Details

Title

Application of Concentration-Number and Concentration-Volume Fractal Models to Recognize Mineralized Zones in North Anomaly Iron Ore Deposit, Central Iran / Zastosowanie Modeli Fraktalnych Typu K-L (Koncentracja-Liczba), Oraz K-O (Koncentracja Objętość) Do Rozpoznawania Stref Występowania Surowców Mineralnych W Regionie Złóż Rud Żelaza North Anomaly, W Środkowym Iranie

Journal title

Archives of Mining Sciences

Yearbook

2015

Numer

No 3

Authors

Divisions of PAS

Nauki o Ziemi

Publisher

Committee of Mining PAS

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Identifier

ISSN 0860-7001

References

Sadeghi (2012), Application of Fractal Models to Outline Mineralized Zones in the Zaghia Iron Ore Deposit Central Iran, Journal of Geochemical Exploration, 122. ; Carranza (2011), Analysis and Mapping of Geochemical Anomalies Using Logratio - Transformed Stream Sediment Data with Censored Values, Journal of Geochemical Exploration, 110. ; Afzal (2012), Application of powerspectrum - volume fractal method for detecting hypogene supergene enrichment leached and barren zones in Kahang Cu porphyry deposit Central Iran, Journal of Geochemical Exploration, 112. ; Monecke (2005), Truncated fractal frequency distribution of element abundance data : A dynamic model for the metasomatic enrichment of base and precious metals and, Earth Planetary Science Letters, 232. ; Agterberg (1995), Multifractal modeling of the sizes and Grades of Giant and Supergiant Deposits, International Geology Review, 37. ; Afzal (2009), modeling of North Anomaly iron ore Bafq Earth and Resources In Persian with English Abstract ), Journal, 3. ; Hitzman (1992), Geological characteristics and tectonic setting of Proterozoic iron oxide Au - REE ) deposits, Precambrian Research, 58. ; Afzal (2013), Delineation of gold mineralized zones using concentration - volume fractal model in Qolqoleh gold deposit NW Iran, Ore Geology Reviews, 55. ; Jami (2007), Fluid inclusion and stable isotope study of the Esfordi apatite - magnetite deposit Central Iran, Economic Geology, 102. ; Cheng (2009), Singularity analysis of ore - mineral and toxic trace elements in stream sediments, Computers Geosciences, 35, 234, doi.org/10.1016/j.cageo.2008.02.034 ; Li (2003), Application of a fractal method relating concentrations and distances for separation of geochemical anomalies from background, Journal of Geochemical Exploration, 77. ; Goncalves (2001), Characterization of Geochemical Distributions Using Multifractal Models, Math Geol, 33, 41, doi.org/10.1023/A:1007510209836 ; Afzal (2011), Delineation of Mineralization Zones in Porphyry Cu Deposits By Fractal Concentration - Volume Modeling, Journal of Geochemical Exploration, 108. ; Shayestehfar (2006), Petrology petrography and mineralographical studies of Choghart Iron Ore Mine Bafgh area Iran, Geochimica et Cosmochimica Acta, 70. ; Samani (1988), Metallogeny of the Precambrian in Iran, Precambrian Research, 39. ; Bai (2010), Mapping Geochemical Singularity Using Multifractal Analysis : Application to Anomaly Definition on Stream Sediments Data from Funin Sheet Yunnan China of Geochernical Exploration, Journal, 104. ; Sanderson (1994), A Fractal relationship between vein thickness and gold grade in drill core from La Codosera Spain, Economic Geology, 89. ; Förster (1994), The Bafq mining district in Central Iran - a highly mineralized Infracambrian volcanic field, Economic Geology, 89. ; Cheng (1994), The Separation of Geochemical Anomalies from Background by Fractal Methods, Journal of Geochemical Exploration, 51. ; Bonyadi (2011), Significance of apatite REE depletion and monazite inclusions in the brecciated Se - Chahun iron oxide - apatite deposit Bafq district Iran : insights from paragenesis and geochemistry, Chemical Geology, 281. ; Afzal (2010), Application of Power Spectrum - Area fractal model to separate anomalies from background in Kahang Cu - Mo Porphyry Deposit Central Iran, Arch Min Sci, 55. ; Zuo (2013), a Compositional data analysis in the study of integrated geochemical anomalies associated with mineralization, Applied Geochemistry, 28. ; Cheng (1999), Integrated spatial and spectral analysis for geochemical anomaly separation In of the Conference of the International Association for Mathematical Trondheim Norway, Proc Geology, 1.

DOI

10.1515/amsc-2015-0051

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