Published on 01 January 2000

Major and trace element concentrations of sediment core CRP-2/2A (Table 1,2)

Bellanca, Adriana;Neri, Rodolfo;Sprovieri, Mario

Description

Bulk chemistry (major and trace elements) of sand-sized samples from the CRP-2/2A drillhole provides evidence for a multicomponent provenance with changes in the component proportions throughout the sedimentary succession. Geochemical data evaluated in terms of element association and distribution and by means of cluster analysis reveal a provenance dominated by the granitoid basement with a significant contribution of MVG debris above ~310 mbsf. Chemical fingerprints of both basic and evolved MVG materials are recognized at different depths. Below ~310 mbsf the influence of Beacon sandstones becomes more marked, but there is geochemical evidence for influxes of detritus derived from Jurassic Ferrar Dolerites and Kirkpatrick basalt lavas.

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Metrics

Dataset Index

0.7

FAIR Score

96%

Citations

Mentions

Metrics Over Time

Publication Details

DOI

10.1594/pangaea.144427

Publisher

PANGAEA

Assigned Domain

Subfield

Geochemistry and Petrology

Field

Earth and Planetary Sciences

Domain

Physical Sciences

Confidence Score

62%

Source

Scholar Data Model

Keywords

DEPTH, sediment/rockSilicon dioxideTitanium dioxideAluminium oxideIron oxide, Fe2O3Manganese oxideMagnesium oxideCalcium oxideSodium oxidePotassium oxidePhosphorus pentoxideLoss on ignitionRubidiumStrontiumYttriumZirconiumChromiumNickelBariumLanthanumCeriumVanadiumChemical index of alterationChemical index of weatheringCore wireline systemX-ray fluorescence (XRF)Calculated from weight loss after ignition at 450 °Csee commentCRP-2Sampling/drilling from iceCape Roberts Project (CRP)

Normalization Factors

46.15

CTw

1.00

MTw

1.00