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dc.contributor.authorWarn-Varnas, Alex
dc.contributor.authorEssen, Heinz-Hermann
dc.contributor.authorGezgin, E.
dc.date.accessioned2018-10-11T14:06:56Z
dc.date.available2018-10-11T14:06:56Z
dc.date.issued1996/01
dc.identifier2023
dc.identifier.govdocSR-246
dc.identifier.urihttp://hdl.handle.net/20.500.12489/312
dc.description.abstractSubsurface temperature and sound speed profiles are generated from satellite SST observations and
dc.description.abstractvalidated by hydrocast observations. Hydrographic data from the October 1992 Iceland Faeroe frontal
dc.description.abstractsurvey is used for the calculation of Empirical Orthogonal Functions (EOFs). Statistical relationships
dc.description.abstractbetween the EOF amplitudes and SSTs are derived and used for the construction of synthetic
dc.description.abstracttemperature profiles and sound speed distributions in the ocean. Average Root-Mean Square (RMS)
dc.description.abstracterrors were computed for synthetic temperature profiles in typical water categories. Corrections to the
dc.description.abstractprocessed satellite SST data were applied using surface drifter data and sensitivity tests. The survey
dc.description.abstractdata reflects the water mass structure in three distinct regions; Atlantic, Frontal and Arctic, for which characteristic TS curves are derived. The best agreement between the synthetically generated
dc.description.abstracttemperature profiles, from SST data, with CTD measurements occurs in the Arctic region where a
dc.description.abstracttendency to follow the slope and magnitude versus depth exists. The Frontal region shows
dc.description.abstractdisagreements in the upper thermocline with agreement elsewhere. In the Atlantic region there is agreement only in the upper mixed layer. In the thermocline regime the slope exhibits a parallel offset relative to the data. The differences are attributed to the inherent errors of EOF reconstruction which peak in the thermocline and the scatter of EOF amplitudes versus SST measurements. The work demonstrates that it is possible to derive synthetic temperature and sound speed profiles in the ocean from SST observations of particular water mass configurations at certain times of the season.
dc.format24 p. : ill. ; 15 fig.
dc.languageEnglish
dc.publisherNATO. SACLANTCEN
dc.relation.ispartofseriesADB209666
dc.subjectSea surface temperature (SST)
dc.subjectEmpirical Orthogonal Function (EOF) technique
dc.subjectSound velocity in sea water
dc.subjectIceland-Faeroe Frontal
dc.titleDeduction fo synthetic temperature profiles from SST observations in the Iceland-Faeroe frontal region
dc.typeScientific Report (SR)


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