Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: Baker, Peter E, Coltorti, Massimo, Briqueu, Louis, Hasenaka, Toshiaki, Condliffe, Eric
Format: Dataset Open Access
Sprache:en
Veröffentlicht: PANGAEA 1994
Schlagworte:
Online-Zugang:https://doi.org/10.1594/PANGAEA.787589
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
_version_ 1867168561469849600
author Baker, Peter E
Coltorti, Massimo
Briqueu, Louis
Hasenaka, Toshiaki
Condliffe, Eric
author_facet Baker, Peter E
Coltorti, Massimo
Briqueu, Louis
Hasenaka, Toshiaki
Condliffe, Eric
collection Datos científicos de ciencias marinas y ambientales
contents Volcanic ash layers (1-3 cm thick) are abundant in the North Aoba Basin drill sites but less common at forearc sites. Ash deposited on the forearc slopes is liable to be redistributed as turbidites. In addition, the westerly upper winds also minimize ash-fall on the western (forearc) side of the New Hebrides Island Arc. Crystalline components in the ashes are primarily plagioclase (An90-An44), clinopyroxene (Ca46Mg49Fe5-Ca43Mg33Fe24), olivine (Fo87-Fo62), and titanomagnetite. There are also small amounts of orthopyroxene, magnetite, apatite, and quartz. Glass shards occur in most of the ashes and range in composition from basalt to rhyolite. There is often a variety of glass compositions within a single ash layer. One explanation for this is that the rate of accumulation of ash from several different eruptions or eruptive phases exceeded the background sedimentation rate: there may also have been a certain amount of reworking. The high-K and low-K trends previously recognized in volcanic rocks from the New Hebrides Island Arc are clearly represented in the Leg 134 glasses. All of the ashes investigated here are thought to have originated from the Central Chain volcanoes. The source of the high-K group was probably the Central Basin volcanoes of Santa Maria, Aoba, and Ambrym. The lower-K series includes a distinctive group of dacites and is likely to have originated from the Epi-Tongoa-Tongariki sector of the arc where major pyroclastic eruptions, associated with caldera collapse, have occurred during the Holocene, perhaps as recently as 400 yr ago.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_787589
institution PANGAEA
language en
publishDate 1994
publisher PANGAEA
record_format pangaea
spellingShingle Chemical composition of volcanic ash layers from ODP Leg 134 sites
Baker, Peter E
Coltorti, Massimo
Briqueu, Louis
Hasenaka, Toshiaki
Condliffe, Eric
Ocean Drilling Program; ODP
Volcanic ash layers (1-3 cm thick) are abundant in the North Aoba Basin drill sites but less common at forearc sites. Ash deposited on the forearc slopes is liable to be redistributed as turbidites. In addition, the westerly upper winds also minimize ash-fall on the western (forearc) side of the New Hebrides Island Arc. Crystalline components in the ashes are primarily plagioclase (An90-An44), clinopyroxene (Ca46Mg49Fe5-Ca43Mg33Fe24), olivine (Fo87-Fo62), and titanomagnetite. There are also small amounts of orthopyroxene, magnetite, apatite, and quartz. Glass shards occur in most of the ashes and range in composition from basalt to rhyolite. There is often a variety of glass compositions within a single ash layer. One explanation for this is that the rate of accumulation of ash from several different eruptions or eruptive phases exceeded the background sedimentation rate: there may also have been a certain amount of reworking. The high-K and low-K trends previously recognized in volcanic rocks from the New Hebrides Island Arc are clearly represented in the Leg 134 glasses. All of the ashes investigated here are thought to have originated from the Central Chain volcanoes. The source of the high-K group was probably the Central Basin volcanoes of Santa Maria, Aoba, and Ambrym. The lower-K series includes a distinctive group of dacites and is likely to have originated from the Epi-Tongoa-Tongariki sector of the arc where major pyroclastic eruptions, associated with caldera collapse, have occurred during the Holocene, perhaps as recently as 400 yr ago.
title Chemical composition of volcanic ash layers from ODP Leg 134 sites
topic Ocean Drilling Program; ODP
url https://doi.org/10.1594/PANGAEA.787589