Seasonal barotropic sea surface height fluctuation in relation to regional ocean mass variation

• Published in: Journal of oceanography Vol. 70; no. 1; pp. 45 - 62
• Main Authors: Kuragano, Tsurane, Fujii, Yosuke, Toyoda, Takahiro, Usui, Norihisa, Ogawa, Koji, Kamachi, Masafumi
• Format: Journal Article
• Language: English
• Published: Tokyo Springer Japan 01.02.2014; Springer Nature B.V
• Subjects: Earth and Environmental Science; Earth Sciences; Freshwater & Marine Ecology; Marine; Oceanography; Original Article; Salinity; Satellite altimetry; Seasons; Surface water; Wind; Barotropic response; Seasonal variation; Sea surface height; Ocean mass; Surface pressure; Regional variation; Water flux; Wind stress
• ISSN: 0916-8370; 1573-868X
• DOI: 10.1007/s10872-013-0211-7

A consistency between seasonal fluctuation of actual sea surface height (SSH) and those caused by mass and density variations in gyre-scale regions is examined. The SSH obtained from satellite altimetry (altimetric SSH) is adopted as the actual SSH. SSH caused by mass variation (mass-related SSH) is simulated using a barotropic global ocean model forced by water flux, wind stress and surface pressure. SSH caused by density variation (steric SSH) is calculated from water density profile, i.e. temperature and salinity profiles. The model SSH well represents mass-related SSH for gyre-scale regional means, and seasonal fluctuation of the altimetric SSH corrected for the model SSH is similar to that of steric SSH above a pressure level larger than 300 dbar. The results indicate that the mass-related SSH does not much respond to the baroclinic adjustment to the seasonally varying wind stress curl. The mass-related SSH forced by wind stress and surface pressure should be accounted for regional evaluation, though it is not necessary for global mean evaluation. Detection of steric SSH from altimetric SSH would be useful for assimilation approaches in which the altimetric SSH is treated as the variable reflecting subsurface temperature and salinity.