A Statistical-Dynamical Seasonal Forecast of US Landfalling TC Activity

A Statistical-Dynamical Seasonal A Statistical-Dynamical Seasonal Forecast of US Landfalling TC ActivityForecast of US Landfalling TC Activity

Johnny Chan and Samson K S ChiuJohnny Chan and Samson K S ChiuGuy Carpenter Asia-Pacific Climate Impact CentreGuy Carpenter Asia-Pacific Climate Impact Centre

City University of Hong KongCity University of Hong Kong

Research sponsored by Risk Prediction Initiative, Research sponsored by Risk Prediction Initiative, Bermuda Institute of Ocean SciencesBermuda Institute of Ocean Sciences

OutlineOutline

• Background Background

• Climatology of US landfallClimatology of US landfall

• Data and methodologyData and methodology

• Results and interpretationResults and interpretation

• SummarySummary

Statistical vs. Statistical-dynamical MethodsStatistical vs. Statistical-dynamical Methods• Problem with the statistical method

• Relate the past events and future conditions by statistics• Inherent problem

• assumes the future would behave the same as the past, which may not be correct

• Statistical-dynamical method partly solves the inherent problem by• relating dynamical model predictions with future conditions

# TCsObservations statistical prediction

several months

Dynamical atmospheric

Predicted future conditionsIntegrate over time

statistical prediction

ObjectivesObjectives

• To prove the feasibility of the statistical-dynamical prediction scheme– To develop a statistical-dynamical

seasonal prediction scheme for U.S. landfalling tropical cyclones

– To develop a multi-model statistical-dynamical seasonal prediction scheme

– To evaluate the performance of the predictions

Tropical cyclones data – HURDATTropical cyclones data – HURDAT• National Hurricane Center Hurricane Best Tracks Files

– 6-hourly position and intensity of TCs• 3 regions of the U.S. Atlantic coast

– East Coast (Maine to Georgia)

– Gulf Coast (Alabama to Texas)

– Florida

6Peak Peak seasonseason

No. of US Atlantic landfalling TCsNo. of US Atlantic landfalling TCs(Tropical Storm or above, 1980-2001)(Tropical Storm or above, 1980-2001)

Focus on Aug and Sept(>60% of all landfall)

Tracks of EC landfalling TCs 1980 – 2001, Aug – SeptTracks of EC landfalling TCs 1980 – 2001, Aug – Sept

Subtropical High

Tracks of FL/GC Tracks of FL/GC landfalling TCs landfalling TCs

1980 – 2001,1980 – 2001,Aug – SeptAug – Sept

Dynamical model data -DEMETERDynamical model data -DEMETER

• Development of a European multimodel ensemble system for seasonal to interannual prediction (from European Union)– 7 models (CERFACS, ECMWF, INGV, LODYC,

Météo-France, MPI and UKMO)

– 9 ensemble members each

– 6 months forecasts available

– Base time @ 1 Feb, May, Aug, Nov

– 1980-2001 (22 years hindcast)

– 2.5 x 2.5 degree resolution

Dynamical model data -DEMETERDynamical model data -DEMETER

Parameter Physics

Geopotential (200-, 500-, 850-hPa)

subtropical high

Wind fields (200-, 500-, 850-hPa)

steering flow

SST TC genesis

Sea-level pressure (SLP)

subtropical high, low for TC genesis

MethodologyMethodology

• Compute the 9-member ensemble mean of each model-predicted atmospheric fields (Aug-Sept)

– Geopotential, zonal and meridional winds (3 levels)– SST, SLP

• Extract the first 4 EOF modes of each predictor fields

– 11 fields x 4 modes = 44 potential predictors from each DEMETER model

• Test the statistical significance of the relationship between the coefficient of each mode and the number of landfalling TCs

MethodologyMethodology

• Fit a forecast equation for each regional # landfalling TCs

– Poisson regression– Cross-validation (Jackknife method)

• 7 forecast equations, each from an individual model

• Multimodel equation derived from the 7 equations

– Simple average– Agreement coefficient weighted-average

RegressionRegression

• Linear regression is used in most previous studies– Normality assumption of predictors and predictand– Fails in # landfalling TCs (Discrete non-negative

integers)

• Poisson regression– Discrete probability distribution– Zero probability for negative numbers

• Stepwise regression

Factors affecting EC landfalling TCsModel CERFACS

Level Parameter EOF mode

200 hPa zonal wind 1

zonal wind 3

geopotential 1

geopotential 4

850 hPa meridional wind 1

surface SST 1

MSLP 1

200-hPa geopotential EOF 1(-vely correlated with EC landfall)

500-hPa geopotential EOF 4500-hPa geopotential EOF 4(-vely correlated with EC landfall)(-vely correlated with EC landfall)

Observed vs. Observed vs. PredictedPredicted

East CoastEast Coast

Single model: CERFACS

Multimodel

meridional wind 2

geopotential 2

meridional wind 2

geopotential 4

meridional wind 1

meridional wind 3

geopotential 2

geopotential 4

surface SST 1

MSLP 2

Factors affecting GC landfalling TCs

500-hPa meridional wind EOF 2500-hPa meridional wind EOF 2(-vely correlated with Gulf of Mexico landfall)(-vely correlated with Gulf of Mexico landfall)

850-hPa geopotential EOF 2850-hPa geopotential EOF 2(-vely correlated with Gulf of Mexico landfall)(-vely correlated with Gulf of Mexico landfall)

Single model: LODYC

Multimodel

Observed vs. Observed vs. PredictedPredictedGulf CoastGulf Coast

meridional wind 2

meridional wind 4

geopotential 2

meridional wind 3

zonal wind 2

geopotential 2

geopotential 3

surface SST 1

MSLP 2

Factors affecting FL landfalling TCs

850-hPa meridional wind EOF 4850-hPa meridional wind EOF 4(+vely correlated with FL landfall)(+vely correlated with FL landfall)

200-hPa geopotential EOF 2200-hPa geopotential EOF 2(-vely correlated with FL landfall)(-vely correlated with FL landfall)

Single model: LODYC

Observed vs. Observed vs. PredictedPredicted

FloridaFloridaMultimodel

SummarySummary

• A statistical-dynamical prediction A statistical-dynamical prediction scheme for U.S. landfalling TCs has scheme for U.S. landfalling TCs has been developed. been developed.

• StatisticsStatistics– Significant skills over climatology:Significant skills over climatology:

EC ~30%, GC ~40% and FL ~17%EC ~30%, GC ~40% and FL ~17%– Fair high agreement coefficientFair high agreement coefficient

EC ~0.45, GC ~0.44 and FL ~0.34EC ~0.45, GC ~0.44 and FL ~0.34

• Most of the predictors are physically Most of the predictors are physically reasonable and are mostly related to reasonable and are mostly related to the steering flowthe steering flow

Poission regressionProb(# landfalling TC = y)

Expected # landfalling TCs

Regression equation:

Newton-Raphson iterative method (Wilks 2006)

Residual deviance Smaller the D, better the reg. eqt.

Skill over climatology

Agreement coefficient

A Statistical-Dynamical Seasonal Forecast of US Landfalling TC Activity

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