A global morphometric database of composite volcanoes

Autores
Grosse, Pablo; Euillades, Pablo Andrés; Euillades, Leonardo Daniel; van Wyk de Vries, Benjamin; Petrinovic, Ivan Alejandro
Año de publicación
2013
Idioma
inglés
Tipo de recurso
documento de conferencia
Estado
versión publicada
Descripción
Volcano morphologies are the result of the interaction through time of constructive and destructive processes. Although shape and size are basic properties, there is no comprehensive database of volcano morphometry at a global scale. To this end, we have used the near–global SRTM DEM to construct a database of morphometric parameters of ∼750 composite volcanoes included in the Smithsonian Institution Global Volcanism Program database. Thus, our database considers most active and potentially active composite volcanoes of the World. The basal outline of each volcano edifice, a key factor, was defined applying an expressly developed algorithm (NETVOLC) that calculates the outline by minimizing a function based on slope breaks around the edifice. Another code (MORVOLC) then computes a set of morphometric parameters for each edifice. The parameters quantitatively describe edifice size (basal area, AB; basal width, WB; summit width, WS; height, H; volume, V), profile shape (height/basal width ratio, H/WB; summit width/basal width ratio, WS/WB), plan shape (ellipticity index, EI; irregularity index, II), slopes (several slope statistics, SLP) and number of secondary peaks (PK). In addition, ∼100 well defined and large summit craters/calderas were manually delineated and morphometric parameters for these were also extracted (width; depth; volume; elongation; slopes). Considering all volcanoes in the database, most size parameters, the average EI and II, and PK have strong positive asymmetric distributions; H, H/WB and WS/WB have weak positive asymmetric distributions; SLP parameters have symmetric to slightly negative asymmetric distributions. The range, excluding outliers, and median values are: V: 0.2–170, 16 km3; AB: 3–480, 61 km2; WB: 2–36, 8.8 km; WS: 0.2–10, 1.5 km; H: 100–2500, 1020 m; H/WB ratio: 0.01–0.28, 0.12; WS/WB ratio: 0.02–0.62, 0.19; average EI: 1.1–3.4, 1.7; average II: 1.0–2.3, 1.2; average SLP: 3–30, 17°; PK: 0–42, 5. A simple, semi–quantitative classification can be considered consisting of four main types: regular cones, irregular cones, complex edifices and shields. The first three types show a transition of increasing size and complexity, and of decreasing steepness, from regular to irregular cones and to complex edifices. Shields have sizes similar to complex edifices, but are flatter. One–third of shields have large summit craters/calderas, whereas only 10% of the other three types have them. More rigorous quantitative classifications can be obtained by statistical cluster analysis; we present some possible schemes. Correlations between parameters and regional variations are also discussed. We anticipate that the database will be useful for regional comparisons, for quantitative and systematic classifications, and as a tool for studies of associated volcanological processes.
Fil: Grosse, Pablo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; Argentina. Fundación Miguel Lillo. Dirección de Geología; Argentina
Fil: Euillades, Pablo Andrés. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; Argentina
Fil: Euillades, Leonardo Daniel. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; Argentina
Fil: van Wyk de Vries, Benjamin. Universite Blaise Pascal; Francia
Fil: Petrinovic, Ivan Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Centro de Investigaciones en Ciencias de la Tierra. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Centro de Investigaciones en Ciencias de la Tierra; Argentina
International Association of Volcanology and Chemistry of the Earth’s Interior General Assembly
Kagoshima
Japón
International Association of Volcanology and Chemistry of the Earth’s Interior
Materia
VOLCANO MORPHOMETRY
DIGITAL ELEVATION MODEL
COMPOSITE VOLCANOES
Nivel de accesibilidad
acceso abierto
Condiciones de uso
https://creativecommons.org/licenses/by-nc-sa/2.5/ar/
Repositorio
CONICET Digital (CONICET)
Institución
Consejo Nacional de Investigaciones Científicas y Técnicas
OAI Identificador
oai:ri.conicet.gov.ar:11336/281886
Acceder
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network_name_str CONICET Digital (CONICET)
spelling A global morphometric database of composite volcanoesGrosse, PabloEuillades, Pablo AndrésEuillades, Leonardo Danielvan Wyk de Vries, BenjaminPetrinovic, Ivan AlejandroVOLCANO MORPHOMETRYDIGITAL ELEVATION MODELCOMPOSITE VOLCANOEShttps://purl.org/becyt/ford/1.5https://purl.org/becyt/ford/1Volcano morphologies are the result of the interaction through time of constructive and destructive processes. Although shape and size are basic properties, there is no comprehensive database of volcano morphometry at a global scale. To this end, we have used the near–global SRTM DEM to construct a database of morphometric parameters of ∼750 composite volcanoes included in the Smithsonian Institution Global Volcanism Program database. Thus, our database considers most active and potentially active composite volcanoes of the World. The basal outline of each volcano edifice, a key factor, was defined applying an expressly developed algorithm (NETVOLC) that calculates the outline by minimizing a function based on slope breaks around the edifice. Another code (MORVOLC) then computes a set of morphometric parameters for each edifice. The parameters quantitatively describe edifice size (basal area, AB; basal width, WB; summit width, WS; height, H; volume, V), profile shape (height/basal width ratio, H/WB; summit width/basal width ratio, WS/WB), plan shape (ellipticity index, EI; irregularity index, II), slopes (several slope statistics, SLP) and number of secondary peaks (PK). In addition, ∼100 well defined and large summit craters/calderas were manually delineated and morphometric parameters for these were also extracted (width; depth; volume; elongation; slopes). Considering all volcanoes in the database, most size parameters, the average EI and II, and PK have strong positive asymmetric distributions; H, H/WB and WS/WB have weak positive asymmetric distributions; SLP parameters have symmetric to slightly negative asymmetric distributions. The range, excluding outliers, and median values are: V: 0.2–170, 16 km3; AB: 3–480, 61 km2; WB: 2–36, 8.8 km; WS: 0.2–10, 1.5 km; H: 100–2500, 1020 m; H/WB ratio: 0.01–0.28, 0.12; WS/WB ratio: 0.02–0.62, 0.19; average EI: 1.1–3.4, 1.7; average II: 1.0–2.3, 1.2; average SLP: 3–30, 17°; PK: 0–42, 5. A simple, semi–quantitative classification can be considered consisting of four main types: regular cones, irregular cones, complex edifices and shields. The first three types show a transition of increasing size and complexity, and of decreasing steepness, from regular to irregular cones and to complex edifices. Shields have sizes similar to complex edifices, but are flatter. One–third of shields have large summit craters/calderas, whereas only 10% of the other three types have them. More rigorous quantitative classifications can be obtained by statistical cluster analysis; we present some possible schemes. Correlations between parameters and regional variations are also discussed. We anticipate that the database will be useful for regional comparisons, for quantitative and systematic classifications, and as a tool for studies of associated volcanological processes.Fil: Grosse, Pablo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; Argentina. Fundación Miguel Lillo. Dirección de Geología; ArgentinaFil: Euillades, Pablo Andrés. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; ArgentinaFil: Euillades, Leonardo Daniel. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; ArgentinaFil: van Wyk de Vries, Benjamin. Universite Blaise Pascal; FranciaFil: Petrinovic, Ivan Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Centro de Investigaciones en Ciencias de la Tierra. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Centro de Investigaciones en Ciencias de la Tierra; ArgentinaInternational Association of Volcanology and Chemistry of the Earth’s Interior General AssemblyKagoshimaJapónInternational Association of Volcanology and Chemistry of the Earth’s InteriorInternational Association of Volcanology and Chemistry of the Earth’s Interior2013info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/conferenceObjectOtroBookhttp://purl.org/coar/resource_type/c_5794info:ar-repo/semantics/documentoDeConferenciaapplication/pdfapplication/pdfhttp://hdl.handle.net/11336/281886A global morphometric database of composite volcanoes; International Association of Volcanology and Chemistry of the Earth’s Interior General Assembly; Kagoshima; Japón; 2013; 1262-1262CONICET DigitalCONICETenginfo:eu-repo/semantics/altIdentifier/url/https://kazan-g.sakura.ne.jp/iavcei2013/iavcei_hp/PDF/4A2_4H-O14.pdfInternacionalinfo:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by-nc-sa/2.5/ar/reponame:CONICET Digital (CONICET)instname:Consejo Nacional de Investigaciones Científicas y Técnicas2026-03-11T11:39:04Zoai:ri.conicet.gov.ar:11336/281886instacron:CONICETInstitucionalhttp://ri.conicet.gov.ar/Organismo científico-tecnológicoNo correspondehttp://ri.conicet.gov.ar/oai/requestdasensio@conicet.gov.ar; lcarlino@conicet.gov.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:34982026-03-11 11:39:04.537CONICET Digital (CONICET) - Consejo Nacional de Investigaciones Científicas y Técnicasfalse
dc.title.none.fl_str_mv A global morphometric database of composite volcanoes
title A global morphometric database of composite volcanoes
spellingShingle A global morphometric database of composite volcanoes
Grosse, Pablo
VOLCANO MORPHOMETRY
DIGITAL ELEVATION MODEL
COMPOSITE VOLCANOES
title_short A global morphometric database of composite volcanoes
title_full A global morphometric database of composite volcanoes
title_fullStr A global morphometric database of composite volcanoes
title_full_unstemmed A global morphometric database of composite volcanoes
title_sort A global morphometric database of composite volcanoes
dc.creator.none.fl_str_mv Grosse, Pablo
Euillades, Pablo Andrés
Euillades, Leonardo Daniel
van Wyk de Vries, Benjamin
Petrinovic, Ivan Alejandro
author Grosse, Pablo
author_facet Grosse, Pablo
Euillades, Pablo Andrés
Euillades, Leonardo Daniel
van Wyk de Vries, Benjamin
Petrinovic, Ivan Alejandro
author_role author
author2 Euillades, Pablo Andrés
Euillades, Leonardo Daniel
van Wyk de Vries, Benjamin
Petrinovic, Ivan Alejandro
author2_role author
author
author
author
dc.subject.none.fl_str_mv VOLCANO MORPHOMETRY
DIGITAL ELEVATION MODEL
COMPOSITE VOLCANOES
topic VOLCANO MORPHOMETRY
DIGITAL ELEVATION MODEL
COMPOSITE VOLCANOES
purl_subject.fl_str_mv https://purl.org/becyt/ford/1.5
https://purl.org/becyt/ford/1
dc.description.none.fl_txt_mv Volcano morphologies are the result of the interaction through time of constructive and destructive processes. Although shape and size are basic properties, there is no comprehensive database of volcano morphometry at a global scale. To this end, we have used the near–global SRTM DEM to construct a database of morphometric parameters of ∼750 composite volcanoes included in the Smithsonian Institution Global Volcanism Program database. Thus, our database considers most active and potentially active composite volcanoes of the World. The basal outline of each volcano edifice, a key factor, was defined applying an expressly developed algorithm (NETVOLC) that calculates the outline by minimizing a function based on slope breaks around the edifice. Another code (MORVOLC) then computes a set of morphometric parameters for each edifice. The parameters quantitatively describe edifice size (basal area, AB; basal width, WB; summit width, WS; height, H; volume, V), profile shape (height/basal width ratio, H/WB; summit width/basal width ratio, WS/WB), plan shape (ellipticity index, EI; irregularity index, II), slopes (several slope statistics, SLP) and number of secondary peaks (PK). In addition, ∼100 well defined and large summit craters/calderas were manually delineated and morphometric parameters for these were also extracted (width; depth; volume; elongation; slopes). Considering all volcanoes in the database, most size parameters, the average EI and II, and PK have strong positive asymmetric distributions; H, H/WB and WS/WB have weak positive asymmetric distributions; SLP parameters have symmetric to slightly negative asymmetric distributions. The range, excluding outliers, and median values are: V: 0.2–170, 16 km3; AB: 3–480, 61 km2; WB: 2–36, 8.8 km; WS: 0.2–10, 1.5 km; H: 100–2500, 1020 m; H/WB ratio: 0.01–0.28, 0.12; WS/WB ratio: 0.02–0.62, 0.19; average EI: 1.1–3.4, 1.7; average II: 1.0–2.3, 1.2; average SLP: 3–30, 17°; PK: 0–42, 5. A simple, semi–quantitative classification can be considered consisting of four main types: regular cones, irregular cones, complex edifices and shields. The first three types show a transition of increasing size and complexity, and of decreasing steepness, from regular to irregular cones and to complex edifices. Shields have sizes similar to complex edifices, but are flatter. One–third of shields have large summit craters/calderas, whereas only 10% of the other three types have them. More rigorous quantitative classifications can be obtained by statistical cluster analysis; we present some possible schemes. Correlations between parameters and regional variations are also discussed. We anticipate that the database will be useful for regional comparisons, for quantitative and systematic classifications, and as a tool for studies of associated volcanological processes.
Fil: Grosse, Pablo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; Argentina. Fundación Miguel Lillo. Dirección de Geología; Argentina
Fil: Euillades, Pablo Andrés. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; Argentina
Fil: Euillades, Leonardo Daniel. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de Cuyo. Facultad de Ingenieria. Instituto de Capacitación Especial y Desarrollo de Ingeniería Asistida por Computadora; Argentina
Fil: van Wyk de Vries, Benjamin. Universite Blaise Pascal; Francia
Fil: Petrinovic, Ivan Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Centro de Investigaciones en Ciencias de la Tierra. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Centro de Investigaciones en Ciencias de la Tierra; Argentina
International Association of Volcanology and Chemistry of the Earth’s Interior General Assembly
Kagoshima
Japón
International Association of Volcanology and Chemistry of the Earth’s Interior
description Volcano morphologies are the result of the interaction through time of constructive and destructive processes. Although shape and size are basic properties, there is no comprehensive database of volcano morphometry at a global scale. To this end, we have used the near–global SRTM DEM to construct a database of morphometric parameters of ∼750 composite volcanoes included in the Smithsonian Institution Global Volcanism Program database. Thus, our database considers most active and potentially active composite volcanoes of the World. The basal outline of each volcano edifice, a key factor, was defined applying an expressly developed algorithm (NETVOLC) that calculates the outline by minimizing a function based on slope breaks around the edifice. Another code (MORVOLC) then computes a set of morphometric parameters for each edifice. The parameters quantitatively describe edifice size (basal area, AB; basal width, WB; summit width, WS; height, H; volume, V), profile shape (height/basal width ratio, H/WB; summit width/basal width ratio, WS/WB), plan shape (ellipticity index, EI; irregularity index, II), slopes (several slope statistics, SLP) and number of secondary peaks (PK). In addition, ∼100 well defined and large summit craters/calderas were manually delineated and morphometric parameters for these were also extracted (width; depth; volume; elongation; slopes). Considering all volcanoes in the database, most size parameters, the average EI and II, and PK have strong positive asymmetric distributions; H, H/WB and WS/WB have weak positive asymmetric distributions; SLP parameters have symmetric to slightly negative asymmetric distributions. The range, excluding outliers, and median values are: V: 0.2–170, 16 km3; AB: 3–480, 61 km2; WB: 2–36, 8.8 km; WS: 0.2–10, 1.5 km; H: 100–2500, 1020 m; H/WB ratio: 0.01–0.28, 0.12; WS/WB ratio: 0.02–0.62, 0.19; average EI: 1.1–3.4, 1.7; average II: 1.0–2.3, 1.2; average SLP: 3–30, 17°; PK: 0–42, 5. A simple, semi–quantitative classification can be considered consisting of four main types: regular cones, irregular cones, complex edifices and shields. The first three types show a transition of increasing size and complexity, and of decreasing steepness, from regular to irregular cones and to complex edifices. Shields have sizes similar to complex edifices, but are flatter. One–third of shields have large summit craters/calderas, whereas only 10% of the other three types have them. More rigorous quantitative classifications can be obtained by statistical cluster analysis; we present some possible schemes. Correlations between parameters and regional variations are also discussed. We anticipate that the database will be useful for regional comparisons, for quantitative and systematic classifications, and as a tool for studies of associated volcanological processes.
publishDate 2013
dc.date.none.fl_str_mv 2013
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Book
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format conferenceObject
dc.identifier.none.fl_str_mv http://hdl.handle.net/11336/281886
A global morphometric database of composite volcanoes; International Association of Volcanology and Chemistry of the Earth’s Interior General Assembly; Kagoshima; Japón; 2013; 1262-1262
CONICET Digital
CONICET
url http://hdl.handle.net/11336/281886
identifier_str_mv A global morphometric database of composite volcanoes; International Association of Volcanology and Chemistry of the Earth’s Interior General Assembly; Kagoshima; Japón; 2013; 1262-1262
CONICET Digital
CONICET
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language eng
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dc.publisher.none.fl_str_mv International Association of Volcanology and Chemistry of the Earth’s Interior
publisher.none.fl_str_mv International Association of Volcanology and Chemistry of the Earth’s Interior
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