The formation and evolution of Hule and Río Cuarto maars, Costa Rica

The Hule and Río Cuarto maars are respectively located 11 and 18km northward of the active crater of Poás volcano, on the Caribbean side of the Central Volcanic Range of Costa Rica. They lie on the northern part of Poás volcano massif, along a N-S trending, ~27km-long volcanic fracture crossing the...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Alvarado, G.E., Soto, G.J., Salani, F.M., Ruiz, P., de Mendoza, L.H.
Formato: JOUR
Materias:
Costa Rica
Geoarchaeology
Hule
Maars
Río Cuarto
Volcanic history
Volcanic lakes
Ballistics
Deposits
Explosives
Lakes
Silica
Volcanoes
cinder cone
crater lake
explosive volcanism
geomorphology
landform evolution
landscape evolution
lava flow
maar
pumice
pyroclastic flow
tephra
volcanic eruption
volcanology
Alajuela
Argentina
Cordoba [Argentina]
Cuarto River
Poas Volcano
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_03770273_v201_n1-4_p342_Alvarado
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_03770273_v201_n1-4_p342_Alvarado
record_format dspace
spelling todo:paper_03770273_v201_n1-4_p342_Alvarado2023-10-03T15:31:21Z The formation and evolution of Hule and Río Cuarto maars, Costa Rica Alvarado, G.E. Soto, G.J. Salani, F.M. Ruiz, P. de Mendoza, L.H. Costa Rica Geoarchaeology Hule Maars Río Cuarto Volcanic history Volcanic lakes Costa Rica Geoarchaeology Hule Maars Volcanic history Volcanic lakes Ballistics Deposits Explosives Lakes Silica Volcanoes cinder cone crater lake explosive volcanism geomorphology landform evolution landscape evolution lava flow maar pumice pyroclastic flow tephra volcanic eruption volcanology Alajuela Argentina Cordoba [Argentina] Costa Rica Cuarto River Poas Volcano The Hule and Río Cuarto maars are respectively located 11 and 18km northward of the active crater of Poás volcano, on the Caribbean side of the Central Volcanic Range of Costa Rica. They lie on the northern part of Poás volcano massif, along a N-S trending, ~27km-long volcanic fracture crossing the Poás volcano. The volcanic products from Hule maar (2.3km×1.8km, area ~3.5km2) are mainly pyroclastic surges (poorly vesiculated andesites with very small plagioclases), silica-rich andesitic pumice flows, air-fall deposits, ballistic blocks, and reworked deposits that overlie the regional Pleistocene volcanic basement. They were produced during three main explosive phases. Two overlapping pyroclastic cones have developed within the Hule maar, and at least three lava fields are related to them (high-Al basalt to basaltic andesite). Another maar, Pata de Gallo (400m across), is located less than 1km off the SE rim of Hule. Río Cuarto is a nearly circular maar (700-850m across) with a surface area of 0.33km2. Río Cuarto products include surges, ballistics and air-fall tephra, produced during three main explosive phases. These deposits show a narrow fan oriented westward, according to westerly wind direction. They indicate a westerly-directed surge (first 2km), followed by air-fall deposits (up to 5km away). Radiocarbon dating has shown that Hule was formed ~6.2ka ago and Pata de Gallo probably formed ~2.8ka ago, while the intra-maar products could have ages of ~1.7ka or ~0.7ka, indicating that Hule is a polygenetic maar. There are no radiocarbon ages yet for dating the formation of Río Cuarto maar, but archaeological data suggest that it erupted between 3-4ka ago. The volume of pyroclastic deposits associated to Hule maar is estimated to be 0.51-0.53km3, from which ~20% is juvenile material, therefore 0.07-0.08km3 of new dense rock equivalent (DRE) magma, after subtracting 20-30% of porosity. The tephra from Río Cuarto is estimated to be 4.4×107m3, of which 0.008m3 correspond to DRE magma. The Hule and Río Cuarto maars are occupied by lakes and, in the last decades, several lake-overturn events have taken place, with a repeat cycle of six to seven years. The main outcome of these events has been the mass death of fish accompanied by changes in the lake color. In these systems, the hazard related to the possible occurrence of Nyos-type gas eruptions can be considered negligible or very local, but significant for tourists who camp by the lakes. © 2011 Elsevier B.V. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_03770273_v201_n1-4_p342_Alvarado
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Costa Rica
Geoarchaeology
Hule
Maars
Río Cuarto
Volcanic history
Volcanic lakes
Costa Rica
Geoarchaeology
Hule
Maars
Volcanic history
Volcanic lakes
Ballistics
Deposits
Explosives
Lakes
Silica
Volcanoes
cinder cone
crater lake
explosive volcanism
geomorphology
landform evolution
landscape evolution
lava flow
maar
pumice
pyroclastic flow
tephra
volcanic eruption
volcanology
Alajuela
Argentina
Cordoba [Argentina]
Costa Rica
Cuarto River
Poas Volcano
spellingShingle Costa Rica
Geoarchaeology
Hule
Maars
Río Cuarto
Volcanic history
Volcanic lakes
Costa Rica
Geoarchaeology
Hule
Maars
Volcanic history
Volcanic lakes
Ballistics
Deposits
Explosives
Lakes
Silica
Volcanoes
cinder cone
crater lake
explosive volcanism
geomorphology
landform evolution
landscape evolution
lava flow
maar
pumice
pyroclastic flow
tephra
volcanic eruption
volcanology
Alajuela
Argentina
Cordoba [Argentina]
Costa Rica
Cuarto River
Poas Volcano
Alvarado, G.E.
Soto, G.J.
Salani, F.M.
Ruiz, P.
de Mendoza, L.H.
The formation and evolution of Hule and Río Cuarto maars, Costa Rica
topic_facet Costa Rica
Geoarchaeology
Hule
Maars
Río Cuarto
Volcanic history
Volcanic lakes
Costa Rica
Geoarchaeology
Hule
Maars
Volcanic history
Volcanic lakes
Ballistics
Deposits
Explosives
Lakes
Silica
Volcanoes
cinder cone
crater lake
explosive volcanism
geomorphology
landform evolution
landscape evolution
lava flow
maar
pumice
pyroclastic flow
tephra
volcanic eruption
volcanology
Alajuela
Argentina
Cordoba [Argentina]
Costa Rica
Cuarto River
Poas Volcano
description The Hule and Río Cuarto maars are respectively located 11 and 18km northward of the active crater of Poás volcano, on the Caribbean side of the Central Volcanic Range of Costa Rica. They lie on the northern part of Poás volcano massif, along a N-S trending, ~27km-long volcanic fracture crossing the Poás volcano. The volcanic products from Hule maar (2.3km×1.8km, area ~3.5km2) are mainly pyroclastic surges (poorly vesiculated andesites with very small plagioclases), silica-rich andesitic pumice flows, air-fall deposits, ballistic blocks, and reworked deposits that overlie the regional Pleistocene volcanic basement. They were produced during three main explosive phases. Two overlapping pyroclastic cones have developed within the Hule maar, and at least three lava fields are related to them (high-Al basalt to basaltic andesite). Another maar, Pata de Gallo (400m across), is located less than 1km off the SE rim of Hule. Río Cuarto is a nearly circular maar (700-850m across) with a surface area of 0.33km2. Río Cuarto products include surges, ballistics and air-fall tephra, produced during three main explosive phases. These deposits show a narrow fan oriented westward, according to westerly wind direction. They indicate a westerly-directed surge (first 2km), followed by air-fall deposits (up to 5km away). Radiocarbon dating has shown that Hule was formed ~6.2ka ago and Pata de Gallo probably formed ~2.8ka ago, while the intra-maar products could have ages of ~1.7ka or ~0.7ka, indicating that Hule is a polygenetic maar. There are no radiocarbon ages yet for dating the formation of Río Cuarto maar, but archaeological data suggest that it erupted between 3-4ka ago. The volume of pyroclastic deposits associated to Hule maar is estimated to be 0.51-0.53km3, from which ~20% is juvenile material, therefore 0.07-0.08km3 of new dense rock equivalent (DRE) magma, after subtracting 20-30% of porosity. The tephra from Río Cuarto is estimated to be 4.4×107m3, of which 0.008m3 correspond to DRE magma. The Hule and Río Cuarto maars are occupied by lakes and, in the last decades, several lake-overturn events have taken place, with a repeat cycle of six to seven years. The main outcome of these events has been the mass death of fish accompanied by changes in the lake color. In these systems, the hazard related to the possible occurrence of Nyos-type gas eruptions can be considered negligible or very local, but significant for tourists who camp by the lakes. © 2011 Elsevier B.V.
format JOUR
author Alvarado, G.E.
Soto, G.J.
Salani, F.M.
Ruiz, P.
de Mendoza, L.H.
author_facet Alvarado, G.E.
Soto, G.J.
Salani, F.M.
Ruiz, P.
de Mendoza, L.H.
author_sort Alvarado, G.E.
title The formation and evolution of Hule and Río Cuarto maars, Costa Rica
title_short The formation and evolution of Hule and Río Cuarto maars, Costa Rica
title_full The formation and evolution of Hule and Río Cuarto maars, Costa Rica
title_fullStr The formation and evolution of Hule and Río Cuarto maars, Costa Rica
title_full_unstemmed The formation and evolution of Hule and Río Cuarto maars, Costa Rica
title_sort formation and evolution of hule and río cuarto maars, costa rica
url http://hdl.handle.net/20.500.12110/paper_03770273_v201_n1-4_p342_Alvarado
work_keys_str_mv AT alvaradoge theformationandevolutionofhuleandriocuartomaarscostarica
AT sotogj theformationandevolutionofhuleandriocuartomaarscostarica
AT salanifm theformationandevolutionofhuleandriocuartomaarscostarica
AT ruizp theformationandevolutionofhuleandriocuartomaarscostarica
AT demendozalh theformationandevolutionofhuleandriocuartomaarscostarica
AT alvaradoge formationandevolutionofhuleandriocuartomaarscostarica
AT sotogj formationandevolutionofhuleandriocuartomaarscostarica
AT salanifm formationandevolutionofhuleandriocuartomaarscostarica
AT ruizp formationandevolutionofhuleandriocuartomaarscostarica
AT demendozalh formationandevolutionofhuleandriocuartomaarscostarica
_version_ 1807320002509930496

Ejemplares similares