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Evidence from U–Th dating against Northern Hemisphere forcing of the penultimate deglaciation

Gideon M. Henderson () and Niall C. Slowey
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Gideon M. Henderson: Lamont-Doherty Earth Observatory of Columbia University
Niall C. Slowey: Texas A&M University

Nature, 2000, vol. 404, issue 6773, 61-66

Abstract: Abstract Milankovitch proposed that summer insolation at mid-latitudes in the Northern Hemisphere directly causes the ice-age climate cycles1. This would imply that times of ice-sheet collapse should correspond to peaks in Northern Hemisphere June insolation. But the penultimate deglaciation has proved controversial because June insolation peaks 127 kyr ago whereas several records of past climate suggest that change may have occurred up to 15 kyr earlier2,3,4,5,6,7,8. There is a clear signature of the penultimate deglaciation in marine oxygen-isotope records. But dating this event, which is significantly before the 14C age range, has not been possible. Here we date the penultimate deglaciation in a record from the Bahamas using a new U-Th isochron technique. After the necessary corrections for α-recoil mobility of 234U and 230Th and a small age correction for sediment mixing, the midpoint age for the penultimate deglaciation is determined to be 135 ± 2.5 kyr ago. This age is consistent with some coral-based sea-level estimates, but it is difficult to reconcile with June Northern Hemisphere insolation as the trigger for the ice-age cycles. Potential alternative driving mechanisms for the ice-age cycles that are consistent with such an early date for the penultimate deglaciation are either the variability of the tropical ocean–atmosphere system or changes in atmospheric CO2 concentration controlled by a process in the Southern Hemisphere.

Date: 2000
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DOI: 10.1038/35003541

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