Other
Scientific paper
Feb 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993e%26psl.114..529e&link_type=abstract
Earth and Planetary Science Letters, Volume 114, Issue 4, p. 529-547.
Other
24
Scientific paper
U/Th (TIMS) and 14C (AMS) measurements are presented from two coral cores from the Easter group of the Houtman Abrolhos Islands between 28°S and 29°S on the western continental margin of Australia. The U/Th measurements on the Morley core from Morley Island cover a depth interval from 0.2 m above present sea level to 24.4 m below present sea level and comprise eleven samples. The ages vary between 6320 +/- 50 a, at 0.2 m above sea level, and 9809 +/- 95 a, at 24.4 m below sea level (all errors are 2σ). The mean growth rate is 7.1 +/- 0.9 m/ka. The 14C dates of selected Morley core corals show that the 14C ages are ~ 1000 a younger than their corresponding U/Th ages, which agrees with previous results. The main purpose of our 14C measurements is to be able to compare them precisely with other coral cores where no U/Th measurements are available. The U/Th measurements of the Suomi core from Suomi Island cover a depth interval from 0.05 m to 14.2 m below present sea level and consist of four samples. The ages vary between 4671 +/- 40 a, at 0.05 m below sea level, and 7102 +/- 82 a, at 14.2 m below sea level, with a mean growth rate of 5.8 +/- 0.2 m/ka. The growth history of both cores is explained by a simple model in which the growth rates of the Morley core can be interpreted as reflecting local rates of sea level rise, whereas the Suomi core is interpreted as reflecting lateral growth during the past ~ 6000 a.
Our results indicate that sea level relative to the western margins of the Australian continent was about 24 m lower than present at about 9800 a B.P. (14C gives a date of 8500 a B.P.). Sea level then rose and reached a highstand, slightly higher than the present position at about 6300 a B.P (14C date: 5500 a). This highstand declined but was still higher than present at 4600 a B.P. This is in agreement with previous observations along the Australian coastal margins and with observations from the Huon peninsula (Papua New Guinea). Our results are very similar to theoretical numerical models, which take into consideration water loading and isostatic compensation and viscous mantle flow. In contrast, coral cores from Barbados show that corals with a 14C age of ~ 5500 a B.P. are some ~ 10 m b.p.s.l. We interpret the difference between the Barbados core and the Morley core as resulting from additional ``flooding'' of Barbados by water redistribution, due to changes in the Earth's geoid but not reflecting global sea level rise or major addition of melt waters over the past ~ 6000 a. The difference in the geoid at Barbados between ~ 6000 a B.P. and the present will require a refinement in the geophysical models. Precise 230Th (TIMS) measurements on continental coasts will be required to provide an adequate data base for modelling deformation, flow of mantle material and sea-level height.
Bonani George
Chen Jacqueline H.
Collins L. B.
Eisenhauer Anton
Wasserburg Gerald J.
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