A review of statistical tools for morphometric analysis of juvenile pyroclasts

Tobias Dürig; Pierre Simon Ross; Pierfrancesco Dellino; James D.L. White; Daniela Mele; Pier Paolo Comida

doi:10.1007/s00445-021-01500-0

A review of statistical tools for morphometric analysis of juvenile pyroclasts

Tobias Dürig, Pierre Simon Ross, Pierfrancesco Dellino, James D.L. White, Daniela Mele, Pier Paolo Comida

University of Iceland

Research output: Contribution to journal › Review article › peer-review

Abstract

Morphometric analyses are based on multiparametric data sets that describe quantitatively the shapes of objects. The stochastic nature of fracture formation processes that break up magma during explosive eruptions yields mixtures of particles that have highly varied shapes. In volcanology, morphometric analysis is applied to these mixtures of particles with diverse shapes for two purposes: (1) to fingerprint tephra from individual eruptions and use the fingerprints to distinguish among tephra layers and determine their extents and (2) to reconstruct eruption processes, by linking particles formed by known fragmentation processes in experiments with particles from natural pyroclastic deposits. Here, we review the most commonly adopted statistical techniques for morphometric analysis of pyroclasts. We provide sets of objects with different shapes, along with their morphometric data, in order to demonstrate and illustrate the methods. They can be used not only for addressing the processes of fragmentation during explosive eruptions, but also for the characterization of other types of solid particles with complex morphologies.

Original language	English
Article number	79
Journal	Bulletin of Volcanology
Volume	83
Issue number	11
DOIs	https://doi.org/10.1007/s00445-021-01500-0
Publication status	Published - 30 Oct 2021

Bibliographical note

Funding Information: TD was supported by the IRF (Rannís) Postdoctoral project grant 206527-051. Funding Information: Louise Steffensen Schmidt is thanked for reading an earlier version of the manuscript. We thank Adrian Hornby and an anonymous reviewer, as well as associate editor Benjamin Andrews, for their constructive comments that helped in improving the manuscript. Furthermore, we gratefully acknowledge Sebastian Mueller, Bruce Houghton and Wendy Cockshell for providing the Kīlauea Iki 1959 samples. TD is supported by the Icelandic Research Fund (Rannís), grant Nr. 206527-051. Publisher Copyright: © 2021, International Association of Volcanology & Chemistry of the Earth's Interior.

Other keywords

Eldfjallafræði
Geochemistry and Petrology
Jarðefnafræði
Magma
Morphometric analysis
Pyroclasts
Sedimentology
Solid earth geology and petrology
Statistical methods
Volcanology
morphometric analyses
shape analyes
tephra

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10.1007/s00445-021-01500-0

https://hdl.handle.net/20.500.11815/2709

Cite this

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title = "A review of statistical tools for morphometric analysis of juvenile pyroclasts",

abstract = "Morphometric analyses are based on multiparametric data sets that describe quantitatively the shapes of objects. The stochastic nature of fracture formation processes that break up magma during explosive eruptions yields mixtures of particles that have highly varied shapes. In volcanology, morphometric analysis is applied to these mixtures of particles with diverse shapes for two purposes: (1) to fingerprint tephra from individual eruptions and use the fingerprints to distinguish among tephra layers and determine their extents and (2) to reconstruct eruption processes, by linking particles formed by known fragmentation processes in experiments with particles from natural pyroclastic deposits. Here, we review the most commonly adopted statistical techniques for morphometric analysis of pyroclasts. We provide sets of objects with different shapes, along with their morphometric data, in order to demonstrate and illustrate the methods. They can be used not only for addressing the processes of fragmentation during explosive eruptions, but also for the characterization of other types of solid particles with complex morphologies.",

keywords = "Eldfjallafr{\ae}{\dh}i, Geochemistry and Petrology, Jar{\dh}efnafr{\ae}{\dh}i, Sedimentology, Solid earth geology and petrology, Volcanology, morphometric analyses, shape analyes, statistical methods, tephra, Eldfjallafr{\ae}{\dh}i, Geochemistry and Petrology, Jar{\dh}efnafr{\ae}{\dh}i, Magma, Morphometric analysis, Pyroclasts, Sedimentology, Solid earth geology and petrology, Statistical methods, Volcanology, morphometric analyses, shape analyes, tephra",

author = "Tobias D{\"u}rig and Ross, \{Pierre Simon\} and Pierfrancesco Dellino and White, \{James D.L.\} and Daniela Mele and Comida, \{Pier Paolo\}",

note = "Funding Information: TD was supported by the IRF (Rann{\'i}s) Postdoctoral project grant 206527-051. Funding Information: Louise Steffensen Schmidt is thanked for reading an earlier version of the manuscript. We thank Adrian Hornby and an anonymous reviewer, as well as associate editor Benjamin Andrews, for their constructive comments that helped in improving the manuscript. Furthermore, we gratefully acknowledge Sebastian Mueller, Bruce Houghton and Wendy Cockshell for providing the Kīlauea Iki 1959 samples. TD is supported by the Icelandic Research Fund (Rann{\'i}s), grant Nr. 206527-051. Publisher Copyright: {\textcopyright} 2021, International Association of Volcanology \& Chemistry of the Earth's Interior.",

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doi = "10.1007/s00445-021-01500-0",

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AU - Dürig, Tobias

AU - Ross, Pierre Simon

AU - Dellino, Pierfrancesco

AU - White, James D.L.

AU - Mele, Daniela

AU - Comida, Pier Paolo

N1 - Funding Information: TD was supported by the IRF (Rannís) Postdoctoral project grant 206527-051. Funding Information: Louise Steffensen Schmidt is thanked for reading an earlier version of the manuscript. We thank Adrian Hornby and an anonymous reviewer, as well as associate editor Benjamin Andrews, for their constructive comments that helped in improving the manuscript. Furthermore, we gratefully acknowledge Sebastian Mueller, Bruce Houghton and Wendy Cockshell for providing the Kīlauea Iki 1959 samples. TD is supported by the Icelandic Research Fund (Rannís), grant Nr. 206527-051. Publisher Copyright: © 2021, International Association of Volcanology & Chemistry of the Earth's Interior.

PY - 2021/10/30

Y1 - 2021/10/30

N2 - Morphometric analyses are based on multiparametric data sets that describe quantitatively the shapes of objects. The stochastic nature of fracture formation processes that break up magma during explosive eruptions yields mixtures of particles that have highly varied shapes. In volcanology, morphometric analysis is applied to these mixtures of particles with diverse shapes for two purposes: (1) to fingerprint tephra from individual eruptions and use the fingerprints to distinguish among tephra layers and determine their extents and (2) to reconstruct eruption processes, by linking particles formed by known fragmentation processes in experiments with particles from natural pyroclastic deposits. Here, we review the most commonly adopted statistical techniques for morphometric analysis of pyroclasts. We provide sets of objects with different shapes, along with their morphometric data, in order to demonstrate and illustrate the methods. They can be used not only for addressing the processes of fragmentation during explosive eruptions, but also for the characterization of other types of solid particles with complex morphologies.

AB - Morphometric analyses are based on multiparametric data sets that describe quantitatively the shapes of objects. The stochastic nature of fracture formation processes that break up magma during explosive eruptions yields mixtures of particles that have highly varied shapes. In volcanology, morphometric analysis is applied to these mixtures of particles with diverse shapes for two purposes: (1) to fingerprint tephra from individual eruptions and use the fingerprints to distinguish among tephra layers and determine their extents and (2) to reconstruct eruption processes, by linking particles formed by known fragmentation processes in experiments with particles from natural pyroclastic deposits. Here, we review the most commonly adopted statistical techniques for morphometric analysis of pyroclasts. We provide sets of objects with different shapes, along with their morphometric data, in order to demonstrate and illustrate the methods. They can be used not only for addressing the processes of fragmentation during explosive eruptions, but also for the characterization of other types of solid particles with complex morphologies.

KW - Eldfjallafræði

KW - Geochemistry and Petrology

KW - Jarðefnafræði

KW - Sedimentology

KW - Solid earth geology and petrology

KW - Volcanology

KW - morphometric analyses

KW - shape analyes

KW - statistical methods

KW - tephra

KW - Eldfjallafræði

KW - Geochemistry and Petrology

KW - Jarðefnafræði

KW - Magma

KW - Morphometric analysis

KW - Pyroclasts

KW - Sedimentology

KW - Solid earth geology and petrology

KW - Statistical methods

KW - Volcanology

KW - morphometric analyses

KW - shape analyes

KW - tephra

UR - https://www.scopus.com/pages/publications/85118239290

U2 - 10.1007/s00445-021-01500-0

DO - 10.1007/s00445-021-01500-0

M3 - Review article

SN - 0258-8900

VL - 83

JO - Bulletin of Volcanology

JF - Bulletin of Volcanology

IS - 11

M1 - 79

ER -

A review of statistical tools for morphometric analysis of juvenile pyroclasts

Abstract

Bibliographical note

Other keywords

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Cite this