Due to high metal prices and increased difficulties in finding shallower deposits, the exploration for and exploitation of mineral resources is expected to move to greater depths. Consequently, seismic methods will become a more important tool to help unravel structures hosting mineral deposits at great depth for mine planning and exploration. These methods also can be used with varying degrees of success to directly target mineral deposits at depth. We review important contributions that have been made in developing these techniques for the mining industry with focus on four main regions: Australia, Europe, Canada, and South Africa. A wide range of case studies are covered, including some that are published in the special issue accompanyin...
Significant progress has been made towards the goal of generating detailed seismic images as an aid ...
A seismic survey was designed and conducted at the Hillside mineral deposit, York Peninsula, South A...
As the search for mineral deposits moves to greater depths, seismic methods, with its penetration ab...
The only geophysical method that can image deep structures with the precision required for targeting...
Very often, economically viable ore deposits are low in volume and located at depth within extremely...
We present an overview of the developments and achievements, over the past four years in the applica...
Mineral exploration has in recent years moved its focus to greater depths than ever before, particul...
Large areas of prospective mineral regions are buried by regolith cover and have been overlooked owi...
The role of geophysics in mineral exploration has expanded rapidly in recent decades, but in mining ...
The thesis examines the current VSP application in mineral exploration in Australia and identifies t...
Seismic reflection methods have been used for the exploration of mineral resources for several decade...
Many metallic mineral deposits have sufficient physical property contrasts, particularly density, to...
Traditional geophysical prospecting techniques used for mineral exploration rarely provide the resol...
The seismic reflection method has been used extensively in mineral exploration and for imaging crust...
Over recent years, seismic methods have emerged as a potential imaging technique for delineation of ...
Significant progress has been made towards the goal of generating detailed seismic images as an aid ...
A seismic survey was designed and conducted at the Hillside mineral deposit, York Peninsula, South A...
As the search for mineral deposits moves to greater depths, seismic methods, with its penetration ab...
The only geophysical method that can image deep structures with the precision required for targeting...
Very often, economically viable ore deposits are low in volume and located at depth within extremely...
We present an overview of the developments and achievements, over the past four years in the applica...
Mineral exploration has in recent years moved its focus to greater depths than ever before, particul...
Large areas of prospective mineral regions are buried by regolith cover and have been overlooked owi...
The role of geophysics in mineral exploration has expanded rapidly in recent decades, but in mining ...
The thesis examines the current VSP application in mineral exploration in Australia and identifies t...
Seismic reflection methods have been used for the exploration of mineral resources for several decade...
Many metallic mineral deposits have sufficient physical property contrasts, particularly density, to...
Traditional geophysical prospecting techniques used for mineral exploration rarely provide the resol...
The seismic reflection method has been used extensively in mineral exploration and for imaging crust...
Over recent years, seismic methods have emerged as a potential imaging technique for delineation of ...
Significant progress has been made towards the goal of generating detailed seismic images as an aid ...
A seismic survey was designed and conducted at the Hillside mineral deposit, York Peninsula, South A...
As the search for mineral deposits moves to greater depths, seismic methods, with its penetration ab...