Mid-Pacific microatolls record sea-level stability over the past 5000 yr

There has been geographical variation in sea level since rapid postglacial melting of polar ice ceased ~6 k.y. ago, reflecting isostatic adjustments of Earth and ocean surfaces to past (and ongoing) redistribution of ice and water loads. A new data set of over 100 fossil microatolls from Christmas (...

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Bibliographic Details
Published in:Geology
Main Authors: Woodroffe, Colin, McGregor, Helen, Smithers, Scott G, Fink, David, Lambeck, Kurt
Format: Article in Journal/Newspaper
Language:unknown
Published: Geological Society of America Inc
Subjects:
Keywords: Christmas
Data sets
Geographical variations
Geophysical modeling
Holocenes
Ice sheet
Ocean floor
Ocean surfaces
Polar ice
Porites
Sea-level oscillations
Water load
Ice
Sea level
atoll
coral reef
eustacy
geographical variation
Holocene
i
Pacific
Ice Sheet
Online Access:http://hdl.handle.net/1885/70038
https://doi.org/10.1130/G33344.1
https://openresearch-repository.anu.edu.au/bitstream/1885/70038/5/f5625xPUB2202_2012.pdf.jpg
https://openresearch-repository.anu.edu.au/bitstream/1885/70038/7/01_Woodroffe_Mid-Pacific_microatolls_record_2012.pdf.jpg
Description
Summary:There has been geographical variation in sea level since rapid postglacial melting of polar ice ceased ~6 k.y. ago, reflecting isostatic adjustments of Earth and ocean surfaces to past (and ongoing) redistribution of ice and water loads. A new data set of over 100 fossil microatolls from Christmas (Kiritimati) Island provides a Holocene sea-level record of unparalleled continuity. Living reef-flat corals grow up to a low-tide level. Adjacent fossil microatolls, long-lived Porites corals up to several meters in diameter, occur at similar elevations (±0.1 m), and extensive fossil microatolls in the island interior are at consistent elevations within each population. Collectively, they comprise an almost continuous sequence spanning the past 5 k.y., indicating that, locally, sea level has been within 0.25 m of its present position, and precluding global sea-level oscillations of one or more meters inferred from less stable locations, or using other sea-level indicators. This mid-Pacific atoll is tectonically stable and far from former ice sheets. The precisely surveyed and radiometrically dated microatolls indicate that sea level has not experienced significant oscillations, in accordance with geophysical modeling, which implies that the eustatic contribution from past ice melt and the isostatic adjustment of the ocean floor to loading largely cancel each other at this site.

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