| Título: | On the steric and mass-induced contributions to the annual sea level variations in the Mediterranean Sea |
| Autores: |
García García, David Chao, Benjamin F. Río, Jorge del Vigo Aguiar, Isabel García-Lafuente, Jesús |
| Fecha: |
2011-12-20 2011-12-20 2006 2006-09-26 |
| Publicador: | RUA Docencia |
| Fuente: |
 |
| Tipo: | info:eu-repo/semantics/article |
| Tema: |
Time-variable gravity Mass-induced sea level variations Steric sea level variations Altimetry Mediterranean Sea Gibraltar flux Matemática Aplicada Física Aplicada |
| Descripción: |
The sea level variation (SLVtotal) is the sum of two major contributions: steric and mass-induced. The steric SLVsteric is that resulting from the thermal and salinity changes in a given water column. It only involves volume change, hence has no gravitational effect. The mass-induced SLVmass, on the other hand, arises from adding or subtracting water mass to or from the water column and has direct gravitational signature. We examine the closure of the seasonal SLV budget and estimate the relative importance of the two contributions in the Mediterranean Sea as a function of time. We use ocean altimetry data (from TOPEX/Poseidon, Jason 1, ERS, and ENVISAT missions) to estimate SLVtotal, temperature, and salinity data (from the Estimating the Circulation and Climate of the Ocean ocean model) to estimate SLVsteric, and time variable gravity data (from Gravity Recovery and Climate Experiment (GRACE) Project, April 2002 to July 2004) to estimate SLVmass. We find that the annual cycle of SLVtotal in the Mediterranean is mainly driven by SLVsteric but moderately offset by SLVmass. The agreement between the seasonal SLVmass estimations from SLVtotal – SLVsteric and from GRACE is quite remarkable; the annual cycle reaches the maximum value in mid-February, almost half a cycle later than SLVtotal or SLVsteric, which peak by mid-October and mid-September, respectively. Thus, when sea level is rising (falling), the Mediterranean Sea is actually losing (gaining) mass. Furthermore, as SLVmass is balanced by vertical (precipitation minus evaporation, P–E) and horizontal (exchange of water with the Atlantic, Black Sea, and river runoff) mass fluxes, we compared it with the P–E determined from meteorological data to estimate the annual cycle of the horizontal flux. The authors thank NASA Pathfinder project and Andrew Au for assistance in data processing. The altimeter products were produced by the CLS Space Oceanography Division as part of the Environment and Climate EU ENACT project (EVK2-CT2001-00117) and with support from CNES. GRACE data are provided by the NASA/DLR GRACE Project via the Center for Space Research website in the University of Texas at Austin. The ECCO model is a contribution of the Consortium for Estimating the Circulation and Climate of the Ocean funded by the National Oceanographic Partnership Program. This work, as part of the lead author's Ph.D. dissertation, is supported by the Spanish Science and Technology Ministry Projects ESP2001-4533/PE, ESP2005-02212 and REN2003- 01608/MAR, by the Valencian regional government grant ACOMP06-120, and by NASA’s Physical Oceanography Program. |
| Idioma: | Inglés |
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