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Integration Tide Gauge and Satellite Altimetry for Storm Surge and Sea Level change prediction. Ole B. Andersen and Y. Cheng (DTU, Denmark) Xiaoli Deng, M. Steward, N Idris, and Zahra Gharineiat (Uni NewCastle, Australia). Overview. Why use satellite altimetry
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Integration Tide Gauge and Satellite Altimetry for Storm Surge and Sea Level change prediction. Ole B. Andersen and Y. Cheng (DTU, Denmark) Xiaoli Deng, M. Steward, N Idris, and Zahra Gharineiat (Uni NewCastle, Australia)
Overview Why use satellite altimetry Crital issues: Spatio-temporal sampling vs surge/cyclone Availability and accuracy Accuracy degradation (Coastal and rain). Reliability of surge capturing Importance of residual range corr errors: Ocean tide correction Merging with tide gauges (spatial temporal correlation) Hindcast / forecast modelling Test region: North European Shelf Great Barrier Reef (Cyclone Helen and Larry) Conclusions. Queenland surge
Satellite altimetry is well Esablished for linear sea level change
Sea Level and Storm Surges Critial issues: Spatio-temporal sampling vs surge/cyclone Availability and accuracy Accuracy degradation (Coastal and rain). Reliability of surge capturing Importance of residual range corr errors: Ocean tide correction Merging with tide gauges (spatial temporal correlation) Hindcast / forecast modelling
Typical Surges / Cyclones North sea has mainly external surges generated by wind forcing. GBR has numerous cyclones (near seasonal) = Water level recorders
Correlations, Water level recorders Autocorrelation Crosscorrelation Timescales, ~10-60 h Counterclockwise propagation of sea level anomalies Curtesy of J. Hoyer
ObservationsSampling: 3-4 ongoing missions JASON-2 Cryosat-2 (SAR) AltiKa (French-India)** HY-2 (China) Sentinel-3 (SAR) Near Real time data J2+C2: 4-6 hours Accurcy: 4-6 cm
Sea Level and Storm Surges Critial issues: √ Spatio-temporal sampling vs surge/cyclone √ Availability and accuracy Accuracy degradation (Coastal and rain). Reliability of surge capturing Importance of residual range corr errors: Ocean tide correction Merging with tide gauges (spatial temporal correlation) Hindcast / forecast modelling
Sea Level and Storm Surges Critial issues: √ Spatio-temporal sampling vs surge/cyclone √ Availability and accuracy √ Accuracy degradation (Coastal and rain). Reliability of surge capturing Importance of residual range corr errors: Ocean tide correction Merging with tide gauges (spatial temporal correlation) Hindcast / forecast modelling
Last devastating storm surge in Britain – 1953 ”Data for validation?”
High Water in Hvide Sande Simple 2 and 3 std. deviation test on ”high water”
Satellite Obs One versus two satellite (TOPEX/ENVISAT) Degradation not an issue
Great Barrier Reef – Summer Cyclones • Helen (January, 04, 2008) Larry (March 19th, 2006)
Sea Level and Storm Surges Critial issues: √ Spatio-temporal sampling vs surge/cyclone √ Availability and accuracy Accuracy degradation (Coastal and rain). Reliability of surge capturing Importance of residual range corr errors: Ocean tide correction Merging with tide gauges (spatial temporal correlation) Hindcast / forecast modelling
Tide Correction Models Remove residual tidal signal using the ”pointwise tide model. This enhances The spatial correlation between tide gauge and
Spatio-temporal Correlation • TOPEX / JASON (17 years) ERS / ENVISAT (12 years)
Temporal Correlation at Newlyn After Detiding – temporal correlation = 0.93 (0.89 FES 2004 / GOT4.7)
Sea Level prediction • CAN WE PREDICT/WARN ABOUT INCREASED SEA LEVEL • ”STORM SURGES” FROM SATELLITE ALTIMETRY????? Main issues: • Sampling (fixed tracks, sampling 9 / 17 or 35 days • Availability of ACCURATE real time data (1-6 hours) • Capture the Surge by the altimeter • Merging Tide gauge and Altimetry (observe the same signal) Establish warning – ”hindcast” high water.
Combing Tide gauges and Altimetry Small time scale, Large spatial scales, high correlation T/P + Gauges Regression Model Least squares fit in every T/P observation
Integrating using Neural Network Test on using 4 gauges along coast of Norway. Training using one T/P time series Predicting other satellite points. Higher temporal correlation using Neural Network than regression method.
Conclusions • Satellite altimetry delivers: • Sea surface height • Wave height • Wind Speed • predefined tracks+sampling • Satellite altimetry has high temporal/spatial correlation with tide gauges • Huge potential for ”high water forecasting” • with tide gauges offers huge potential for improved warning in the future Comming satellites (Cryosat + Sentinel-3) might offer even better prediction in the future (higher resolution + across track coverage) Having vacation in Venice this summer…….