Mapping basement relief with airborne gravity gradiometry

Clive A. Foss

doi:10.1071/ASEG2001ab042

ISSN: 2202-0586
E-ISSN:

oa Mapping basement relief with airborne gravity gradiometry
Authors Clive A. Foss^a
View Affiliations Hide Affiliations

^a Encom Technology, Australia [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2001, Issue ASEG2001 - 15th Geophysical Conference, Dec 2001, p. 1 - 4
DOI: https://doi.org/10.1071/ASEG2001ab042
- Published online: 01 Dec 2001

Abstract

Airborne measurement of gravity tensor components provides a new means of high-resolution mapping of the gravity field. The tensor components attenuate more rapidly with increase in source depth than does gravity, so these methods are best suited to the investigation of shallow sources. A primary use of gravity studies in both petroleum and mineral exploration is the mapping of basement relief.

In this study gravity tensor variations have been computed over a complex model representing a horizontally and vertically faulted basement surface. Simulated measurement noise was added to the model output to create synthetic data sets. This synthetic data was then inverted to investigate the limitations of recovering basement structure from the data.

The model results presented in this study show that gravity gradients over wide and extensive vertical steps in a 0.4 gm/cc interface with amplitude +/- 10% of depth can be reasonably inverted up to noise levels of approximately 10 E.u rms. Multi-profile inversions substantially outperformed single profile inversions, indicating their value in suppressing random profile to profile noise.

Article metrics loading...

/content/journals/10.1071/ASEG2001ab042

2001-12-01

2026-01-14

From This Site

/content/journals/10.1071/ASEG2001ab042

dcterms_title,dcterms_subject,pub_keyword

-contentType:Journal -contentType:Contributor -contentType:Concept -contentType:Institution

10

5

Full text loading...

References

Barnett, C.T., 1976, Theoretical modelling of the magnetic and gravitational fields of an arbitrarily shaped three dimensional body: Geophysics, 41, 1353-1364.
Coggan, J.H., 1976, The magnetic and gravity anomalies of polyhedra: Geoexploration, 14, 93-105.
Marquardt, D.W., 1970, Generalised inverses, ridge regression, biased linear estimation, and nonlinear estimation: Technometrics, 12, 591-612.
Pratt, D.A, Foss. C.A., Shi, Z., Mann, S., White, AS. & McKenzie, K.B., 2000, ModelVision Pro, AutoMag Reference Manual, Encom Technology, 459p.

/content/journals/10.1071/ASEG2001ab042

Article Type: Research Article

Keyword(s): airborne; gravity; inversion; modelling; tensor

Most Cited This Month Most Cited RSS feed

- Inversion of data from electrical imaging surveys in water-covered areas
  
  Authors M. H. Loke and J. W. Lane
- Inversion of Magnetic Data from Remanent and Induced Sources
  
  Authors Robert G. Elllis, Barrry de Wet and Ian N. Macleod
- A comparison of smooth and blocky inversion methods in 2-D electrical imaging surveys
  
  Authors M. H. Loke, Ian Acworth and Torleif Dahlin
- Designing matched bandpass and azimuthal filters for the separation of potential-field anomalies by source region and source type
  
  Authors Jeffrey D. Phillips
- Bad Colour Maps Hide Big Features and Create False Anomalies
  
  Authors Peter Kovesi
- Practical 3D EM inversion – the P223F software suite
  
  Authors Art Raiche, Fred Sugeng and Glenn Wilson
- Estimating Noise Levels in AEM Data
  
  Authors Andy Green and Richard Lane
- Target delineation using Full Tensor Gravity Gradiometry data
  
  Authors Colm A. Murphy and James Brewster
- Transdimensional Monte Carlo Inversion of AEM Data
  
  Authors Ross C Brodie and Malcolm Sambridge
- The geotech VTEM time domain helicopter em system
  
  Authors Ken Witherly, Richard Irvine and Edward Morrison
More Less

oa Mapping basement relief with airborne gravity gradiometry

Abstract

Most Read This Month

Most Cited This Month Most Cited RSS feed