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BGC-Argo synthetic profile file processing and format on Coriolis GDAC. Version 1.1
(Ifremer, Plouzane, France, 2019)
The current V3.1 Argo netCDF format that produces a pair of core- and b- profile files per cycle, with N_PROF > 1, allows storage of all profile information returned from BGC floats, in a manner that is as close to float ...
Argo User’s Manual Version 3.3, 22 November 2019.
(IFREMER, 2019)
This document is the Argo data user’s manual. It contains the description of the formats and files produced by the Argo Data Assembly Centres (DACs).
Processing BGC-Argo particle backscattering at the DAC level. Version 1.4, 07 March 2018.
(IFREMER for Argo Data Management, Villefranche-sur-Mer, France, 2018)
This document does NOT address the issue of particle backscattering quality control (either real-time or delayed mode). As a preliminary step towards that goal, this document seeks to ensure that all countries deploying ...
Processing BGC-Argo measurement timing information at the DAC level. Version 1.0, March 28th 2017.
(IFREMER for Argo Data Management, Villefranche-sur-Mer, France, 2017)
Thermal lag or sensor time response corrections (e.g., [1]) require knowledge of the time of each individual sensor observation. In the Argo data system, the float's trajectory file is the natural place to put measurement ...
Argo User’s Manual Version 3.2, September 11th 2017.
(IFREMER, 2017)
This document is the Argo data user’s manual. It contains the description of the formats and files produced by the Argo Data Assembly Centres (DACs).
Argo Quality Control Manual for Biogeochemical Data. Version1.0, 1st March 2016.
(CNRS, UMR 7093, LOV, Observatoire Océanologique, Bio-Argo Group, Villefranche-sur-Mer, France, 2016)
This document is the Argo quality control
manual for biogeochemical data. It describes two
levels of quality control:
The first level is the real-time system that performs a set of agreed automatic checks.
Adjustment ...
argoFloats: an R Package for Analyzing Argo Data.
(2021)
An R package named argoFloats has been developed to facilitate identifying, downloading, caching, and analyzing oceanographic data collected by Argo profiling floats. The analysis phase benefits from close connections ...
Operating Cabled Underwater Observatories in Rough Shelf-Sea Environments: A Technological Challenge.
(2020)
Cabled coastal observatories are often seen as future-oriented marine technology that enables science to conduct observational and experimental studies under water year-round, independent of physical accessibility ...
Argo Quality Control Manual for CTD and Trajectory Data, Version 3.1,16 January 2018. [SUPERSEDED by http://dx.doi.org/10.25607/OBP-426]
(IFREMER, 2018)
A CTD (conductivity, temperature, depth) device measures temperature and salinity versus pressure. This document is the Argo quality control manual for CTD and trajectory data. It describes two levels of quality control:
- ...
Argo real-time quality control intercomparison.
(2015)
The real-time quality control (RTQC) methods applied to Argo profiling float data by the United Kingdom (UK) Met Office,
the United States (US) Fleet Numerical Meteorology and Oceanography Centre, the Australian Bureau ...