Comparison between XBT data and TOPEX/Poseidon satellite altimetry in the Ligurian-Tyrrhenian area
Comparison between XBT data and TOPEX/Poseidon satellite altimetry in the Ligurian-Tyrrhenian area
Abstract. From September 1999 to December 2000, eXpendable Bathy-Thermograph (XBT) profiles were collected along the Genova-Palermo shipping route in the framework of the Mediterranean Forecasting System Pilot Project (MFSPP). The route is virtually coincident with track 0044 of the TOPEX/Poseidon satellite altimeter, crossing the Ligurian and Tyrrhenian basins in an approximate N–S direction. This allows a direct comparison between XBT and altimetry, whose findings are presented in this paper. XBT sections reveal the presence of the major features of the regional circulation, namely the eastern boundary of the Ligurian gyre, the Bonifacio gyre and the Modified Atlantic Water inflow along the Sicily coast. Twenty-two comparisons of steric heights derived from the XBT data set with concurrent realizations of single-pass altimetric heights are made. The overall correlation is around 0.55 with an RMS difference of less than 3 cm. In the Tyrrhenian Sea the spectra are remarkably similar in shape, but in general the altimetric heights contain more energy. This difference is explained in terms of oceanographic signals, which are captured with a different intensity by the satellite altimeter and XBTs, as well as computational errors. On scales larger than 100 km, the data sets are also significantly coherent, with increasing coherence values at longer wavelengths. The XBTs were dropped every 18–20 km along the track: as a consequence, the spacing scale was unable to resolve adequately the internal radius of deformation (< 20 km). Furthermore, few XBT drops were carried out in the Ligurian Sea, due to the limited north-south extent of this basin, so the comparison is problematic there. On the contrary, the major features observed in the XBT data in the Tyrrhenian Sea are also detected by TOPEX/Poseidon. The manuscript is completed by a discussion on how to integrate the two data sets, in order to extract additional information. In particular, the results emphasize their complementarity in providing a dynamically complete description of the observed structures.
BATHYTHERMOGRAPHS, SATELLITE ALTIMETRY, MEDITERRANEAN FORECASTING SYSTEM, TOPEX-POSEIDON, TYRRHENIAN SEA
123-135
Vignudelli, S.
86bdf7f8-68da-4851-bc7b-c011620fd194
Cipollini, P.
276e356a-f29e-4192-98b3-9340b491dab8
Reseghetti, F.
aa3dee0e-58c8-49c6-bd09-b25496181012
Fusco, G.
ca4cea04-719c-42e8-b549-061d1d4835c0
Gasparini, G.P.
987a50d3-c724-433a-abcf-731716c4f0e1
Manzella, G.M.R.
8786ab3b-6e99-43d2-b57b-db063bba07c8
2003
Vignudelli, S.
86bdf7f8-68da-4851-bc7b-c011620fd194
Cipollini, P.
276e356a-f29e-4192-98b3-9340b491dab8
Reseghetti, F.
aa3dee0e-58c8-49c6-bd09-b25496181012
Fusco, G.
ca4cea04-719c-42e8-b549-061d1d4835c0
Gasparini, G.P.
987a50d3-c724-433a-abcf-731716c4f0e1
Manzella, G.M.R.
8786ab3b-6e99-43d2-b57b-db063bba07c8
Vignudelli, S., Cipollini, P., Reseghetti, F., Fusco, G., Gasparini, G.P. and Manzella, G.M.R.
(2003)
Comparison between XBT data and TOPEX/Poseidon satellite altimetry in the Ligurian-Tyrrhenian area.
Annales Geophysicae, 21 (1, Part 1), .
Abstract
Abstract. From September 1999 to December 2000, eXpendable Bathy-Thermograph (XBT) profiles were collected along the Genova-Palermo shipping route in the framework of the Mediterranean Forecasting System Pilot Project (MFSPP). The route is virtually coincident with track 0044 of the TOPEX/Poseidon satellite altimeter, crossing the Ligurian and Tyrrhenian basins in an approximate N–S direction. This allows a direct comparison between XBT and altimetry, whose findings are presented in this paper. XBT sections reveal the presence of the major features of the regional circulation, namely the eastern boundary of the Ligurian gyre, the Bonifacio gyre and the Modified Atlantic Water inflow along the Sicily coast. Twenty-two comparisons of steric heights derived from the XBT data set with concurrent realizations of single-pass altimetric heights are made. The overall correlation is around 0.55 with an RMS difference of less than 3 cm. In the Tyrrhenian Sea the spectra are remarkably similar in shape, but in general the altimetric heights contain more energy. This difference is explained in terms of oceanographic signals, which are captured with a different intensity by the satellite altimeter and XBTs, as well as computational errors. On scales larger than 100 km, the data sets are also significantly coherent, with increasing coherence values at longer wavelengths. The XBTs were dropped every 18–20 km along the track: as a consequence, the spacing scale was unable to resolve adequately the internal radius of deformation (< 20 km). Furthermore, few XBT drops were carried out in the Ligurian Sea, due to the limited north-south extent of this basin, so the comparison is problematic there. On the contrary, the major features observed in the XBT data in the Tyrrhenian Sea are also detected by TOPEX/Poseidon. The manuscript is completed by a discussion on how to integrate the two data sets, in order to extract additional information. In particular, the results emphasize their complementarity in providing a dynamically complete description of the observed structures.
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Published date: 2003
Keywords:
BATHYTHERMOGRAPHS, SATELLITE ALTIMETRY, MEDITERRANEAN FORECASTING SYSTEM, TOPEX-POSEIDON, TYRRHENIAN SEA
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Local EPrints ID: 1242
URI: http://eprints.soton.ac.uk/id/eprint/1242
ISSN: 0992-7689
PURE UUID: abfcc941-190a-4111-816e-eb46fba1faed
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Date deposited: 15 Apr 2004
Last modified: 08 Jan 2022 00:57
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Contributors
Author:
S. Vignudelli
Author:
P. Cipollini
Author:
F. Reseghetti
Author:
G. Fusco
Author:
G.P. Gasparini
Author:
G.M.R. Manzella
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