Add to ORKGAbstract Methods for tephrochronology are evaluated, in the following way: Lake sediments <500 years old from three small Antarctic lakes were analysed for identification of tephras. Subsamples were analysed for a) grain size, and identification and concentration of volcanogenic grains, b) identification of tephra horizons, c) element abundance by EPMA WDS/EDS and LA-ICP-MS, and d) possible correlations between lakes and volcanoes. Volcanogenic minerals and shards were found all through the sediment cores in all three lakes, in different abundances. A high background population of volcanogenic mineral grains, in all samples, made the identification of tephra horizons difficult, and shards could only be distinguished by certainty after ch...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Tephrochronology is a unique method for linking and dating geological, palaeoecological, palaeoclima...
Polar ice sheets are remarkable repositories of tephra layers. The Talos Dome ice core (72°49'S, 159...
Tephra layers are interstratified in the ice caps of the South Shetland Islands. Although previously...
Tephrochronology, the characterisation and use of volcanic-ash layers as a unique chronostratigraphi...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Volcanic ash (fine tephra particles), due to their instantaneous geological deposition, are excellen...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Tephra layers preserved in lake sedimentary sequences provide valuable isochrons with which to synch...
Tephra deposits in Aotearoa New Zealand (ANZ) have been studied for >180 years. The now-global disci...
Tephrochronology (from tephra, Gk 'ashes') is a unique stratigraphic method for linking, dating, and...
Much interest and activity is presently centred on the stratigraphic use of tephra. Distinctive teph...
Tephrochronology is the use of primary, characterized tephras or cryptotephras as chronostratigraphi...
Kamchatka is one of the world's most active volcanic regions and has hosted many explosive eruptions...
International audienceThirteen discrete air-fall tephra layers were identified in the last 200,000-y...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Tephrochronology is a unique method for linking and dating geological, palaeoecological, palaeoclima...
Polar ice sheets are remarkable repositories of tephra layers. The Talos Dome ice core (72°49'S, 159...
Tephra layers are interstratified in the ice caps of the South Shetland Islands. Although previously...
Tephrochronology, the characterisation and use of volcanic-ash layers as a unique chronostratigraphi...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Volcanic ash (fine tephra particles), due to their instantaneous geological deposition, are excellen...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Tephra layers preserved in lake sedimentary sequences provide valuable isochrons with which to synch...
Tephra deposits in Aotearoa New Zealand (ANZ) have been studied for >180 years. The now-global disci...
Tephrochronology (from tephra, Gk 'ashes') is a unique stratigraphic method for linking, dating, and...
Much interest and activity is presently centred on the stratigraphic use of tephra. Distinctive teph...
Tephrochronology is the use of primary, characterized tephras or cryptotephras as chronostratigraphi...
Kamchatka is one of the world's most active volcanic regions and has hosted many explosive eruptions...
International audienceThirteen discrete air-fall tephra layers were identified in the last 200,000-y...
Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in l...
Tephrochronology is a unique method for linking and dating geological, palaeoecological, palaeoclima...
Polar ice sheets are remarkable repositories of tephra layers. The Talos Dome ice core (72°49'S, 159...