A metrologic method of anomaly field amplitude bottom reduction in undersampled geomagnetic marine surveys

Faggioni, O.; Beverini, N.; Carmisciano, C.; Giori, I.

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Please use this identifier to cite or link to this item: http://hdl.handle.net/2122/4914

DC Field	Value	Language
dc.contributor.authorall	Faggioni, O.; Istituto di Geofisica Marina, CUNISPE	en
dc.contributor.authorall	Beverini, N.; UNIPI	en
dc.contributor.authorall	Carmisciano, C.; Istituto Geofisica Marina, CUNISPE	en
dc.contributor.authorall	Giori, I.; ENI SpA	en
dc.date.accessioned	2009-03-03T07:33:39Z	en
dc.date.available	2009-03-03T07:33:39Z	en
dc.date.issued	2001	en
dc.identifier.uri	http://hdl.handle.net/2122/4914	en
dc.description.abstract	We show the results obtained by means of a seabed reduction technique on the intensity of geomagnetic anomaly fields applied to a synthetic case and then to the real case of a geomagnetic survey of eastern Ligurian Sea (Italy). The eastern Ligurian Sea has very intense short waves anomaly fields and a sea bed that varies greatly in depth. As a result the geomagnetic space signal is characterized by a very large spectral content; in these conditions it is not possible to obtain a full sampled marine survey and vertical continuation analytic procedures and standard numerical bottom reduction based on a single vertical incremental parameter, whichever is applicable, fails to give accurate results. The present technique, which has been fine-tuned over 4 years of experimentation in environmental researchs, aims to provide a simple and efficient means to reduce the distortion of geomagnetic anomalies field caused by the variation of distance between survey plane and magnetic outcrop source position. The compensation procedure is based on evaluation, by comparison of two measurements carried out at different altitudes, of the mean vertical increment typical of each anomaly field principal frequency component bands. The component anomaly fields are then corrected by application of the corresponding vertical increments and lastly, the anomaly geomagnetic field reduced to the sea-bed is computed as Inverse Fourier Transform of a spectrum built as synthesis of the component anomaly fields' spectra. The results obtained have shown a notable increase in definition of anomaly field intensity without the production of appreciable distortions or false geomagnetic echoes.	en
dc.description.sponsorship	Hydrographic Institute of the Italian Navy,	en
dc.language.iso	English	en
dc.relation.ispartof	Marine Geophysical Researches	en
dc.relation.ispartofseries	2/22 (2001)	en
dc.relation.isversionof	http://www.ingentaconnect.com/content/klu/mari/2001/00000022/00000002/00333504	en
dc.subject	down continuation	en
dc.subject	marine geomagnetism	en
dc.title	A metrologic method of anomaly field amplitude bottom reduction in undersampled geomagnetic marine surveys	en
dc.type	article	en
dc.description.status	Published	en
dc.description.pagenumber	63-79	en
dc.subject.INGV	04. Solid Earth::04.06. Seismology::04.06.06. Surveys, measurements, and monitoring	en
dc.relation.references	Bozzo, E., Corrado, G., Elena, A., Faggioni, O. and Pinna, E., 1984, Magnetic Anomalies and Deep Crustal Structure Along the Elba- Levanto-Ottone-Varzi Line, Boll. Geof. Teor. Appl 26, 101–102, 67–75. Cassano, E. and Maino, A., 1994, Carta Aeromagnetica d’Italia, AGIP e Servizio Geologico Nazionale. Chavez, R. E. and Garland, G. D., 1985, Linear inversion of gravity data using the spectral expansion method, Geophys. 50(5), 820– 824. Cooley, J.W. and Tukey, J. M., 1965, An Algorithm for theMachine Calculation of Complex Fourier Series, Math. Compt. 91, 297– 301. Cordell, L. and Grauch, V. J. S., 1985, Mapping basement magnetization zones from aeromagnetic data in the San Juan basin, New Mexico, in Hinze, W. J. (ed.), The utility of regional, gravity and magnetic anomaly maps, Society of Exploration Geophysicist, Tulsa, OK, pp. 181–197. De Santis, A. and Meloni, A., 1991, Sulla Scelta del Campo Geomagnetico di Riferimento in Italia, Istituto Nazionale di Geofisica 6, 283–300. Faggioni, O., Beverini, N. and Carmisciano, C., 1997, Geomagnetic Time Variations and High Definition Study of Space Magnetic Effects Induced by Artificial Submerged Sources, Boll. Geof. Teor. Appl. 38(3–4), 211–228. Faggioni, O., Beverini, N., Carmisciano, C. and Rossi, L., 1996, Sulla Misura delle Variazioni Temporali del Campo Magnetico 79 Terrestre in Provincia della Spezia: Memorie Accademia Lunigianese delle Scienze, Classe Scienze Matematiche, Fisiche e Naturali 64–65, 161–184. Faggioni, O., Pinna, E., Savelli, C. and Schreider, A., 1995, Geomagnetism and Age Study of Tyrrhenian Seamounts: Geophys. J. Int. 123, 915–930. Faggioni, O., Palangio, P. and Pinna, E., 1991, Geomagnetic Observatory of Terra Nova Bay Station – Antarctica: Synthetic Reconstruction of Magnetogram 01.00(UTM)JD01.88:12.00(UTM)JD18.88: Atti Congr. Gr. Naz. Geof. Terra Solida, Roma, 10, pp. 687–706. Granser, H., 1987, Nonlinear inversion of gravity data using the Schmidt-Lichtenstein approach, Geophys. 52 (1), 88–93. Kanasewich, E. R., 1981, Time Sequence Analysis in Geophysics, The University of Alberta Press. Langel, R. A., 1987, International Geomagnetic Reference Field, the sixth generation, J. Geomag. Geoelectr. 44, 679–707. Leao, J. W. D, Menezes P. T. L., Beltrao, J. F. and Silva, J. B. C., 1996, Gravity inversion of basement relief constrained by knowledge of depth isolated points, Geophys. 61, (6), 1702–1714. Leao J. W. D., Silva, J. B. C., 1989, Discrete linear transformations of potential field data, Geophys. 54 (4), 497–507. Naidu, P. S., 1970, Fourier transform of large scale aeromagnetic field using a modified version of the Fast Fourier Transform, Pure Appl Geophys 81, 17–25. Phillips, J. D., 1996, Potential-field continuation: past practice vs. modern methods, Proc. 66th Annual Meeting of Society of Exploration Geophysicists, Denver, 1411–1414. Pilkington, M. and Crossley, D. J., 1986, Determination of crustal interface topography from potential fields, Geophys. 51 (6), 1277–1284. Pilkington, M. and Urquhart, W. E. S., 1990, Reduction of potential field data to a horizontal plane, Geophys. 55, (5), 549–555. Thurston, J. B. and Smith, R. S., 1997, Automatic conversion of magnetic data to depth, dip, and susceptibility contrast using the SPI(TM) method, Geophys. 62 (3), 807–813. Twigt,W., Slootweg, A. P. and Collette, B. J., 1979, Topography and Magnetic Analysis of an Area Southeast of the Azores (36◦ N, 23◦ W), Mar. Geophys. Res. 4, 91–104. United States Geological Survey, Potential Field Geophysical Software, 1992, USGS open file report, 92/18. Xia, J., Sprowl, D. R., Adkins-Helijeson, D., 1993, Correction of topographic distortions in potential-field data: a fast and accurate approach, Geophys. 58 (4), 512–523.	en
dc.description.obiettivoSpecifico	2.6. TTC - Laboratorio di gravimetria, magnetismo ed elettromagnetismo in aree attive	en
dc.description.journalType	JCR Journal	en
dc.description.fulltext	reserved	en
dc.contributor.author	Faggioni, O.	en
dc.contributor.author	Beverini, N.	en
dc.contributor.author	Carmisciano, C.	en
dc.contributor.author	Giori, I.	en
dc.contributor.department	Istituto di Geofisica Marina, CUNISPE	en
dc.contributor.department	UNIPI	en
dc.contributor.department	Istituto Geofisica Marina, CUNISPE	en
dc.contributor.department	ENI SpA	en
item.openairetype	article	-
item.cerifentitytype	Publications	-
item.languageiso639-1	en	-
item.grantfulltext	restricted	-
item.openairecristype	http://purl.org/coar/resource_type/c_18cf	-
item.fulltext	With Fulltext	-
crisitem.author.dept	Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Roma2, Roma, Italia	-
crisitem.author.dept	UNIPI	-
crisitem.author.dept	Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Roma2, Roma, Italia	-
crisitem.author.dept	Eni SpA	-
crisitem.author.orcid	0000-0002-9772-3453	-
crisitem.author.orcid	0000-0002-2868-4235	-
crisitem.author.orcid	0000-0001-7357-2147	-
crisitem.author.parentorg	Istituto Nazionale di Geofisica e Vulcanologia	-
crisitem.author.parentorg	Istituto Nazionale di Geofisica e Vulcanologia	-
crisitem.classification.parent	04. Solid Earth	-
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