Mesoscale eddies off Peru in altimeter records: identification algorithms and eddy sptio-temporal patterns. - Université Pierre et Marie Curie Accéder directement au contenu
Article Dans Une Revue Progress in Oceanography Année : 2008

Mesoscale eddies off Peru in altimeter records: identification algorithms and eddy sptio-temporal patterns.

Résumé

Relatively little is known about coherent vortices in the eastern South-Pacific along the Peruvian coast, even with regard to basic facts about their frequency of occurrence, longevity and structure. This study addresses these issues with nearly 15 years of relatively high-resolution satellite altimetry measurements. We first compare two distinct automated methods for eddy identification. The objective validation protocol shows that the rarely-used geometrical or "winding-angle method", based on the curvature of the streamline functions, is more accurate than the commonly-used "Okubo-Weiss algorithm", which defines a vortex as a simple connected region with values of Okubo-Weiss parameter weaker than a given threshold. We then investigate vortices off Peru using more than 20,000 mesoscale eddies identified by the winding-angle method. Coherent eddies, characterized by a high ratio of vorticity to deformation rate, are typically formed along the coast and propagate westward at 3-6 cm s−1. The vortices have a mean radius of 80 km, increasing northward, and are most frequently observed off of Chimbote (9°S) and south of San Juan (15°S). The mean eddy lifetime is about 1 month, but if eddies survive at least 2 months, the probability for surviving an additional week (or month) is constant at 90% (or 67%). Anticyclonic eddies tend to propagate northwestward whereas cyclonic vortices migrate southwestward. In general, cyclones and anticyclones are similar, except for eddies surviving at least 6 months. In this case, after a similar 3-4 months of radius and amplitude growth, amplitudes (or sizes) decay particularly rapidly for anticyclonic (or cyclonic) eddies. In terms of intensity, cyclonic eddies show a rapid decay during the first 3 months before arriving at a quasi-constant value, whereas anticyclones exhibit steady decline. Finally, eddy temporal variations were examined at seasonal and interannual scales in the "coastal" region favorable to the formation of energetic mesoscale structures. On seasonal scales, eddy activity is maximal in fall and minimum in spring. At interannual scales, the eddy activity index was maximal during the strong El Niño of 1997-1998 but another strong maximum of eddy activity also occurred late in 2004. These temporal variations are probably associated with the intensification of the upwelling thermal front and with the passage of coastal-trapped waves which generate baroclinic instabilities. Further investigation of the mechanisms involved on the eddy genesis is needed.

Domaines

Océanographie

Dates et versions

hal-00765734 , version 1 (16-12-2012)

Identifiants

Citer

Alexis Chaigneau, Arnaud Gizolme, Carmen Grados. Mesoscale eddies off Peru in altimeter records: identification algorithms and eddy sptio-temporal patterns.. Progress in Oceanography, 2008, 79 (Issues 2-4), pp.106-119. ⟨10.1016/j.pocean.2008.10.013⟩. ⟨hal-00765734⟩
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