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Determining hematite content from NUV/Vis/NIR spectra: Limits of detection

  • William Balsam EMAIL logo , Junfeng Ji , Devon Renock , Bobby C. Deaton and Earle Williams
Published/Copyright: November 12, 2014
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American Mineralogist
From the journal American Mineralogist Volume 99 Issue 11-12

Abstract

Hematite occurs in various geologic settings including igneous, metamorphic, and sedimentary rocks as well as in soils. However, it frequently occurs at low concentrations, especially in soils, where it may be <1% by weight. Because hematite has the potential to be an indicator of oxidizing and climatic conditions in soils and paleosols, it is important to understand its limit of detection. In this paper we examine the limits of detection of hematite visually and with diffuse reflectance spectrophotometry (DRS) and X‑ray diffraction (XRD). To accomplish this we used a sample set consisting of “knowns” or calibration samples. These known samples consisted of 15 different matrices of varying mineral composition into which hematite in 7 different concentrations ranging from 0.01 to 4% by weight were mixed. Including the 0% hematite, our calibration data set consisted of 120 samples. Visually, hematite can be detected at a concentration of 0.01% by weight in a light matrix and 0.5% in the darkest of our matrices. However, because of metamerism, visual techniques cannot specifically identify hematite. We find that for both DRS and XRD the limit of detection is also dependent on the matrix. For XRD the limit of detection for hematite in bulk samples is about 1%. For DRS the limit of detection depends on the data reduction technique used. The commonly used Kubelka-Munk remission function and its first and second derivatives can easily identify hematite at the 0.5% level. However, the first derivative of the percent reflectance curve can detect hematite at 0.01% by weight in a light matrix and 0.05% in a dark matrix. We suggest that the first derivative of DRS curves is the best currently available method for qualitatively detecting the mineral hematite at low concentrations found in soils, sediments, and rocks.

Work described in this paper may be applied in several situations. Our study of visual limits of hematite detection should aid field geologists in assessing hematite content. Analysis of color wavelength bands may also have application in remote sensing by indicating which bands are most sensitive to hematite, reported to be an important constituent of the martian surface. Furthermore, this study could help clarify remotely sensed terrestrial albedo changes, especially the Sahara/Sahel transition where the sediments change from light, quartz-dominated to dark, hematite-dominated. Our study also points out that with laboratory-based spectra the first derivative of the reflectance curve is the most sensitive transform for processing spectral data for hematite, thereby allowing concentrations as low as 0.01% to be detected.

Keywords : Hematite; first derivative transform; color; diffuse reflectance spectrophotometry; Kubelka-Munk remission function; XRD
Received: 2014-1-12
Accepted: 2014-6-4
Published Online: 2014-11-12
Published in Print: 2014-11-1

© 2014 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am-2014-4878
Keywords for this article
Hematite; first derivative transform; color; diffuse reflectance spectrophotometry; Kubelka-Munk remission function; XRD

Articles in the same Issue

  1. Highlights and Breakthroughs Merrillite and apatite as recorders of planetary magmatic processes
  2. Highlights and Breakthroughs Comparing clays from Mars and Earth: Implications for martian habitability
  3. Data-driven abductive discovery in mineralogy
  4. Thermal expansion of fluorapatite-hydroxylapatite crystalline solutions
  5. Synthesis and structure of carbonated barium and lead fluorapatites: Effect of cation size on A-type carbonate substitution
  6. Optical absorption spectroscopy study of the causes for color variations in natural Fe-bearing gahnite: Insights from iron valency and site distribution data
  7. Si-magnetite nano-precipitates in silician magnetite from banded iron formation: Z-contrast imaging and ab initio study
  8. Ordering kinetics in synthetic Mg(Al,Fe3+)2O4 spinels: Quantitative elucidation of the whole Al-Mg-Fe partitioning, rate constants, activation energies
  9. Experimental study of phlogopite reaction rim formation on olivine in phonolite melts: Kinetics, reaction rates, and residence times
  10. Etch-pit size, dissolution rate, and time in the experimental dissolution of olivine: Implications for estimating olivine lifetime at the surface of Mars
  11. Ferrian saponite from the Santa Monica Mountains (California, U.S.A., Earth): Characterization as an analog for clay minerals on Mars with application to Yellowknife Bay in Gale Crater
  12. A large spectral survey of small lunar craters: Implications for the composition of the lunar mantle
  13. In-situ characterization of oxalic acid breakdown at elevated P and T: Implications for organic C-O-H fluid sources in petrologic experiments
  14. Slawsonite-celsian-hyalophane assemblage from a picrite sill (Prague Basin, Czech Republic)
  15. Determining hematite content from NUV/Vis/NIR spectra: Limits of detection
  16. The role of water in generation of group II kimberlite magmas: Constraints from multiple saturation experiments
  17. Quantum mechanical modeling of hydrolysis and H2O-exchange in Mg-, Ca-, and Nisilicate clusters: Implications for dissolution mechanisms of olivine minerals
  18. Redox-driven exsolution of iron-titanium oxides in magnetite in Miller Range (MIL) 03346 nakhlite: Evidence for post crystallization oxidation in the nakhlite cumulate pile?
  19. Energetics of lanthanide-doped calcium phosphate apatite
  20. Thermal conductivity of molten and glassy NaAlSi3O8, CaMgSi2O6, and Mg2SiO4 by non-equilibrium molecular dynamics at elevated temperature and pressure
  21. Energetics of heterometal substitution in ε-Keggin [MO4Al12(OH)24(OH2)12]6/7/8+ ions
  22. Ab initio calculations of elastic constants of plagioclase feldspars
  23. Diagenetic formation of interlayer-deficient fluorophlogopite as a clay mineral in Early Cambrian phosphorite (Lesser Himalaya, India): The trioctahedral analog of illite
  24. Natural sepiolite: Enthalpies of dehydration, dehydroxylation, and formation derived from thermochemical studies
  25. A new interpretation of decomposition products of serpentine under shock compression
  26. model for calculating the viscosity of natural iron-bearing silicate melts over a wide range of temperatures, pressures, oxygen fugacites, and compositions
  27. The replacement of chalcopyrite by bornite under hydrothermal conditions
  28. Characterization of porosity in sulfide ore minerals: A USANS/SANS study
  29. Synthesis of a quenchable high-pressure form of magnetite (h-Fe3O4) with composition Fel(Fe2+0.75Mg0.26)Fe2(Fe3+ 0.70Cr0.15Al0.11Si0.04)2O4
  30. High-pressure elasticity of sodium majorite garnet, Na2MgSi5O12
  31. Armstrongite from Khan Bogdo (Mongolia): Crystal structure determination and implications for zeolite-like cation exchange properties
  32. Steinhardtite, a new body-centered-cubic allotropic form of aluminum from the Khatyrka CV3 carbonaceous chondrite
  33. New Mineral Names
  34. Book Review
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