Publication Date:
2023-07-11
Description:
Morphological and U-Pb isotope studies on sedimentary zircons reflect the orogenic evolution of their former host rocks. The orogenic history of detrital zircons from the Trinity Peninsula Formation (TPF) defines the former geological surrounding of the sedimentation basin of the TPF. Same few weil rounded, polycyclic zircons of Precambrian age and Cambrian overprint give hints for an old cratonic source rock. Because of their very low frequency compared with euhedral types, the contribution of an cratonic shield area to the bulk of the sedimentary debris is neglectable low. Euhedral zircons of granitoid origin and Carboniferous age indicate a derivation from an area of widespread Carboniferous intrusions. Except for southern South America and unsurveyed regions in the Antarctic Peninsula itself, no region could deliver zircons with a Carboniferous age record. The only acceptable explanation for the origin of these zircons is a position of the Antarctic Peninsula during the sedimentation of the TPF approximately southwest of southern South America.
Keywords:
Age, 206Pb/207Pb Lead-Lead; Age, 235U/207Pb Uranium-Lead; Age, 238U/206Pb Uranium-Lead; Age, dated; Corrected; Event label; Gandara; Gandara Island, Antarctic Peninsula; Geological sample; GEOS; Lead; Lead-206; Lead-206/Lead-204 ratio; Lead-206/Uranium-238 ratio; Lead-207/Lead-206 ratio; Lead-207/Uranium-235 ratio; Lead-208/Lead-206 ratio; Livingston + Hurd Island, South Shetland Islands, Western Antarctica; Livingston-Hurd; Mass; Measured; Sample comment; Size fraction; Uranium
Type:
Dataset
Format:
text/tab-separated-values, 390 data points
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