Unprecedented last-glacial mass accumulation rates determined by luminescence dating of loess from western Nebraska |
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Authors: | Helen M Roberts Daniel R Muhs Ann G Wintle Geoff A T Duller E Arthur Bettis III |
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Institution: | a Institute of Geography and Earth Sciences, University of Wales, Aberystwyth SY23 3DB, UK;b U.S. Geological Survey, MS 980, Box 25046, Federal Center, Denver, CO 80225, USA;c Department of Geoscience, University of Iowa, Iowa City, IA 52242, USA |
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Abstract: | A high-resolution chronology for Peoria (last glacial period) Loess from three sites in Nebraska, midcontinental North America, is determined by applying optically stimulated luminescence (OSL) dating to 35–50 μm quartz. At Bignell Hill, Nebraska, an OSL age of 25,000 yr near the contact of Peoria Loess with the underlying Gilman Canyon Formation shows that dust accumulation occurred early during the last glacial maximum (LGM), whereas at Devil’s Den and Eustis, Nebraska, basal OSL ages are significantly younger (18,000 and 21,000 yr, respectively). At all three localities, dust accumulation ended at some time after 14,000 yr ago. Mass accumulation rates (MARs) for western Nebraska, calculated using the OSL ages, are extremely high from 18,000 to 14,000 yr—much higher than those calculated for any other pre-Holocene location worldwide. These unprecedented MARs coincide with the timing of a mismatch between paleoenvironmental evidence from central North America, and the paleoclimate simulations from atmospheric global circulation models (AGCMs). We infer that the high atmospheric dust loading implied by these MARs may have played an important role, through radiative forcing, in maintaining a colder-than-present climate over central North America for several thousand years after summer insolation exceeded present-day values. |
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Keywords: | Dust flux Peoria Loess Optically stimulated luminescence dating OSL Quartz Coarse-silt-sized grains Mass accumulation rate (MAR) Climate forcing |
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