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Titre3D imaging challenges in steeply dipping mining structures: New lights on acquisition geometry and processing from the Brunswick no. 6 seismic data, Canada
AuteurCheraghi, S; Malehmir, A; Bellefleur, G
SourceGeophysics vol. 77, no. 5, 2012 p. WC109-WC122, https://doi.org/10.1190/GEO2011-0475.1
Année2012
Séries alt.Secteur des sciences de la Terre, Contribution externe 20110403
ÉditeurSociety of Exploration Geophysicists
Documentpublication en série
Lang.anglais
DOIhttps://doi.org/10.1190/GEO2011-0475.1
Mediapapier; en ligne; numérique
Formatspdf
ProvinceNouveau-Brunswick
SNRC21P/04
Lat/Long OENS-66.0000 -65.5000 47.2500 47.0000
Sujetslevés sismiques; données sismiques; interpretations sismiques; interprétations géophysiques; levés géophysiques; géométrie du bassin; géophysique
Illustrationslocation maps; profiles; plots; rose diagrams
ProgrammeDeveloppements methodologie, Initiative géoscientifique ciblée (IGC-4)
ProgrammeÉtude des gîtes de sulfures massifs volcaniques, Initiative géoscientifique ciblée (IGC-4)
Résumé(disponible en anglais seulement)
We have analyzed and processed a 38-km2 nonorthogonal 3D surface reflection seismic data in the Brunswick no. 6 area to better understand the effect of acquisition geometry on the resultant image and to provide 3D information about the main geologic structures hosting the mineralization. The 3D datawere processed using a conventional prestack dip moveout (DMO) and poststack migration algorithm with special focus on refraction static corrections, velocity analysis, and DMO corrections that are important for the data recorded in crystalline environment. However, the nonorthogonal nature of the 3D data combined with its narrow-azimuth, irregular offset distributions, and 2D nature of midpoint distribution in common depth point bins resulted in a lower quality seismic image than those observed on a series of 2D seismic profiles collected in the area prior to the 3D data acquisition. 2D wavenumber spectrum of the data suggests acquisition footprint associated with the data.
Most of the noise associated with the acquisition footprint manifested itself as short-length, high-amplitude shallow reflections but largely were attenuated using a dip filter running in the wavenumber domain. Various bin size and geometries were tested, and the best result was obtained using rectangular bins aligned in the orientation of the shot lines. The processing results indicated that the highly prospective and mineralized Brunswick horizon is part of a continuous reflective package that could guide future deep mineral exploration in this mining camp.
GEOSCAN ID290146