Author :
Hayes, D.R. ; Zodiatis, G. ; Konnaris, G. ; Hannides, A. ; Solovyov, D. ; Testor, P.
Author_Institution :
Oceanogr. Center, Univ. of Cyprus, Nicosia, Cyprus
Abstract :
Beginning in March 2009, two gliders of the Oceanography Center of the University of Cyprus (OC-UCY) began occupying a hydrographic endurance line for measurements of temperature, salinity, dissolved oxygen, optical backscatter, and fluorescence in the Levantine Sea. The transects follow a butterfly pattern near the Eratosthenes Seamount, extending to a maximum depth of 1000 m. These operational transects represent the first in a time series of transects carried out by OC-UCY. In November 2009, a joint project, “Eye of the Levantine,” was carried out and in which 6 gliders were deployed to investigate the Cyprus warm core eddy observed earlier in the year by both glider and shipboard CTD. In December 2009, the TARA Oceans vessel was involved as well with CTD and water samples and the deployment of 4 surface drifters and 2 profiling floats in and around the eddy. Near the end of the experiment, the eddy was sampled again with shipboard CTD and ADCP by the Maria S. Merian in January 2010. At this time, only the OC-UCY glider continued its endurance line, which also passed through the eddy. It completed its mission in May 2010. About 2000 profiles down to 1000 m and 1000 profiles down to 200 m have been collected by the fleet of gliders including measurements of not only temperature and salinity, but also fluorescence (Chl a, CDOM) and backscatter (at 470 nm, 532 nm, 660 nm, 700 nm and 880 nm). The most recent mission (October 2010 to February 2011) revealed the same eddy approximately 80 km to the east. The Cyprus eddy is a permanent feature (since observations began), with radius of typically 45 km and tangential current speeds of approximately 0.30 m s-1. It consists of an anticyclonic core of Levantine Intermediate Water to a depth of about 400 m. The surface signature is very weak, particularly in summer, however, it is visible in maps of absolute dynamic topography. Further analysis and modeling as well as continued observations of the - - eddy are required in order to determine how it is generated and what governs its evolution and decay.
Keywords :
backscatter; fluorescence; light scattering; ocean chemistry; ocean temperature; oceanographic equipment; oceanographic regions; oceanographic techniques; remotely operated vehicles; seawater; underwater optics; underwater vehicles; AD 2009 03; AD 2009 11; AD 2009 12; AD 2010 05; AD 2010 11 to 2011 02; CDOM fluorescence; Chl a fluorescence; Eratosthenes seamount; Eye of the Levantine project; Levantine Sea; Levantine intermediate water; OC-UCY; Oceanography Center of the University of Cyprus; TARA Oceans vessel; butterfly pattern transects; depth 1000 m; glider transect time series; glider transects; hydrographic endurance line; ocean dissolved oxygen measurement; ocean fluorescence ocean; ocean optical backscatter measurement; ocean salinity measurement; ocean temperature measurement; shipboard CTD; warm core Cyprus eddy; wavelength 470 nm; wavelength 532 nm; wavelength 660 nm; wavelength 700 nm; wavelength 880 nm; Fluorescence; Ocean temperature; Sea measurements; Sea surface; Surface topography; Temperature measurement;
