Your search keyword '"Randolph J. Enkin"' showing total 2 results

1. Provenance and Deposition of Glacial Lake Missoula Lacustrine and Flood Sediments Determined from Rock Magnetic Properties

Author

John J. Clague, Michelle A. Hanson, Randolph J. Enkin, and René W. Barendregt

Subjects

010506 paleontology, Provenance, Varve, 010504 meteorology & atmospheric sciences, Lithology, Sediment, Outburst flood, 01 natural sciences, Sedimentary depositional environment, Water column, Arts and Humanities (miscellaneous), General Earth and Planetary Sciences, Glacial lake, Geomorphology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Repeated outburst flooding from glacial Lake Missoula, Montana, affected large areas of Washington during Marine Oxygen Isotope Stage 2 (29–14 ka). We present the first high-resolution rock magnetic results from two sites that are critical to interpreting these outburst floods and that provide evidence of sediment provenance: glacial Lake Missoula, the source of the floods; and glacial Lake Columbia, where floodwaters interrupted sedimentation. Magnetic carriers in glacial Lake Missoula varves are dominated by hematite, whereas those in outburst flood sediments and glacial Lake Columbia sediments are mainly magnetite and titano-magnetite. Stratigraphic variation of magnetic parameters is consistent with changes in lithology. Importantly, magnetic properties highlight depositional processes in the flood sediments that are not evident in the field. In glacial Lake Columbia, hematite is present in fine silt and clay deposited near the end of each flood as fine sediment settled out of the water column. This signal is only present at the end of the floods because the hematite is concentrated in the finer-grained sediment transported from the floor of glacial Lake Missoula, the only possible source of hematite, ~ 240 km away.

Published

2015

2. Recurring middle Pleistocene outburst floods in east-central Alaska

Author

Duane G. Froese, Derald G. Smith, Amanjit S. Sandhu, Thomas A. Ager, Randolph J. Enkin, Florence R. Weber, John A. Westgate, and Shari J. Preece

Subjects

Flood myth, Pleistocene, Silt, Fission track dating, Paleontology, Arts and Humanities (miscellaneous), Interglacial, General Earth and Planetary Sciences, Glacial period, Paleocurrent, Tephra, Geomorphology, Geology, Earth-Surface Processes

Abstract

Recurring glacial outburst floods from the Yukon-Tanana Upland are inferred from sediments exposed along the Yukon River near the mouth of Charley River in east-central Alaska. Deposits range from imbricate gravel and granules indicating flow locally extending up the Yukon valley, to more distal sediments consisting of at least 10 couplets of planar sands, granules, and climbing ripples with up-valley paleocurrent indicators overlain by massive silt. An interglacial organic silt, occurring within the sequence, indicates at least two flood events are associated with an earlier glaciation, and at least three flood events are associated with a later glaciation which postdates the organic silt. A minimum age for the floods is provided by a glass fission track age of 560,000 ± 80,000 yr on the GI tephra, which occurs 8 m above the flood beds. A maximum age of 780,000 yr for the floods is based on normal magnetic polarity of the sediments. These age constraints allow us to correlate the flood events to the early-middle Pleistocene. And further, the outburst floods indicate extensive glaciation of the Yukon-Tanana Upland during the early-middle Pleistocene, likely representing the most extensive Pleistocene glaciation of the area.

Published

2003