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Main Authors: Dubreuil, Geoffrey, Harlaux, Matthieu, Martelet, Guillaume, Vic, Guillaume, Bernard, Julien, Reninger, Pierre-Alexandre, Raingeard, Anne, Dubois, Frédéric, Peyrefitte, Aurélie
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.20035
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author Dubreuil, Geoffrey
Harlaux, Matthieu
Martelet, Guillaume
Vic, Guillaume
Bernard, Julien
Reninger, Pierre-Alexandre
Raingeard, Anne
Dubois, Frédéric
Peyrefitte, Aurélie
author_facet Dubreuil, Geoffrey
Harlaux, Matthieu
Martelet, Guillaume
Vic, Guillaume
Bernard, Julien
Reninger, Pierre-Alexandre
Raingeard, Anne
Dubois, Frédéric
Peyrefitte, Aurélie
contents In the last decade, EU became aware of its dependency on mining countries for mineral resources. In that context in 2022, France launched new airborne geophysical surveys in the Limousin region (northwestern French Massif Central) which is historically renown for its gold, uranium, tungsten and tin production. Thanks to these new data, it has become possible to both explore the Saint-Goussaud - Auriat zone, centered on the Puy-les-Vignes tungsten deposit and to investigate the numerous W occurrences. To do so, direct geophysical modelling using gravimetric, airborne magnetic and electromagnetic data has allowed to create a 3D regional model. It mainly illustrates locations where evolved granites deepen, possibly associated with hidden granitic cupolas. Besides, electromagnetic data have been analysed to highlight conductive anomalies. The lineament analysis has contributed to identify a conductive corridor, interpreted as a regional structure. Conductive vertical conduits, which are spatially close to mineralized occurrences and stream-sediment anomalies have also been spotted. This new method has thus allowed generating new elements which could be combined and could have implications for granite-related tungsten exploration in this region.
format Preprint
id arxiv_https___arxiv_org_abs_2409_20035
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multimethod geophysical modelling for granite-related tungsten exploration: example of the Puy-les-Vignes/ Saint-Goussaud district (Limousin, France)
Dubreuil, Geoffrey
Harlaux, Matthieu
Martelet, Guillaume
Vic, Guillaume
Bernard, Julien
Reninger, Pierre-Alexandre
Raingeard, Anne
Dubois, Frédéric
Peyrefitte, Aurélie
Geophysics
In the last decade, EU became aware of its dependency on mining countries for mineral resources. In that context in 2022, France launched new airborne geophysical surveys in the Limousin region (northwestern French Massif Central) which is historically renown for its gold, uranium, tungsten and tin production. Thanks to these new data, it has become possible to both explore the Saint-Goussaud - Auriat zone, centered on the Puy-les-Vignes tungsten deposit and to investigate the numerous W occurrences. To do so, direct geophysical modelling using gravimetric, airborne magnetic and electromagnetic data has allowed to create a 3D regional model. It mainly illustrates locations where evolved granites deepen, possibly associated with hidden granitic cupolas. Besides, electromagnetic data have been analysed to highlight conductive anomalies. The lineament analysis has contributed to identify a conductive corridor, interpreted as a regional structure. Conductive vertical conduits, which are spatially close to mineralized occurrences and stream-sediment anomalies have also been spotted. This new method has thus allowed generating new elements which could be combined and could have implications for granite-related tungsten exploration in this region.
title Multimethod geophysical modelling for granite-related tungsten exploration: example of the Puy-les-Vignes/ Saint-Goussaud district (Limousin, France)
topic Geophysics
url https://arxiv.org/abs/2409.20035