Scaling Laws for the Distribution of Gold, Geothermal, and Gas Resources

Blenkinsop, Thomas G.

doi:10.1007/s00024-014-0909-5

Cited by 9 publications

(3 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This type of analysis, developed in three dimensions, would seem highly suited to evaluating the resource potential of stockworks. Network analysis is closely aligned to percolation theory (Stauffer and Aharony, 1994), which has interesting potential for understanding hydrothermal mineralization (Blenkinsop, 2014). Networks are also useful to describe 3D model topologies (Thiele et al, 2016a(Thiele et al, , 2016b.…”

Section: Geometrymentioning

confidence: 98%

Chapter 1: Structural Geology Applied to the Evaluation of Hydrothermal Gold Deposits

Blenkinsop¹,

Oliver²,

Dirks³

et al. 2020

Applied Structural Geology of Ore-Forming Hydrothermal Systems

View full text Add to dashboard Cite

The structural geology and tectonic setting of hydrothermal gold deposits are paramount in understanding their genesis, and for their exploration. Strong structural control on mineralization is one of the defining features of these deposits, and arises because the permeabilities of crustal rocks are too low to allow the formation of hydrothermal deposits on realistic time scales unless rocks are deformed. Deformation zones and networks of deformation zones are the fundamental structures that control mineralization. Systematically analyzing deposit geometry, kinematics and dynamics leads to the most thorough comprehension of a deposit. Geometrical analysis relates ore body shape to controlling structures, and networks of deformation zones can be analyzed using topology to understand their connectivity and mineralizing potential. Kinematic analysis determines the location of permeability creation and mineralization. New views of shear zone kinematics allow for variable ratios of pure to simple shear, which change likely directions of mineralization. Multiple orientations of mineralized deformation zones may form simultaneously and symmetrically about the principal strain axes. Dynamic analysis is necessary for a mechanical understanding of deformation, fluid flow and mineralization, and can be achieved through numerical modeling. The relationship between deformation (kinematics) and stress (dynamics) constitutes the rheology: rheological contrasts are critical for the localization of many deposits. Numerous gold deposits, especially the largest, have evidence for multiple mineralizing events that may be separated by tens to hundreds of millions of years. In these cases, reactivation of structures is common, and a range of orientations of pre-existing structures are predicted to be reactivated, given that they are weaker than intact rock. Physical and chemical processes of mineralization can be integrated using a nonequilibrium thermodynamics approach.Hydrothermal gold deposits form in contractional, strike-slip and extensional tectonic settings.However there may be great variation in the spatial scale over which the tectonic setting applies, and tectonic settings may also change on rapid time scales, so that it is inadvisable to infer local tectonics from deposit-scale patterns, and visa versa. It is essential to place mineralizing events within a complete geological history in order to distinguish pre-and post-mineralizing structures from syn-mineralization deformation features.

show abstract

Section: Geometrymentioning

confidence: 98%

Chapter 1: Structural Geology Applied to the Evaluation of Hydrothermal Gold Deposits

Blenkinsop¹,

Oliver²,

Dirks³

et al. 2020

Applied Structural Geology of Ore-Forming Hydrothermal Systems

View full text Add to dashboard Cite

show abstract

“…is the fractal dimension, and C is a proportionality constant. Each dimension corresponds to one scale-free (linear) segment and reflects the number of pixels or the summation of the pixel values that are equal to and greater than the corresponding r [36]. Taking the logarithms of the above formula, we obtain the following:…”

Section: B Cloud Extraction Based On the Fractal Summation Modelmentioning

confidence: 99%

Cloud Extraction Scheme for Multi-Spectral Images Using Landsat-8 OLI Images With High Brightness Reflectivity Covered

Han

2020

IEEE Access

View full text Add to dashboard Cite

Cloud extraction is a vital step in remote sensing image processing. Although many advanced cloud extraction methods have been proposed and confirmed to be effective in recent years, there are still difficulties in cloud extraction in areas of high brightness reflectivity covered. High brightness reflectivity cover can have similar spectral characteristics as clouds, and thus, it is easily confused with clouds in cloud extraction schemes. This work presents a novel scheme designed to extract clouds in satellite imagery with high brightness reflectivity covered. The fractal summation method and spatial analysis are used to extract the clouds in the Landsat 8 Operational Land Imager (OLI) images containing high brightness reflectivity covered. The scheme consists of three main steps: cloud extraction based on pixel values, Anselin Local Moran's I value, and anisotropy. Pixel values were applied to extract the clouds associated with anomalies, and the last two steps were conducted to eliminate false anomalies. The findings showed that the cloudassociated anomaly pixel-values well approximate a power-law function, but both the real and fake anomaly patches (e.g., snow/ice, desert, etc.) routinely coexist within the same (fractal) scaleless segments, and that the latter seems to be more significant than the former. Consequently, these results indicate that the diagnostic difference between true and false anomalies must lie in their spatial distribution patterns. Furthermore, experiments confirmed that the fractal dimension and spatial distribution (i.e. Anselin Local Moran's I index and anisotropy) difference between the real and false anomalies displayed a certain universality. The proposed scheme effectively reduces the confusion and misclassification caused by cloud, snow and the highlighted underlying surface. It is of great significance for cloud restoration processing, image analysis, image matching, target detection and extraction, and effective extraction and utilization of remote sensing data.

show abstract

“…Generally, this model can be represented as follows:

N ((), r) = {Cr}^{- D} ((), r > 0),

where r is the characteristic linear measure; in this case, it is the logarithmic pixel values; C is the constant of proportionality (prefactor parameter); D is well known as the fractal dimension; N( r ) is equal to the number or summation of pixel values greater than or equal to r , namely, N( r ) = N (≥ r ). This formula always has a scale invariant property (Blenkinsop, ).…”

Section: Analysis Of Multispectral Imagementioning

confidence: 99%

A new method for extraction of alteration information using the Landsat 8 imagery in a heavily vegetated and sediments‐covered region: A case study from Zhejiang Province, E. China

Han

Zhao

et al. 2017

Geological Journal

View full text Add to dashboard Cite

Ore prediction based on the Operational Land Imager (ETM+) image within the heavily vegetated and sediments‐covered areas is always a difficulty for geological remote sensing. Here, we report a new scheme for extraction of near‐ore alteration information in such localities: Terrain Analysis → principal component analysis →Fractal → Spatial Overlay and the Fe3+–OH− integrated anomalies that are punctate and probably ore‐caused were reasonably exposed. Findings showed a satisfactory result that the spatial, if not genetic, dependency relationship between the remotely sensed anomalies and geochemical anomalies, as well as the ore‐controlling geological bodies, is significant. However, no substantial spectral anomalies of vegetation immediately responsible for local mineralization and alteration were detected. This study may have contributed a useful case study for in‐depth remote sensing exploration.

show abstract

Scaling Laws for the Distribution of Gold, Geothermal, and Gas Resources

Cited by 9 publications

References 47 publications

Chapter 1: Structural Geology Applied to the Evaluation of Hydrothermal Gold Deposits

Chapter 1: Structural Geology Applied to the Evaluation of Hydrothermal Gold Deposits

Cloud Extraction Scheme for Multi-Spectral Images Using Landsat-8 OLI Images With High Brightness Reflectivity Covered

A new method for extraction of alteration information using the Landsat 8 imagery in a heavily vegetated and sediments‐covered region: A case study from Zhejiang Province, E. China

Contact Info

Product

Resources

About