Your search keyword '"Laabs, Benjamin J.C."' showing total 3 results

1. Timing of the last glaciation and subsequent deglaciation in the Ruby Mountains, Great Basin, USA

Author

Laabs, Benjamin J.C., Munroe, Jeffrey S., Best, Laura C., and Caffee, Marc W.

Subjects

*GLACIATION, *PLEISTOCENE paleontology, *GLACIERS, *COSMOGENIC nuclides, *GLACIAL landforms, *MORAINES, *CLIMATE change, *RADIOISOTOPES

Abstract

Abstract: The timing of the last Pleistocene glaciation in western North America is becoming increasingly well understood, largely due to improved methods of obtaining numerical ages of glacial deposits and landforms. Among these, cosmogenic radionuclide surface-exposure dating has been widely applied to moraines of mountain glaciers, providing the framework for understanding terrestrial climate change during and since the last glaciation in western North America. During the Late Pleistocene, the Great Basin of the western United States hosted numerous mountain glaciers, the deposits of which can provide valuable records of past climate changes if their ages can be precisely determined. In this study, twenty-nine cosmogenic radionuclide 10Be surface-exposure ages from a suite of moraines in Seitz Canyon, western Ruby Mountains, limit the timing of the last glacial episode in the interior Great Basin, known as the Angel Lake Glaciation. Results indicate that deposition of a terminal moraine and two recessional moraines began just prior to ∼20.5ka and continued until ∼20.0ka. Retreat from the next younger recessional moraine began at ∼17.2ka, and final deglaciation began at ∼14.8ka. These ages are broadly consistent with cosmogenic surface-exposure ages from the eastern Sierra Nevada and the western Wasatch Mountains, in the western and eastern extremes of the Great Basin respectively. Furthermore, these ages suggest that the valley glacier in Seitz Canyon was at or near its maximum extent before and during the hydrologic maxima of Pleistocene lakes in the Great Basin, supporting previous suggestions that a cool and wet climate persisted in this region during the early part of the last glacial–interglacial transition. [Copyright &y& Elsevier]

Published

2013

2. Chronology of latest Pleistocene mountain glaciation in the western Wasatch Mountains, Utah, U.S.A.

Author

Laabs, Benjamin J.C., Marchetti, David W., Munroe, Jeffrey S., Refsnider, Kurt A., Gosse, John C., Lips, Elliott W., Becker, Richard A., Mickelson, David M., and Singer, Brad S.

Subjects

*CHRONOLOGY, *PLEISTOCENE stratigraphic geology, *GLACIERS, *CLIMATE change, *CANYONS

Abstract

Abstract: Understanding the timing of mountain glacier and paleolake expansion and retraction in the Great Basin region of the western United States has important implications for regional-scale climate change during the last Pleistocene glaciation. The relative timing of mountain glacier maxima and the well-studied Lake Bonneville highstand has been unclear, however, owing to poor chronological limits on glacial deposits. Here, this problem is addressed by applying terrestrial cosmogenic 10Be exposure dating to a classic set of terminal moraines in Little Cottonwood and American Fork Canyons in the western Wasatch Mountains. The exposure ages indicate that the main phase of deglaciation began at 15.7±1.3ka in both canyons. This update to the glacial chronology of the western Wasatch Mountains can be reconciled with previous stratigraphic observations of glacial and paleolake deposits in this area, and indicates that the start of deglaciation occurred during or at the end of the Lake Bonneville hydrologic maximum. The glacial chronology reported here is consistent with the growing body of data suggesting that mountain glaciers in the western U.S. began retreating as many as 4ka after the start of northern hemisphere deglaciation (at ca. 19ka). [Copyright &y& Elsevier]

Published

2011

3. Latest Pleistocene glacial and climate history of the Wasatch Range, Utah.

Author

Quirk, Brendon J., Moore, Jeffrey R., Laabs, Benjamin J.C., Plummer, Mitchell A., and Caffee, Marc W.

Subjects

*GLACIAL climates, *HOLOCENE Epoch, *GLACIATION, *ALPINE glaciers, *LAST Glacial Maximum, *GLACIAL landforms, *GLACIAL melting

Abstract

The geologic record of mountain glaciation is one of the most sensitive archives of terrestrial climate change during the late Quaternary Period. Pleistocene glacial deposits are exceptionally well preserved in the Great Basin of North America where they are found in close proximity to shoreline deposits of coeval paleo-lakes, representing a unique opportunity to investigate paleoclimate change using both hydrologic systems. Mountain glaciers advanced across much of the Wasatch Range, Utah during the same general time interval when Lake Bonneville expanded in the adjacent Bonneville Basin. Here we present a range-wide Latest Pleistocene glacial history for the Wasatch Range based on 22 new and 41 recalculated cosmogenic 10Be surface exposure ages, and reconstruct glaciers and climate for the Last Glacial Maximum (LGM) and Lateglacial periods. Our results indicate three distinct, range-wide phases of glaciation in the Wasatch including the Pinedale 1 (ca. 21–20 ka), Pinedale 2 (ca. 17.5 ka) and Pinedale 3 (ca. 15 ka). Our modeling results indicate that the Pinedale 1 advance, near the end of the global LGM, was primarily driven by decreased annual temperatures with little to no change in precipitation as compared to modern. Wasatch glaciers appear to have reoccupied near maximum positions after the end of the LGM during the Pinedale 2, responding to increased precipitation in concert with rising lake levels across Western North America, and then retreated from ice-distal positions near ca. 17.5 ka. Wasatch glaciers occupied recessional positions at approximately half their maximum lengths during Pinedale 3 until ca. 15 ka, followed by rapid (i.e. several millennia) deglaciation. Our glacial chronologies establish that Wasatch glaciers responded synchronously across the range to global and regional climate forcings during the Latest Pleistocene. The new Wasatch glacial chronology, combined with global glacial chronologies and paleoclimate proxies from Western North America, suggest glacier change was driven by a combination of long-term global temperature forcing as well as regional to local modifications in precipitation. • Paleoclimate modeling and glacial mapping for the Latest Pleistocene in the Wasatch. • 22 new and 41 recalculated cosmogenic exposure ages. • Three range-wide glacial stadia at ca. 21–20 ka, ca. 17.5 ka, and ca. 15 ka. • Modeling suggests −9 to −11.5 °C depression (relative to modern) during LGM. • Modeling shows increase in precipitation (200% of modern) during Lateglacial. [ABSTRACT FROM AUTHOR]

Published

2020