Integration of ground-penetrating radar and microgravimetric methods to map shallow caves
Détails
ID Serval
serval:BIB_9772FA51C501
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Integration of ground-penetrating radar and microgravimetric methods to map shallow caves
Périodique
Journal of Applied Geophysics
ISSN-L
0926-9851
Statut éditorial
Publié
Date de publication
2001
Peer-reviewed
Oui
Volume
46
Pages
249 - 262
Langue
anglais
Notes
Beres2001
Résumé
Ground-penetrating radar (GPR) and microgravimetric surveys have been
conducted in the southern Jura mountains of western Switzerland in
order to map subsurface karstic features. The study site, La Grande
Rolaz cave, is an extensive system in which many portions have been
mapped. By using small station spacing and careful processing for
the geophysical data, and by modeling these data with topographic
information from within the cave, accurate interpretations have been
achieved.
The constraints on the interpreted geologic models are better when
combining the geophysical methods than when using only one of the
methods, despite the general limitations of two-dimensional (2D)
profiling. For example, microgravimetry can complement GPR methods
for accurately delineating a shallow cave section approximately 10
X 10 mt in size. Conversely, GPR methods can be complementary in
determining cavity depths and in verifying the presence of off-line
features and numerous areas of small cavities and fractures, which
may be difficult to resolve in microgravimetric data.
conducted in the southern Jura mountains of western Switzerland in
order to map subsurface karstic features. The study site, La Grande
Rolaz cave, is an extensive system in which many portions have been
mapped. By using small station spacing and careful processing for
the geophysical data, and by modeling these data with topographic
information from within the cave, accurate interpretations have been
achieved.
The constraints on the interpreted geologic models are better when
combining the geophysical methods than when using only one of the
methods, despite the general limitations of two-dimensional (2D)
profiling. For example, microgravimetry can complement GPR methods
for accurately delineating a shallow cave section approximately 10
X 10 mt in size. Conversely, GPR methods can be complementary in
determining cavity depths and in verifying the presence of off-line
features and numerous areas of small cavities and fractures, which
may be difficult to resolve in microgravimetric data.
Mots-clé
ground-penetrating radar, microgravimetry, caves, modeling
Création de la notice
25/11/2013 17:31
Dernière modification de la notice
20/08/2019 14:59