N. Ducet scite author profile

Abstract. This study focuses on the improved estimation of mesoscale surface ocean circulation obtained by merging TOPEX/Poseidon (T/P) and ERS-1 and -2 altimeter measurements between October 1992 and May 1998. Once carefully intercalibrated and homogenized, these data are merged through an advanced global objective analysis method that allows us to correct for residual long wavelength errors and uses realistic correlation scales of ocean dynamics. The high-resolution (0.25 ø x 0.25 ø) merged T/P + ERS-1 and -2 sea level anomaly maps provide more homogeneous and reduced mapping errors than either individual data set and more realistic sea level and geostrophic velocity statistics than T/P data alone. Furthermore, the merged T/P + ERS-1 and -2 maps yield eddy kinetic energy (EKE) levels 30% higher than maps of T/P alone. They also permit realistic global estimates of east and north components of EKE and their seasonal variations, to study EKE sources better. A comparison of velocity statistics with World Ocean Circulation Experiment surface drifters in the North Atlantic shows very good agreement. Comparison with contemporary current meter data in various oceanic regimes also produces comparable levels of energy and similar ratios of northward and eastward energy, showing that the maps are suitable to studying anisotropy. The T/P + ERS zonal and meridional components of the mapped currents usually present comparable rms variability, even though the variability in the Atlantic is more isotropic than that in the Pacific, which exhibits strong zonal changes. The EKE map presents a very detailed description, presumably never before achieved at a global scale. Pronounced seasonal changes of the EKE are found in many regions, notably the northeastern Pacific, the northeastern and northwestern Atlantic, the tropical oceans, and the zonally extended bands centered near 20øS in the Indian and western Pacific Oceans and at 20øN in the northwestern Pacific. IntroductionIt is now generally admitted that at least two altimetric missions are needed to resolve the main space scales and timescales of the ocean circulation, in particular, However, merging multisatellite data sets is not an easy task. It first requires homogeneous and intercalibrated sea surface height (SSH) data sets. It is then necessary to extract consistent sea level anomaly (SLA) data from the different satellites. Finally, advanced interpolation techniques are needed to map SLA data onto a regular space/time grid. Gridded SLA data can be considered as a final merged product; they can be used directly for signal analysis and in comparison with numerical models and in situ measurements [e.g., Chao and Fu, 1995; Hernandez et al., 1995]. They may also be assimilated into ocean circulation models since they provide both data and associated error estimates at each grid point, although the assimilation of along-track data may be preferred for sophisticated assimilation schemes [Fukumori, 1995].Effective merging techniques have been developed at CLS Space Oceanograp...

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An Improved Mapping Method of Multisatellite Altimeter Data

Traon

Nadal

Ducet

1998

J. Atmos. Oceanic Technol.

793

474

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A comparison of surface eddy kinetic energy and Reynolds stresses in the Gulf Stream and the Kuroshio Current systems from merged TOPEX/Poseidon and ERS‐1/2 altimetric data

Ducet¹,

Traon²

2001

J. Geophys. Res.

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Abstract. Analyses of surface eddy kinetic energy (EKE) inferred from 5 years of merged TOPEX/Poseidon and ERS-1/2 altimetric data are presented in the Gulf Stream (GS) and the Kuroshio (KS) Current systems, focusing on anisotropy and EKE seasonal, interannual, and long-term variations, as well as Reynolds stresses. For both GS and KS a descriptive analysis of the EKE field shows that it is anisotropic along the path of the currents and assesses the close relationship between the spatial distribution of EKE high levels and bottom topography. A striking ocean feature is found in the GS, shaped as a zonal "double-blade" structure in the EKE field, centered at 37øN, 71.5øW, that likely corresponds to a regular and permanent lateral displacement of the mean path of the current at this geographical location. 1998] to study the energetics (meanders, eddies, Reynolds stresses, etc.) of these currents, the seasonal cycle of their surface transport, and the spatial structure and temporal fluctuations of their mesoscale variability.These studies generally use along-track single satellite data, mainly Geosat and TOPEX/Poseidon (T/P). However, it is now generally admitted that to access a more complete description of the whole spectrum of the ocean surface variability, and, in particular, the mesoscale, the merging of altimeter data from at least two different missions is needed [Le Traon 16,603

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Use of a High-Resolution Model to Analyze the Mapping Capabilities of Multiple-Altimeter Missions

Traon

Dibarboure

Ducet

2001

J. Atmos. Oceanic Technol.

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Response of the Black Sea mean level to atmospheric pressure and wind forcing

Ducet

Traon

Gauzelin

1999

Journal of Marine Systems

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N. Ducet

Global high‐resolution mapping of ocean circulation from TOPEX/Poseidon and ERS‐1 and ‐2

An Improved Mapping Method of Multisatellite Altimeter Data

A comparison of surface eddy kinetic energy and Reynolds stresses in the Gulf Stream and the Kuroshio Current systems from merged TOPEX/Poseidon and ERS‐1/2 altimetric data

Use of a High-Resolution Model to Analyze the Mapping Capabilities of Multiple-Altimeter Missions

Response of the Black Sea mean level to atmospheric pressure and wind forcing

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