150,000 years of loess accumulation in central Alaska

• Published in: Quaternary science reviews Vol. 135; pp. 1 - 23
• Main Authors: Jensen, Britta J.L., Evans, Michael E., Froese, Duane G., Kravchinsky, Vadim A.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2016
• Subjects: Alaska; Halfway House; Loess; Magnetic susceptibility; Marine isotope stage 5; Paleomagnetism; Paleosols; Quaternary; Tephra; INE, USA, Alaska; Loess; Tephra; Quaternary; Paleosols; Alaska; Marine isotope stage 5; Halfway House; Paleomagnetism; Magnetic susceptibility
• ISSN: 0277-3791; 1873-457X
• DOI: 10.1016/j.quascirev.2016.01.001

The Halfway House site in interior Alaska is arguably the most studied loess deposit in northwestern North America. The site contains a complex paleomagnetic and paleoenvironmental record, but has lacked the robust chronologic control that would allow its full potential to be exploited. Detailed reexamination of stratigraphy, paleomagnetics and tephrostratigraphy reveals a relatively complete marine isotope stage (MIS) 6 to Holocene record constrained by the Old Crow (124 ± 10 ka), VT (106 ± 10 ka), Sheep Creek-Klondike (ca. 80 ka), Dominion Creek (77 ± 8 ka) and Dawson (ca. 30.2 cal ka BP) tephras. We show two well-developed paleosols formed during Marine Isotope Stages (MIS) 5e and 5a, while MIS 5c and 5b are either poorly represented or absent. The new tephrostratigraphy presented here is the most complete one to date for the late Pleistocene and indicates MIS 5 sediments are more common than previously recognized. A magnetic excursion within the sediments is identified as the post-Blake excursion (94.1 ± 7.8 ka), providing independent age control and adding to the increasing body of evidence that Alaskan loess is a detailed recorder of variations of the Earth's magnetic field over time. A high-resolution magnetic susceptibility profile placed into this new chronostratigraphic framework supports the hypothesis that wind-intensity is the main variable controlling fluctuations in susceptibility. Correlation of the susceptibility record to global marine δ18O records is complicated by highly variable accumulation rates. We find the lowest rates of accumulation during peak warm and cold stages, while abrupt increases are associated with periods of transition between marine isotope (sub)stages. Building on previous accumulation models for Alaska, surface roughness is likely a leading variable controlling loess accumulation rates during transitions and peak cold periods, but the negligible accumulation during MIS 5e and 5a suggests that loess production was exceedingly low, negating the role of surface roughness. This interplay of variables leads to optimal conditions for loess accumulation during transitions between isotope stages, and to a somewhat lesser extent, stadials and interstadials. •We re-examine the Halfway House loess site in Alaska.•Magnetostratigraphy and tephrochronology are used to establish a new chronology.•The chronology and magnetic susceptibility measurements revise the stratigraphy.•There is a relatively continuous record of loess deposition for the past ∼150 ka.•Loess accumulation is greatest during marine isotope stage transitions.