High resolution 3D confocal microscope imaging of volcanic ash particles
We present initial results from a novel high resolution confocal microscopy study of the 3D surface structure of volcanic ash particles from two recent explosive basaltic eruptions, Eyjafjallajökull (2010) and Grimsvötn (2011), in Iceland. The majority of particles imaged are less than 100 μm in siz...
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ftunorthamptoncr:oai:pure.atira.dk:publications/777435b9-d238-49f5-ac60-3c3e22165318 2023-05-15T16:09:35+02:00 High resolution 3D confocal microscope imaging of volcanic ash particles Wertheim, David Gillmore, Gavin Gill, Ian Petford, Nick 2017-07-15 application/pdf https://pure.northampton.ac.uk/en/publications/777435b9-d238-49f5-ac60-3c3e22165318 https://doi.org/10.1016/j.scitotenv.2017.02.230 http://nectar.northampton.ac.uk/id/document/20590 eng eng info:eu-repo/semantics/openAccess Wertheim , D , Gillmore , G , Gill , I & Petford , N 2017 , ' High resolution 3D confocal microscope imaging of volcanic ash particles ' , Science of The Total Environment , vol. 590-591 . https://doi.org/10.1016/j.scitotenv.2017.02.230 Volcanic ash particles microscopy confocal article 2017 ftunorthamptoncr https://doi.org/10.1016/j.scitotenv.2017.02.230 2023-01-12T13:56:48Z We present initial results from a novel high resolution confocal microscopy study of the 3D surface structure of volcanic ash particles from two recent explosive basaltic eruptions, Eyjafjallajökull (2010) and Grimsvötn (2011), in Iceland. The majority of particles imaged are less than 100 μm in size and include PM10s, known to be harmful to humans if inhaled. Previous studies have mainly used 2D microscopy to examine volcanic particles. The aim of this study was to test the potential of 3D laser scanning confocal microscopy as a reliable analysis tool for these materials and if so to what degree high resolution surface and volume data could be obtained that would further aid in their classification. First results obtained using an Olympus LEXT scanning confocal microscope with a × 50 and × 100 objective lens are highly encouraging. They reveal a range of discrete particle types characterised by sharp or concave edges consistent with explosive formation and sudden rupture of magma. Initial surface area/volume ratios are given that may prove useful in subsequent modelling of damage to aircraft engines and human tissue where inhalation has occurred. Article in Journal/Newspaper Eyjafjallajökull Iceland University of Northampton's Research Explorer Olympus ENVELOPE(156.767,156.767,-80.217,-80.217) Science of The Total Environment 590-591 838 842 |
institution |
Open Polar |
collection |
University of Northampton's Research Explorer |
op_collection_id |
ftunorthamptoncr |
language |
English |
topic |
Volcanic ash particles microscopy confocal |
spellingShingle |
Volcanic ash particles microscopy confocal Wertheim, David Gillmore, Gavin Gill, Ian Petford, Nick High resolution 3D confocal microscope imaging of volcanic ash particles |
topic_facet |
Volcanic ash particles microscopy confocal |
description |
We present initial results from a novel high resolution confocal microscopy study of the 3D surface structure of volcanic ash particles from two recent explosive basaltic eruptions, Eyjafjallajökull (2010) and Grimsvötn (2011), in Iceland. The majority of particles imaged are less than 100 μm in size and include PM10s, known to be harmful to humans if inhaled. Previous studies have mainly used 2D microscopy to examine volcanic particles. The aim of this study was to test the potential of 3D laser scanning confocal microscopy as a reliable analysis tool for these materials and if so to what degree high resolution surface and volume data could be obtained that would further aid in their classification. First results obtained using an Olympus LEXT scanning confocal microscope with a × 50 and × 100 objective lens are highly encouraging. They reveal a range of discrete particle types characterised by sharp or concave edges consistent with explosive formation and sudden rupture of magma. Initial surface area/volume ratios are given that may prove useful in subsequent modelling of damage to aircraft engines and human tissue where inhalation has occurred. |
format |
Article in Journal/Newspaper |
author |
Wertheim, David Gillmore, Gavin Gill, Ian Petford, Nick |
author_facet |
Wertheim, David Gillmore, Gavin Gill, Ian Petford, Nick |
author_sort |
Wertheim, David |
title |
High resolution 3D confocal microscope imaging of volcanic ash particles |
title_short |
High resolution 3D confocal microscope imaging of volcanic ash particles |
title_full |
High resolution 3D confocal microscope imaging of volcanic ash particles |
title_fullStr |
High resolution 3D confocal microscope imaging of volcanic ash particles |
title_full_unstemmed |
High resolution 3D confocal microscope imaging of volcanic ash particles |
title_sort |
high resolution 3d confocal microscope imaging of volcanic ash particles |
publishDate |
2017 |
url |
https://pure.northampton.ac.uk/en/publications/777435b9-d238-49f5-ac60-3c3e22165318 https://doi.org/10.1016/j.scitotenv.2017.02.230 http://nectar.northampton.ac.uk/id/document/20590 |
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ENVELOPE(156.767,156.767,-80.217,-80.217) |
geographic |
Olympus |
geographic_facet |
Olympus |
genre |
Eyjafjallajökull Iceland |
genre_facet |
Eyjafjallajökull Iceland |
op_source |
Wertheim , D , Gillmore , G , Gill , I & Petford , N 2017 , ' High resolution 3D confocal microscope imaging of volcanic ash particles ' , Science of The Total Environment , vol. 590-591 . https://doi.org/10.1016/j.scitotenv.2017.02.230 |
op_rights |
info:eu-repo/semantics/openAccess |
op_doi |
https://doi.org/10.1016/j.scitotenv.2017.02.230 |
container_title |
Science of The Total Environment |
container_volume |
590-591 |
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838 |
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842 |
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