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Rapid retreat of the southwestern Laurentide Ice Sheet during the Bølling-Allerød interval

Norris, Sophie L. ; Tarasov, Lev ; Monteath, Alistair J. ; [et al.]

Geological Society of America ; 2022

In: Geology Vol. 50, No. 4 ( 2022-04-01), p. 417-421

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In: Geology, Geological Society of America, Vol. 50, No. 4 ( 2022-04-01), p. 417-421

Abstract: The timing of Laurentide Ice Sheet deglaciation along its southwestern margin controlled the evolution of large glacial lakes and has implications for human migration into the Americas. Accurate reconstruction of the ice sheet's retreat also constrains glacial isostatic adjustment models and is important for understanding ice-sheet sensitivity to climate forcing. Despite its significance, retreat of the southwestern Laurentide Ice Sheet (SWLIS) is poorly constrained by minimum-limiting 14C data. We present 26 new cosmogenic 10Be exposure ages spanning the western Interior Plains, Canada. Using a Bayesian framework, we combine these data with geomorphic mapping, 10Be, and high-quality minimum-limiting 14C ages to provide an updated chronology. This dataset presents an internally consistent retreat record and indicates that the initial detachment of the SWLIS from its convergence with the Cordilleran Ice Sheet began by ca. 15.0 ka, concurrent with or slightly prior to the onset of the Bølling-Allerød interval (14.7–12.9 ka) and retreated & gt;1200 km to its Younger Dryas (YD) position in ~2500 yr. Ice-sheet stabilization at the Cree Lake Moraine facilitated a meltwater drainage route to the Arctic from glacial Lake Agassiz within the YD, but not necessarily at the beginning. Our record of deglaciation and new YD constraints demonstrate deglaciation of the Interior Plains was ~60% faster than suggested by minimum 14C constraints alone. Numerical modeling of this rapid retreat estimates a loss of ~3.7 m of sea-level equivalent from the SWLIS during the Bølling-Allerød interval.

Type of Medium: Online Resource

ISSN: 0091-7613 , 1943-2682

URL: Article

DOI: 10.1130/G49493.1

Language: English

Publisher: Geological Society of America

Publication Date: 2022

detail.hit.zdb_id: 184929-3

detail.hit.zdb_id: 2041152-2

SSG: 13

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The collapse of the Cordilleran–Laurentide ice saddle and early opening of the Mackenzie Valley, Northwest Territories, Canada, constrained by 10 Be exposure dating

Stoker, Benjamin J. ; Margold, Martin ; Gosse, John C. ; [et al.]

Copernicus GmbH ; 2022

In: The Cryosphere Vol. 16, No. 12 ( 2022-12-06), p. 4865-4886

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In: The Cryosphere, Copernicus GmbH, Vol. 16, No. 12 ( 2022-12-06), p. 4865-4886

Abstract: Abstract. Deglaciation of the northwestern Laurentide Ice Sheet in the central Mackenzie Valley opened the northern portion of the deglacial Ice-Free Corridor between the Laurentide and Cordilleran ice sheets and a drainage route to the Arctic Ocean. In addition, ice sheet saddle collapse in this section of the Laurentide Ice Sheet has been implicated as a mechanism for delivering substantial freshwater influx into the Arctic Ocean on centennial timescales. However, there is little empirical data to constrain the deglaciation chronology in the central Mackenzie Valley where the northern slopes of the ice saddle were located. Here, we present 30 new 10Be cosmogenic nuclide exposure dates across six sites, including two elevation transects, which constrain the timing and rate of thinning and retreat of the Laurentide Ice Sheet in the area. Our new 10Be dates indicate that the initial deglaciation of the eastern summits of the central Mackenzie Mountains began at ∼15.8 ka (17.1–14.6 ka), ∼1000 years earlier than in previous reconstructions. The main phase of ice saddle collapse occurred between ∼14.9 and 13.6 ka, consistent with numerical modelling simulations, placing this event within the Bølling–Allerød interval (14.6–12.9 ka). Our new dates require a revision of ice margin retreat dynamics, with ice retreating more easterly rather than southward along the Mackenzie Valley. In addition, we quantify a total sea level rise contribution from the Cordilleran–Laurentide ice saddle region of ∼11.2 m between 16 and 13 ka.

Type of Medium: Online Resource

ISSN: 1994-0424

URL: Article

DOI: 10.5194/tc-16-4865-2022

DOI: 10.5194/tc-16-4865-2022-supplement

Language: English

Publisher: Copernicus GmbH

Publication Date: 2022

detail.hit.zdb_id: 2393169-3

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Beryllium-10 dating of the Foothills Erratics Train in Alberta, Canada, indicates detachment of the Laurentide Ice Sheet from the Rocky Mountains at ~15 ka

Margold, Martin ; Gosse, John C. ; Hidy, Alan J. ; [et al.]

Cambridge University Press (CUP) ; 2019

In: Quaternary Research Vol. 92, No. 2 ( 2019-09), p. 469-482

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In: Quaternary Research, Cambridge University Press (CUP), Vol. 92, No. 2 ( 2019-09), p. 469-482

Abstract: The Foothills Erratics Train consists of large quartzite blocks of Rocky Mountains origin deposited on the eastern slopes of the Rocky Mountain Foothills in Alberta between ~53.5°N and 49°N. The blocks were deposited in their present locations when the western margin of the Laurentide Ice Sheet (LIS) detached from the local ice masses of the Rocky Mountains, which initiated the opening of the southern end of the ice-free corridor between the Cordilleran Ice Sheet and the LIS. We use 10 Be exposure dating to constrain the beginning of this decoupling. Based on a group of 12 samples well-clustered in time, we date the detachment of the western LIS margin from the Rocky Mountain front to ~14.9 ± 0.9 ka. This is ~1000 years later than previously assumed, but a lack of a latitudinal trend in the ages over a distance of ~500 km is consistent with the rapid opening of a long wedge of unglaciated terrain portrayed in existing ice-retreat reconstructions. A later separation of the western LIS margin from the mountain front implies higher ice margin–retreat rates in order to meet the Younger Dryas ice margin position near the boundary of the Canadian Shield ~2000 years later.

Type of Medium: Online Resource

ISSN: 0033-5894 , 1096-0287

URL: Article

DOI: 10.1017/qua.2019.10

RVK:

RA 1000

Language: English

Publisher: Cambridge University Press (CUP)

Publication Date: 2019

detail.hit.zdb_id: 1471589-2

detail.hit.zdb_id: 205711-6

SSG: 13

SSG: 14

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