Taylor and Francis Ltd.;Philadelphia: Taylor & Francis Group
摘要:
摘要: The surface geostrophic currents (SGC) can be derived via the principle of geostrophy from the dynamic height of the ocean, or the deviation of the true, variable sea surface height with respect to the Earth's static geoid, both of which can be measured by geodetic means. Here we calculate the Mean Dynamic Topography (MDT) by subtracting the geoid height determined by the GOCE satellite mission from the Mean Sea Surface Topography (MSST) derived from multi-satellite ocean altimetry (T/P, Jason 1/2, ERS-1/2, GEOSAT). Results for SGC are compared with those obtained from a GRACE-based mean geoid, as well as with the mean circulation patterns from measurements done by in situ drifter buoys and from simulations of the ECCO Ocean General Circulation Model. We found GOCE-based geoid solution clearly leads to significant improvements in the spatial resolution of SGC globally except in the Equatorial band where special filtering may be needed, with current velocities and spatial patterns closest to the in situ measurements of currents, compared with the GRACE-based results or ECCO model simulations that give significantly weaker Values with lower spatial resolution. 出版者: Philadelphia: Taylor & Francis Group 出版日期: 2012-12-01 出處: Marine geodesy, 2012-12, Vol.35 (sup1), p.175-189 資源來源: EBSCOhost Academic Search Premier 版權: Copyright Taylor & Francis Group, LLC 2012 版權: Copyright Taylor & Francis Ltd. 2012 識別號: ISSN: 0149-0419 識別號: EISSN: 1521-060X 識別號: DOI: 10.1080/01490419.2012.718696
