Quantitative analysis of tin and tungsten bearing sheeted vein systems
Quantitative analysis of tin and tungsten bearing sheeted vein systems
Several methods are investigated for the quantitative analysis of a range of Sn-W sheeted vein systems from southwest England and Spain. The methods are based on fractal concepts and include the measurement of vein thickness and spacing distributions, and the development of a multifractal interval-counting method, equivalent to box counting in two dimensions. The results indicate that sets of subparallel veins are generally distributed randomly or with only slight clustering, and develop from fracture systems in which the spacing of veins is homogeneous. The opening of the veins is much more heterogeneous, suggesting localization of subsequent deformation and flow. This is especially true in mineralized areas and, together with power-law distributions of vein thickness, can be used to characterize mineralized systems.
New data presented in this paper suggest that fracture evolution may play a fundamental role in defining the location and style of Sn-W mineralization observed. Greisen-dominated and disseminated Sn-W systems develop where the initial fracture system dominates the fluid flow regime, whereas sheeted vein systems are best developed where stress-induced critical behavior of flow in fracture networks controls the permeability and fluid flow of the system
1043-1056
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9
Roberts, Stephen
fef5d01c-92bd-44cf-93f0-923ec24f8875
Gumiel, Pablo
da4b627d-85ed-45ea-b4c3-9482975f783a
Greenfield, Catherine
e74c9029-4cb9-43e3-8598-60cb4110e3b5
August 2008
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9
Roberts, Stephen
fef5d01c-92bd-44cf-93f0-923ec24f8875
Gumiel, Pablo
da4b627d-85ed-45ea-b4c3-9482975f783a
Greenfield, Catherine
e74c9029-4cb9-43e3-8598-60cb4110e3b5
Sanderson, David J., Roberts, Stephen, Gumiel, Pablo and Greenfield, Catherine
(2008)
Quantitative analysis of tin and tungsten bearing sheeted vein systems.
Economic Geology, 103 (5), .
(doi:10.2113/gsecongeo.103.5.1043).
Abstract
Several methods are investigated for the quantitative analysis of a range of Sn-W sheeted vein systems from southwest England and Spain. The methods are based on fractal concepts and include the measurement of vein thickness and spacing distributions, and the development of a multifractal interval-counting method, equivalent to box counting in two dimensions. The results indicate that sets of subparallel veins are generally distributed randomly or with only slight clustering, and develop from fracture systems in which the spacing of veins is homogeneous. The opening of the veins is much more heterogeneous, suggesting localization of subsequent deformation and flow. This is especially true in mineralized areas and, together with power-law distributions of vein thickness, can be used to characterize mineralized systems.
New data presented in this paper suggest that fracture evolution may play a fundamental role in defining the location and style of Sn-W mineralization observed. Greisen-dominated and disseminated Sn-W systems develop where the initial fracture system dominates the fluid flow regime, whereas sheeted vein systems are best developed where stress-induced critical behavior of flow in fracture networks controls the permeability and fluid flow of the system
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Published date: August 2008
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Local EPrints ID: 74225
URI: http://eprints.soton.ac.uk/id/eprint/74225
ISSN: 0361-0128
PURE UUID: f6990704-b20c-422d-bd91-20b110afc7e1
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Date deposited: 12 Mar 2010
Last modified: 14 Mar 2024 02:53
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Author:
Stephen Roberts
Author:
Pablo Gumiel
Author:
Catherine Greenfield
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