Estimating tidal constituents in shallow waters from satellite altimetry using a 2D hydrodynamic model with nonlinear tide-surge interactions
Henrique Guarneri, M. Verlaan, D. C. Slobbe, F. Zijl, J. Pietrzak, L. Keyzer, Y. Afrasteh, R. Klees

TL;DR
A new method improves tidal estimates in shallow waters by using a 2D model that accounts for nonlinear tide-surge interactions, reducing water level variability.
Contribution
A novel method for estimating tidal constituents in shallow waters using a 2D hydrodynamic model with nonlinear tide-surge interactions.
Findings
The method reduced residual water level standard deviations in shallow waters from 11 cm to 5 cm.
The method outperformed existing models in shallow waters but performed slightly worse in deep waters.
The estimated total tidal error at satellite crossovers was about 1.5 cm.
Abstract
Tidal models that incorporate satellite altimeter data have historically shown discrepancies in accuracy between shallow and deep marine environments. A recent study suggests that these differences may partly stem from neglecting the nonlinear tide-surge interactions in tidal analyses. In this study, we introduce a novel method for estimating tidal constituents from satellite altimeter data in shallow waters, leveraging a 2D hydrodynamic model that accounts for these nonlinear interactions. This approach substantially reduces the variance of unaccounted water level variability, thereby benefiting the estimation. A distinctive feature of our method is the treatment of prior model tidal constituents as stochastic, which helps manage the low temporal resolution of altimeter data by ensuring that unresolved tidal constituents are not updated. We tested our method in the data-rich northwest…
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Taxonomy
TopicsOceanographic and Atmospheric Processes · Ocean Waves and Remote Sensing · Meteorological Phenomena and Simulations
