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Late glacial retreat of the Lancaster Sound Ice Stream and early Holocene onset of Arctic/Atlantic throughflow in the Arctic Island channels.

Authors :
Kelleher, Robert
Jennings, Anne
Andrews, John
Brooks, Nicole K. S.
Marchitto, Tom
Feng, Shaoting
Woelders, Lineke
Normandeau, Alexandre
Jenner, Kimberley
Bennett, Robbie
Brookins, Sarah
Source :
Arctic, Antarctic & Alpine Research; 2022, Vol. 54 Issue 1, p395-427, 33p
Publication Year :
2022

Abstract

Multiple proxies in three sediment cores from Northwestern Baffin Bay document the timing of Lancaster Sound Ice Stream (LSIS) retreat that led to Arctic-Atlantic throughflow in Parry Channel, an important source of freshwater that can impact the Atlantic Meridional Overturning Circulation. The Late Glacial to Holocene timing of ice retreat and channel opening and the responses of the regional ocean environment to these events are presented. We use quantitative mineral composition, foraminiferal assemblages, biogenic silica, ice-rafted debris (IRD), and 14C-based age models to document and date the events and environmental changes occurring during deglaciation of this major marine channel. Findings show that retreat of the LSIS into Lancaster Sound occurred before ~15.3 cal ka BP, about 800 years before the onset of major iceberg calving events from the LSIS, named the Baffin Bay Detrital Carbonate events (BBDC 1 and BBDC 0). The end of BBDC 0 occurred at ~10.6 cal ka BP, which coincides with the opening of Parry Channel. A marine environment productive of calcareous benthic and planktic foraminifera, with diminished meltwater, seasonal sea ice, warmer summer temperatures, and inflowing, nutrient-rich Arctic surface water characterizes the interval between the opening of Parry Channel and the opening of Nares Strait. Paired planktic and benthic 14C ages over this 2,200-year interval show diminishing age offsets suggesting progressive mixing of the upper ~850-900 m of the water column. The opening of Nares Strait by ~8.2 cal ka BP coincides with increased biogenic silica in the form of abundant, large centric diatoms and dissolution of CaCO3. The paucity of calcareous organisms after 8.2 cal ka BP resulted in poor chronological control in the cores to interpret changing environments after 8.2 cal ka BP. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15230430
Volume :
54
Issue :
1
Database :
Complementary Index
Journal :
Arctic, Antarctic & Alpine Research
Publication Type :
Academic Journal
Accession number :
161782235
Full Text :
https://doi.org/10.1080/15230430.2022.2110689