Reconciliation of late Quaternary sea levels derived from coral terraces at Huon Peninsula with deep sea oxygen isotope records

A major discrepancy between the Late Quaternary sea level changes derived from raised coral reef terraces at the Huon Peninsula in Papua New Guinea and from oxygen isotopes in deep sea cores is resolved. The two methods agree closely from 120 ka to 80 ka and from 20 ka to 0 ka (ka = 1000 yr before p...

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Bibliographic Details
Published in:Earth and Planetary Science Letters
Main Authors: Chappell, J, Omura, A, Esat, T, McCulloch, M, Pandolfi, J, Ota, Y, Pillans, B
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 1996
Subjects:
quaternary
Huon Peninsula
U-234/Th-230
O-18/o-16
sea-level changes
Papua-New-Guinea
Tectonic Movements
Pleistocene
Holocene
Island
Ages
1901 Earth and Planetary Sciences (miscellaneous)
1906 Geochemistry and Petrology
1908 Geophysics
1912 Space and Planetary Science
Greenland
Huon
Greenland ice cores
Online Access:https://espace.library.uq.edu.au/view/UQ:293186
Description
Summary:A major discrepancy between the Late Quaternary sea level changes derived from raised coral reef terraces at the Huon Peninsula in Papua New Guinea and from oxygen isotopes in deep sea cores is resolved. The two methods agree closely from 120 ka to 80 ka and from 20 ka to 0 ka (ka = 1000 yr before present), but between 70 and 30 ka the isotopic sea levels are 20-40 m lower than the Huon Peninsula sea levels derived in earlier studies. New, high precision U-series age measurements and revised stratigraphic data for Huon Peninsula terraces aged between 30 and 70 ka now give similar sea levels to those based on deep sea oxygen isotope data planktonic and benthic delta(18)O data. Using the sea level and deep sea isotopic data, oxygen isotope ratios are calculated for the northern continental ice sheets through the last glacial cycle and are consistent with results from Greenland ice cores. The record of ice volume changes through the last glacial cycle now appears to be reasonably complete.

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