Bulk carbonate isotope compositions and carbonate petrography from upper Eocene and lower Oligocene siliciclastic sediments of the CRP-3 sediment core (Victoria Land Basin, Antarctica) have been investigated with the aim of contributing to reconstruction of the Antarctic Cenozoic palaeoclimate. Most of the carbonate is calcite cement occurring as patches, nodules and horizons and consisting of equant and/or drusy sparry calcite, pervasive blocky calcite and rare poikilotopic calcite spar. O-18-depleted values (from - 17 to -8 delta parts per thousand) of the CRP-3 carbonates suggest that the precipitating fluids were a mixing between marine and meteoric waters from melting glaciers. The 5 180 record exhibits a number of steps in an upward increasing trend that are thought to reflect the evolution of ice-sheet growth over the late Eocene to early Oligocene in response to a global cooling trend. Low carbonate delta C-13 values in the CRP-3 drillcore suggest that organic reactions have played a significant role in modifying the pore fluid chemistry. Some anomalously light carbon compositions (down to -25 parts per thousand) are interpreted to record methane-derived CO2 addition to the system. (c) 2004 Elsevier B.V. All rights reserved.
Bulk carbonate isotope stratigraphy from CRP-3 core (Victoria Land Basin, Antarctica): evidence for Eocene-Oligocene palaeoclimatic evolution
Sabatino N
2005
Abstract
Bulk carbonate isotope compositions and carbonate petrography from upper Eocene and lower Oligocene siliciclastic sediments of the CRP-3 sediment core (Victoria Land Basin, Antarctica) have been investigated with the aim of contributing to reconstruction of the Antarctic Cenozoic palaeoclimate. Most of the carbonate is calcite cement occurring as patches, nodules and horizons and consisting of equant and/or drusy sparry calcite, pervasive blocky calcite and rare poikilotopic calcite spar. O-18-depleted values (from - 17 to -8 delta parts per thousand) of the CRP-3 carbonates suggest that the precipitating fluids were a mixing between marine and meteoric waters from melting glaciers. The 5 180 record exhibits a number of steps in an upward increasing trend that are thought to reflect the evolution of ice-sheet growth over the late Eocene to early Oligocene in response to a global cooling trend. Low carbonate delta C-13 values in the CRP-3 drillcore suggest that organic reactions have played a significant role in modifying the pore fluid chemistry. Some anomalously light carbon compositions (down to -25 parts per thousand) are interpreted to record methane-derived CO2 addition to the system. (c) 2004 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.