A regional model of the 3-D variation in seismic P-wave velocity structure in the crust of NW Europe has been compiled from wide-angle reflection/refraction profiles. Along each 2-D profile a velocity–depth function has been digitised at 5 km intervals. These 1-D velocity functions were mapped into three dimensions using ordinary kriging with weights determined to minimise the difference between digitised and interpolated values. An analysis of variograms of the digitised data suggested a radial isotropic weighting scheme was most appropriate. Horizontal dimensions of the model cells are optimised at 40 × 40 km and the vertical dimension at 1 km. The resulting model provides a higher resolution image of the 3-D variation in seismic velocity...
Abstract. Seismic techniques provide the highest-resolution measurements of the structure of the cru...
We built a 3D seismic model of the Po Plain and neighboring regions of northern Italy, covering alto...
his poster presents the ongoing development of a 3D Canterbury seismic velocity model which will be ...
A new seismic P-wave velocity model has been constructed for a region of northwest Europe encompassi...
Crustal receiver functions have been calculated for a network of 51 three-component broadband seismo...
A method is presented for deriving 1-D velocity depth models from earthquake bulletin data. The mod...
Magmatic underplating at the base of the continental crust is thought to be an important consequence...
For the past three decades, deep crustal studies of the British Isles have been restricted to the in...
International audienceSUMMARY The classical Backus–Gilbert method seeks localized Earth-structure av...
The 3D structural model covers 60 km by 80 km area around the city of Zagreb, Croatia, and extends t...
A 3D high-resolution model of the geologic structure and associated seismic velocities in the Canter...
A new three-dimensional crustal and upper mantle P-wave velocity model and a Moho depth map of Finla...
In this thesis we present a three-dimensional (3-D) seismic SV-wave speed model for the upper mantle...
The onshore crustal and upper mantle velocity structure of the British Isles has been investigated b...
We present a new digital model ( EuCRUST-07) for the crust of Western and Central Europe and surroun...
Abstract. Seismic techniques provide the highest-resolution measurements of the structure of the cru...
We built a 3D seismic model of the Po Plain and neighboring regions of northern Italy, covering alto...
his poster presents the ongoing development of a 3D Canterbury seismic velocity model which will be ...
A new seismic P-wave velocity model has been constructed for a region of northwest Europe encompassi...
Crustal receiver functions have been calculated for a network of 51 three-component broadband seismo...
A method is presented for deriving 1-D velocity depth models from earthquake bulletin data. The mod...
Magmatic underplating at the base of the continental crust is thought to be an important consequence...
For the past three decades, deep crustal studies of the British Isles have been restricted to the in...
International audienceSUMMARY The classical Backus–Gilbert method seeks localized Earth-structure av...
The 3D structural model covers 60 km by 80 km area around the city of Zagreb, Croatia, and extends t...
A 3D high-resolution model of the geologic structure and associated seismic velocities in the Canter...
A new three-dimensional crustal and upper mantle P-wave velocity model and a Moho depth map of Finla...
In this thesis we present a three-dimensional (3-D) seismic SV-wave speed model for the upper mantle...
The onshore crustal and upper mantle velocity structure of the British Isles has been investigated b...
We present a new digital model ( EuCRUST-07) for the crust of Western and Central Europe and surroun...
Abstract. Seismic techniques provide the highest-resolution measurements of the structure of the cru...
We built a 3D seismic model of the Po Plain and neighboring regions of northern Italy, covering alto...
his poster presents the ongoing development of a 3D Canterbury seismic velocity model which will be ...