Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity

We demonstrate spectral estimation of supraglacial dust, debris, ash and tephra geochemical composition from glaciers and ice fields in Iceland, Nepal, New Zealand and Switzerland. Surface glacier material was collected and analyzed via X-ray fluorescence spectroscopy (XRF) and X-ray diffraction (XR...

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Published in:Remote Sensing
Main Authors: Kimberly Casey, Andreas Kääb
Format: Text
Language:English
Published: Molecular Diversity Preservation International 2012
Subjects:
glaciology
remote sensing
supraglacial dust
tephra
reflectance
ASTER
MODIS
Hyperion
New Zealand
glacier
Iceland
Online Access:https://doi.org/10.3390/rs4092554
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spelling ftmdpi:oai:mdpi.com:/2072-4292/4/9/2554/ 2023-08-20T04:06:42+02:00 Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity Kimberly Casey Andreas Kääb 2012-09-07 application/pdf https://doi.org/10.3390/rs4092554 EN eng Molecular Diversity Preservation International https://dx.doi.org/10.3390/rs4092554 https://creativecommons.org/licenses/by/3.0/ Remote Sensing; Volume 4; Issue 9; Pages: 2554-2575 glaciology remote sensing supraglacial dust tephra reflectance ASTER MODIS Hyperion Text 2012 ftmdpi https://doi.org/10.3390/rs4092554 2023-07-31T20:29:56Z We demonstrate spectral estimation of supraglacial dust, debris, ash and tephra geochemical composition from glaciers and ice fields in Iceland, Nepal, New Zealand and Switzerland. Surface glacier material was collected and analyzed via X-ray fluorescence spectroscopy (XRF) and X-ray diffraction (XRD) for geochemical composition and mineralogy. In situ data was used as ground truth for comparison with satellite derived geochemical results. Supraglacial debris spectral response patterns and emissivity-derived silica weight percent are presented. Qualitative spectral response patterns agreed well with XRF elemental abundances. Quantitative emissivity estimates of supraglacial SiO2 in continental areas were 67% (Switzerland) and 68% (Nepal), while volcanic supraglacial SiO2 averages were 58% (Iceland) and 56% (New Zealand), yielding general agreement. Ablation season supraglacial temperature variation due to differing dust and debris type and coverage was also investigated, with surface debris temperatures ranging from 5.9 to 26.6 °C in the study regions. Applications of the supraglacial geochemical reflective and emissive characterization methods include glacier areal extent mapping, debris source identification, glacier kinematics and glacier energy balance considerations. Text glacier Iceland MDPI Open Access Publishing Hyperion ENVELOPE(-68.917,-68.917,-72.033,-72.033) New Zealand Remote Sensing 4 9 2554 2575
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic glaciology
remote sensing
supraglacial dust
tephra
reflectance
ASTER
MODIS
Hyperion
spellingShingle glaciology
remote sensing
supraglacial dust
tephra
reflectance
ASTER
MODIS
Hyperion
Kimberly Casey
Andreas Kääb
Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
topic_facet glaciology
remote sensing
supraglacial dust
tephra
reflectance
ASTER
MODIS
Hyperion
description We demonstrate spectral estimation of supraglacial dust, debris, ash and tephra geochemical composition from glaciers and ice fields in Iceland, Nepal, New Zealand and Switzerland. Surface glacier material was collected and analyzed via X-ray fluorescence spectroscopy (XRF) and X-ray diffraction (XRD) for geochemical composition and mineralogy. In situ data was used as ground truth for comparison with satellite derived geochemical results. Supraglacial debris spectral response patterns and emissivity-derived silica weight percent are presented. Qualitative spectral response patterns agreed well with XRF elemental abundances. Quantitative emissivity estimates of supraglacial SiO2 in continental areas were 67% (Switzerland) and 68% (Nepal), while volcanic supraglacial SiO2 averages were 58% (Iceland) and 56% (New Zealand), yielding general agreement. Ablation season supraglacial temperature variation due to differing dust and debris type and coverage was also investigated, with surface debris temperatures ranging from 5.9 to 26.6 °C in the study regions. Applications of the supraglacial geochemical reflective and emissive characterization methods include glacier areal extent mapping, debris source identification, glacier kinematics and glacier energy balance considerations.
format Text
author Kimberly Casey
Andreas Kääb
author_facet Kimberly Casey
Andreas Kääb
author_sort Kimberly Casey
title Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
title_short Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
title_full Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
title_fullStr Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
title_full_unstemmed Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity
title_sort estimation of supraglacial dust and debris geochemical composition via satellite reflectance and emissivity
publisher Molecular Diversity Preservation International
publishDate 2012
url https://doi.org/10.3390/rs4092554
long_lat ENVELOPE(-68.917,-68.917,-72.033,-72.033)
geographic Hyperion
New Zealand
geographic_facet Hyperion
New Zealand
genre glacier
Iceland
genre_facet glacier
Iceland
op_source Remote Sensing; Volume 4; Issue 9; Pages: 2554-2575
op_relation https://dx.doi.org/10.3390/rs4092554
op_rights https://creativecommons.org/licenses/by/3.0/
op_doi https://doi.org/10.3390/rs4092554
container_title Remote Sensing
container_volume 4
container_issue 9
container_start_page 2554
op_container_end_page 2575
_version_ 1774717988241408000

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