Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach

Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach

Many minerals, such as calcite and magnetite, show diagnostic overtone and combination bands in the 350-2500 nm window. Sand, though an important unconsolidated material with great abundance on the Earth’s surface, is largely overlooked in spectroscopic studies. Over 100 sand samples were analyzed t...

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Bibliographic Details
Other Authors: Smith, Molly E. (author)
Format: Others
Language:English
Published: Florida Atlantic University
Subjects:
Physical geology.
Environmental geology.
Coast changes > Analysis.
Beach erosion.
Sand > Optical properties.
Spectrophotometry.
Online Access:http://purl.flvc.org/fau/fd/FA00004634
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spelling ndltd-fau.edu-oai-fau.digital.flvc.org-fau_334932019-07-04T03:53:00Z Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach FA00004634 Smith, Molly E. (author) Oleinik, Anton E. (Thesis advisor) Zhang, Caiyun (Thesis advisor) Florida Atlantic University (Degree grantor) Charles E. Schmidt College of Science Department of Geosciences 66 p. application/pdf Electronic Thesis or Dissertation Text English Many minerals, such as calcite and magnetite, show diagnostic overtone and combination bands in the 350-2500 nm window. Sand, though an important unconsolidated material with great abundance on the Earth’s surface, is largely overlooked in spectroscopic studies. Over 100 sand samples were analyzed through traditional microscopic methods and compared to spectral reflectance collected via an ASD Spectroradiometer. Multiple methods were chosen to compare spectroscopic data to sand composition and grain size: 1) existing spectral indices, 2) continuum removal, 3) derivative analysis, and 4) correlation analysis. Particular focus was given to carbonate content. Results from derivative and correlation analysis showed strong correlations in the 2180-2240 nm and 2300-2360 nm windows to carbonate content. Proposed here is the Normalized Difference Carbonate Sand Index (NDCSI), which showed Pearson correlations of r=-0.78 for light-colored samples and r=-0.77 for all samples used. This index is viable for use with carbonate-rich sands. Florida Atlantic University Physical geology. Environmental geology. Coast changes--Analysis. Beach erosion. Sand--Optical properties. Spectrophotometry. Includes bibliography. Thesis (M.S.)--Florida Atlantic University, 2016. FAU Electronic Theses and Dissertations Collection Copyright © is held by the author, with permission granted to Florida Atlantic University to digitize, archive and distribute this item for non-profit research and educational purposes. Any reuse of this item in excess of fair use or other copyright exemptions requires permission of the copyright holder. http://purl.flvc.org/fau/fd/FA00004634 http://rightsstatements.org/vocab/InC/1.0/ https://fau.digital.flvc.org/islandora/object/fau%3A33493/datastream/TN/view/Sand%20Compositional%20Analysis%20Using%20a%20Combined%20Geological%20and%20Spectroscopic%20Approach.jpg
collection NDLTD
language English
format Others
sources NDLTD
topic Physical geology.
Environmental geology.
Coast changes--Analysis.
Beach erosion.
Sand--Optical properties.
Spectrophotometry.
spellingShingle Physical geology.
Environmental geology.
Coast changes--Analysis.
Beach erosion.
Sand--Optical properties.
Spectrophotometry.
Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
description Many minerals, such as calcite and magnetite, show diagnostic overtone and combination bands in the 350-2500 nm window. Sand, though an important unconsolidated material with great abundance on the Earth’s surface, is largely overlooked in spectroscopic studies. Over 100 sand samples were analyzed through traditional microscopic methods and compared to spectral reflectance collected via an ASD Spectroradiometer. Multiple methods were chosen to compare spectroscopic data to sand composition and grain size: 1) existing spectral indices, 2) continuum removal, 3) derivative analysis, and 4) correlation analysis. Particular focus was given to carbonate content. Results from derivative and correlation analysis showed strong correlations in the 2180-2240 nm and 2300-2360 nm windows to carbonate content. Proposed here is the Normalized Difference Carbonate Sand Index (NDCSI), which showed Pearson correlations of r=-0.78 for light-colored samples and r=-0.77 for all samples used. This index is viable for use with carbonate-rich sands. === Includes bibliography. === Thesis (M.S.)--Florida Atlantic University, 2016. === FAU Electronic Theses and Dissertations Collection
author2 Smith, Molly E. (author)
author_facet Smith, Molly E. (author)
title Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
title_short Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
title_full Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
title_fullStr Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
title_full_unstemmed Sand Compositional Analysis Using a Combined Geological and Spectroscopic Approach
title_sort sand compositional analysis using a combined geological and spectroscopic approach
publisher Florida Atlantic University
url http://purl.flvc.org/fau/fd/FA00004634
_version_ 1719219094070231040

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