An investigation of ensemble-based assimilation of satellite altimetry and tide gauge data in storm surge prediction

Etala, Paula; Saraceno, Martín; Echevarría, Pablo

doi:10.1007/s10236-015-0808-z

Cited by 8 publications

(8 citation statements)

References 21 publications

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“…In particular, the total water level envelope (i.e., the SSH anomaly including tides and barometric effects) was used to allow direct comparison with in-situ measurements. Richter et al (2012), Etala et al (2015), and Lago et al (2017) showed that the altimetry data uncertainty in the SWACS depends upon the distance to the shoreline, and ranges between 0.02 and 0.30 m. Therefore, following the results reported by Etala et al (2015), an uncertainty of 0.15 m was assigned to them.…”

Section: Altimetry and Tidal Gauges Observationsmentioning

confidence: 73%

“…(2017) showed that the altimetry data uncertainty in the SWACS depends upon the distance to the shoreline, and ranges between 0.02 and 0.30 m. Therefore, following the results reported by Etala et al . (2015), an uncertainty of 0.15 m was assigned to them.…”

Section: Methodsmentioning

confidence: 99%

“…Time series were detrended, and the averages were subtracted in order to work with water-level anomalies. All the observations were subject to a quality control following the protocol established by IOC (2006) and, as suggested by Dragani et al (2006), Etala et al (2015), and Woodworth (2016), an uncertainty of 0.05 m was assigned to them.…”

Section: Altimetry and Tidal Gauges Observationsmentioning

confidence: 99%

“…Remarkably, the only previous exercise in DA in forecasting of the SWACS Etala et al . (2015) was shown to be promising, as the authors demonstrated improvements in the short‐term (6 hr) forecast when using both satellite altimetry and coastal water‐level data (only surge component) along the Argentinean coast.…”

Section: Introductionmentioning

confidence: 99%

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Improving the short‐range forecast of storm surges in the southwestern Atlantic continental shelf using 4DEnSRF data assimilation

Dinápoli

Ruiz

Simionato

et al. 2023

Quart J Royal Meteoro Soc

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In this study, the assimilation of tide gauge and altimetry data into a two‐dimensional barotropic numerical model for the southwestern Atlantic continental shelf (SWACS) was developed. To do this, the preoperative 4‐day storm surges ensemble prediction system developed by Dinápoli et al. (2021, Journal of the Royal Meteorological Society 147: 557–572) was implemented for the SWACS. This new configuration, called “Model for Storm Surge Simulations” (M3S), considers a curvilinear grid that covers the SWACS with higher resolution along the shoreline (from 2 to 10 km). M3S was forced with an ensemble of 60 members conformed by the combination of perturbations of the eight principal tidal constituents and of the atmospheric products derived from the Global Ensemble Forecast System. Tidal gauge and altimetry data were assimilated in an asynchronous mode using the four‐dimensional‐ensemble square‐root filter (4DEnSRF). The system was developed and validated forecasting two strong positive storm surges. Results show that 4DEnSRF's innovations produce a positive impact upon the forecast skill up to 2 days. Hence, the 4‐day forecast can be divided into two parts: the first 2 days with a stronger dependence on the initial conditions and the other 2 days purely driven by external forcing. It was found that a symmetric assimilation window of 12 hr length produces the best initial condition. Under this configuration, 4DEnSRF removes biases and improves the timing of the M3S forecasted solutions. The largest improvements were observed at the northern SWACS, where more chaotic processes, such as the atmospheric circulation, explain a large part of the sea‐surface height variability. No significant improvements were found at the southern SWACS, which can be attributed to the strong tidal dynamics that characterise the zone. Our results show that the incorporation of 4DEnSRF into M3S can significantly improve the forecast in the SWACS and also the accuracy of the short‐range detection of storm surges.

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Section: Altimetry and Tidal Gauges Observationsmentioning

confidence: 73%

Section: Methodsmentioning

confidence: 99%

Section: Altimetry and Tidal Gauges Observationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Improving the short‐range forecast of storm surges in the southwestern Atlantic continental shelf using 4DEnSRF data assimilation

Dinápoli

Ruiz

Simionato

et al. 2023

Quart J Royal Meteoro Soc

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“…Hence the ensemble serves both to forecast the uncertainty as well as improve the central forecast. Etala et al (2015) report advances in storm surge forecasting for the Argentian coast. Using a Local Ensemble Transform Kalman Filter (LETKF), water level from in situ gauges and satellite altimetry is assimilated into a high-resolution 20-member ensemble storm surge model.…”

Section: The 13th Workhopmentioning

confidence: 99%

The international workshop on wave hindcasting and forecasting and the coastal hazards symposium

Breivik

Swail²,

Babanin³

et al. 2015

Ocean Dynamics

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Following the 13th International Workshop on Wave Hindcasting and Forecasting and 4th Coastal Hazards Symposium in October 2013 in Banff, Canada, a topical collection has appeared in recent issues of Ocean Dynamics. Here we give a brief overview of the history of the conference since its inception in 1986 and of the progress made in the fields of wind-generated ocean waves and the modelling of coastal hazards before we summarize the main results of the papers that have appeared in the topical collection.The period around the time of the initial workshop was a very exciting one for wave modelling, forecasting and hindcasting. The WAM model (Hasselmann et al., 1988) was in the process of becoming the first community wave model, arising out of the SWAMP program (SWAMP, 1985) and the plethora of wave models which existed in the early 1980s. The advent of these sophisticated third-generation models, and the rapidly increasing computing capabilities of numerical weather prediction centres, led to the increased use of numerical wave models in operational forecasting.With time more centres began using these models for their operational programs, and an international wave forecast comparison project was established, coordinated by The European Centre for Medium-Range Weather Forecasts (ECMWF), to evaluate forecast performance and identify areas of potential improvement (Bidlot et al., 2002). At the same time, hindcasting was becoming the accepted basis for developing wave climatology in general, and particularly for developing the basis for offshore design criteria. Due to the limitations of computing power and the lack of suitable historical wind fields, these early hindcasts covered only the most extreme storms in a limited area of the ocean. They were thus a far cry from today's decades-long, global wave hindcasts forced with atmospheric reanalyses. Yet at the time these hindcasts took a Herculean effort in terms of computing and through the meticulous preparation of suitable wind fields.An important alliance was formed in 2006, when the workshop was first co-sponsored by the WMO-IOC Joint Technical Commission for Oceanography and Marine Meteorology (JCOMM). Subsequently, and following the very successful JCOMM Scientific and Technical Symposium on Storm Surges in October 2007 in South Korea, a symposium on hazard assessment in coastal areas was established, and later held jointly with the Wave Workshop. This has provided an excellent opportunity for cross-pollination of ideas between wave and storm surge prediction. While the primary focus of the workshop was, and remains, wave hindcasting and forecasting, what makes this workshop unique is the treatment of the end-to-end research issues associated with ocean waves, from the basic research on wave physics to the ultimate use of the products. The topics have thus ranged from research and operational aspects of wave and storm surge hindcasting and forecasting, regional hindcasts, storm surge climatology, data collection and instrumentation, data assimilation, wave-cur...

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Impact of using scatterometer and altimeter data on storm surge forecasting

et al. 2017

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An investigation of ensemble-based assimilation of satellite altimetry and tide gauge data in storm surge prediction

Cited by 8 publications

References 21 publications

Improving the short‐range forecast of storm surges in the southwestern Atlantic continental shelf using 4DEnSRF data assimilation

Improving the short‐range forecast of storm surges in the southwestern Atlantic continental shelf using 4DEnSRF data assimilation

The international workshop on wave hindcasting and forecasting and the coastal hazards symposium

Impact of using scatterometer and altimeter data on storm surge forecasting

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