Blending drifters and altimetric data to estimate surface currents: Application in the Levantine Mediterranean and objective validation with different data types

Georges Baaklini; Leila Issa; Milad Fakhri; Julien Brajard; Gina Fifani; Milena Menna; Isabelle Taupier-Letage; Anthony Bosse; Laurent Mortier

doi:10.1016/j.ocemod.2021.101850

Blending drifters and altimetric data to estimate surface currents: Application in the Levantine Mediterranean and objective validation with different data types

Georges Baaklini, Leila Issa, Milad Fakhri, Julien Brajard, Gina Fifani, Milena Menna, Isabelle Taupier-Letage, Anthony Bosse, Laurent Mortier

Research output: Contribution to journal › Article › peer-review

Abstract

An improved estimation of the surface currents in the Levantine Basin of the Mediterranean sea is crucial for a wide range of applications, including pollutants transport and nutrients distribution. This estimation remains challenging due to the scarcity or shortcomings of various data types used for this purpose. In this paper, we present an objective validation of a variational assimilation algorithm that blends geostrophic velocities derived from altimetry, wind-induced velocities, and drifter positions, to continuously obtain velocity corrections. The assessment of the validation impact was based on available independent in-situ data (current meters, gliders, and independent drifters) and satellite ocean color images. In all cases, the improvement was shown either qualitatively (position of the eddies) or quantitatively.

Original language	English
Article number	101850
Journal	Ocean Modelling
Volume	166
DOIs	https://doi.org/10.1016/j.ocemod.2021.101850
Publication status	Published - 1 Oct 2021

Keywords

Altimetry
Data assimilation
Drifters
Lagrangian data
Levantine Mediterranean
Surface velocity field

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10.1016/j.ocemod.2021.101850

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Baaklini, G., Issa, L., Fakhri, M., Brajard, J., Fifani, G., Menna, M., Taupier-Letage, I., Bosse, A., & Mortier, L. (2021). Blending drifters and altimetric data to estimate surface currents: Application in the Levantine Mediterranean and objective validation with different data types. Ocean Modelling, 166, Article 101850. https://doi.org/10.1016/j.ocemod.2021.101850

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abstract = "An improved estimation of the surface currents in the Levantine Basin of the Mediterranean sea is crucial for a wide range of applications, including pollutants transport and nutrients distribution. This estimation remains challenging due to the scarcity or shortcomings of various data types used for this purpose. In this paper, we present an objective validation of a variational assimilation algorithm that blends geostrophic velocities derived from altimetry, wind-induced velocities, and drifter positions, to continuously obtain velocity corrections. The assessment of the validation impact was based on available independent in-situ data (current meters, gliders, and independent drifters) and satellite ocean color images. In all cases, the improvement was shown either qualitatively (position of the eddies) or quantitatively.",

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AU - Baaklini, Georges

AU - Issa, Leila

AU - Fakhri, Milad

AU - Brajard, Julien

AU - Fifani, Gina

AU - Menna, Milena

AU - Taupier-Letage, Isabelle

AU - Bosse, Anthony

AU - Mortier, Laurent

PY - 2021/10/1

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N2 - An improved estimation of the surface currents in the Levantine Basin of the Mediterranean sea is crucial for a wide range of applications, including pollutants transport and nutrients distribution. This estimation remains challenging due to the scarcity or shortcomings of various data types used for this purpose. In this paper, we present an objective validation of a variational assimilation algorithm that blends geostrophic velocities derived from altimetry, wind-induced velocities, and drifter positions, to continuously obtain velocity corrections. The assessment of the validation impact was based on available independent in-situ data (current meters, gliders, and independent drifters) and satellite ocean color images. In all cases, the improvement was shown either qualitatively (position of the eddies) or quantitatively.

AB - An improved estimation of the surface currents in the Levantine Basin of the Mediterranean sea is crucial for a wide range of applications, including pollutants transport and nutrients distribution. This estimation remains challenging due to the scarcity or shortcomings of various data types used for this purpose. In this paper, we present an objective validation of a variational assimilation algorithm that blends geostrophic velocities derived from altimetry, wind-induced velocities, and drifter positions, to continuously obtain velocity corrections. The assessment of the validation impact was based on available independent in-situ data (current meters, gliders, and independent drifters) and satellite ocean color images. In all cases, the improvement was shown either qualitatively (position of the eddies) or quantitatively.

KW - Altimetry

KW - Data assimilation

KW - Drifters

KW - Lagrangian data

KW - Levantine Mediterranean

KW - Surface velocity field

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DO - 10.1016/j.ocemod.2021.101850

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JO - Ocean Modelling

JF - Ocean Modelling

M1 - 101850

ER -

Blending drifters and altimetric data to estimate surface currents: Application in the Levantine Mediterranean and objective validation with different data types

Abstract

Keywords

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