1993
DOI: 10.1017/s0016756800020884
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A new look at Belgian aeromagnetic and gravity data through image-based display and integrated modelling techniques

Abstract: Digital processing and image-based display techniques have been used to generate contour and shaded-relief maps of Belgian aeromagnetic data at a scale of 1:300000 for the whole of Belgium. These highlight the important anomalies and structural trends, particularly over the Brabant Massif. North and vertically illuminated shaded-relief plots, enhanced structural belts trending west-east to northwest-southeast in the Brabant Massif and west-east to southwest-northeast in the core of the Ardennes. The principal … Show more

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Cited by 29 publications
(28 citation statements)
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“…Interpretation of the latter has been very helpful for the Cambrian core of the massif where magnetic and lithologic contrasts between the black shale in the Mousty Formation, the magnetite-bearing siltstones in the Tubize Formation and the quartzite in the Blanmont Formation are particularly important. Aeromagnetic data used are from Chacksfield et al (1993) and Everaerts (2000). The Bouguer gravity data and the filtered gravity data are taken from Chacksfield et al (2004).…”
Section: Methodsmentioning
confidence: 99%
“…Interpretation of the latter has been very helpful for the Cambrian core of the massif where magnetic and lithologic contrasts between the black shale in the Mousty Formation, the magnetite-bearing siltstones in the Tubize Formation and the quartzite in the Blanmont Formation are particularly important. Aeromagnetic data used are from Chacksfield et al (1993) and Everaerts (2000). The Bouguer gravity data and the filtered gravity data are taken from Chacksfield et al (2004).…”
Section: Methodsmentioning
confidence: 99%
“…Within the aeromagnetic high, several more aeromagnetic lineaments are present, oriented subparallel to the Asquempont lineament (De Vos et al 1993a;Belgian Geological Survey 1994). Like the latter, these have been interpreted as steep faults or shear zones (Chacksfield et al 1993), with a dextral to reverse displacement (Everaerts et al 1996;Sintubin 1997bSintubin , 1999Van Grootel et al 1997;Sintubin et al 1998;Mansy et al 1999). Whereas the reverse movement is mainly based on the erroneous equation of the Asquempont lineament with the Asquempont fault as described by Legrand (1967), the dextral sense of movement is based on the step-like, lobe-shaped morphology of the southern margin of the aeromag- (a), demonstrating the obliqueness between the approximate tectonic shortening direction (Sintubin 1999;Debacker 2001) and the normal to the steep NE margin of the low-density body, probably resulting in a dextral transpression.…”
Section: Geophysical Data and Comparison With Outcrop Datamentioning
confidence: 99%
“…In the SW part of the Brabant Massif a large, NW-SE-trending negative Bouguer anomaly occurs (Jones 1948;De Meyer 1983;Chacksfield et al 1993;De Vos et al 1993a;Lee et al 1993), modelled as a steep-sided low-density body with a roof at between 1 and 2 km depth in the shallowest parts ( Fig. 7; Everaerts et al 1996;De Vos 1997).…”
Section: Geophysical Data and Comparison With Outcrop Datamentioning
confidence: 99%
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