rxz = +xy − bz
has solutions which are highlysensitive to the initial condi-tions.
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Identical Twin Experiment
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The characteristic butterfly pattern in Lorenz’s Equations.
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Lorenz’s work demonstrated the practical impossibility ofmaking accurate, detailed long-range weather forecasts.
In his 1963 paper he wrote:
“. . . one flap of a sea-gull’s wings may foreverchange the future course of the weather.”
Within a few years, he had changed species:
“Predictability:does the flap of a butterfly’s wings inBrazil set off a tornado in Texas?”
[Title of a lecture at an AAAS conference in Washington.]
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Lorenz demonstrated, with skill,The chaos of heat-wave and chill:
Tornadoes in TexasAre formed by the flexes
Of butterflies’ wings in Brazil.
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Overcoming Chaos
Ensemble prediction is our means of overcom-ing the obstacle of chaos in the atmosphere.
Analysis (top left), and 15 132-hourforecasts of sea-level pressure start-ing from slightly different condi-tions.
Deterministic forecastsare replaced by
probability forecasts.
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Richardson’s Dream
“Perhaps some day in the dim future it willbe possible to advance the computations fasterthan the weather advances . . . . But that is adream.”
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Forecast Factory versus MPP
Richardson’s Forecast Fac-tory had 64,000 ‘computers’.
The fastest computer(TOP500, June 2005) isthe IBM BlueGene/L with65,536 processors!
64 K
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Forecast Factory versus MPP
Richardson’s Forecast Fac-tory had 64,000 ‘computers’.
The fastest computer(TOP500, June 2005) isthe IBM BlueGene/L with65,536 processors!
64 K
The IBM machine is ratedat 136.8 TFlops nine ordersof magnitude faster thanRichardson’s Factory.
The logical structures aresimilar: message-passing,domain decomposition, tasksynchronization and control.
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Concluding Remarks
Weather Prediction is now based onsolid scientific foundations
Forecast skill is increasing by one dayper decade
Predictability horizon is overcomeby means of probability forecasts
Climate models give useful guidanceon a decadal time range
There remains much to do, especiallyon smaller space and time scales.
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The End
Typesetting Software: TEX, Textures, LATEX, hyperref, texpower, Adobe Acrobat 4.05Graphics Software: Adobe Illustrator 9.0.2LATEX Slide Macro Packages: Wendy McKay, Ross Moore
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www.ucd.ie/meteorology
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The slow manifold
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NMC/NCEP Scores: The longest verification series in existence.