Frontiers in Marine Science (Nov 2020)

Preparing the New Phase of Argo: Technological Developments on Profiling Floats in the NAOS Project

  • Xavier André,
  • Pierre-Yves Le Traon,
  • Pierre-Yves Le Traon,
  • Serge Le Reste,
  • Vincent Dutreuil,
  • Vincent Dutreuil,
  • Edouard Leymarie,
  • Damien Malardé,
  • Claudie Marec,
  • Claudie Marec,
  • Claudie Marec,
  • Jérôme Sagot,
  • Martin Amice,
  • Marcel Babin,
  • Hervé Claustre,
  • Arnaud David,
  • Fabrizio D’Ortenzio,
  • Nicolas Kolodziejczyk,
  • José Luis Lagunas,
  • José Luis Lagunas,
  • Marc Le Menn,
  • Bertrand Moreau,
  • David Nogré,
  • Christophe Penkerc’h,
  • Antoine Poteau,
  • Corentin Renaut,
  • Christophe Schaeffer,
  • Vincent Taillandier,
  • Virginie Thierry

DOI
https://doi.org/10.3389/fmars.2020.577446
Journal volume & issue
Vol. 7

Abstract

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The international array of profiling floats known as Argo is a major component of the global ocean- and climate-observing system. In 2010, the NAOS (Novel Argo Observing System) project was selected as part of France’s Equipex “Investissement d’Avenir” program. The objectives of NAOS were to consolidate the French contribution to the Argo core mission (global temperature and salinity measurements down to 2,000 m) as well as to develop the future generation of French Argo profiling floats and prepare the next phase of the Argo program with an extension to the deep ocean (Deep-Argo), biogeochemistry (BGC-Argo) and polar seas. This paper summarizes the main technological advances and at-sea validations carried out as part of NAOS: development of a deep (4,000 m) float, a new BGC float for Research & Development (R&D) applications, and a BGC float for deployments in Arctic areas, assessment of a new density and Absolute Salinity optical sensor, improvement of the reliability of the standard Argo float, and upgraded satellite-transmission performance. French profiling floats developed in this way are now operational and among the most deployed worldwide, and the density sensor is the most promising of its kind for profiling floats applications.

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