Airborne electromagnetic hydrocarbon mapping in Mozambique
Andreas A. Pfaffhuber 1 4 Ståle Monstad 2 Jonathan Rudd 31 NGI, P.O. Box 3930 Ullevaal Stadion, Oslo 0806, Norway.
2 DNO International ASA, Standen 1, Aker Brygge, Oslo 0113, Norway.
3 Aeroquest Ltd, 7687 Bath Road, Mississauga ON, L4T 3T1, Canada.
4 Corresponding author. Email: aap@ngi.no
Exploration Geophysics 40(3) 237-245 https://doi.org/10.1071/EG09011
Submitted: 30 June 2009 Published: 21 September 2009
Abstract
The Inhaminga hydrocarbon exploration licence in central Mozambique sets the location for a multi-method airborne geophysical survey. The size of the Inhaminga block, spanning some 16 500 km2 from Beira to the Zambezi, limited available data and a tight exploration schedule made an airborne survey attractive for the exploration portfolio. The aim of the survey was to map hydrocarbon seepage zones based on the evidence that seepage may create resistivity, radiometric and sometimes magnetic anomalies. The survey involved a helicopter-borne time domain electromagnetic induction system (AEM) and a fixed wing magnetic gradiometer and radiometer.
Our data analysis highlights an anomaly extending some tens of kilometres through the survey area along the eastern margin of the Urema Graben. The area is imaged by AEM as a shallow resistive unit below a strong surface conductor and shows high Uranium and low Potassium concentrations (normalised to mean Thorium ratios). A seismic dimming zone on a 2D seismic line crossing the area coincides with the resistivity and radiometric anomaly. The geological exploration model expects seepage to be linked to the graben fault systems and an active seep has been sampled close to the anomaly. We thus interpret this anomaly to be associated with a gas seepage zone. Further geological ground work and seismic investigations are planned to assess this lead.
Airborne data has further improved the general understanding of the regional geology allowing spatial mapping of faults and other features from 2D seismic lines crossing the survey area.
Key words: AEM, case history, gas seepage, helicopter EM, hydrocarbons, near surface, spectrometry, TEM.
Acknowledgements
We are most grateful to DNO International ASA for initiating and funding this study and for giving permission to publish these results from an active exploration licence. Excellent communication and cooperation with the contractors Aeroquest Ltd and UTS Geophysics was highly appreciated. AAP is highly grateful to Ross W. Groom of PetrosEikon Inc., Canada for extensive scientific advice during all stages of this project.
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