Subglacially precipitated carbonates record geochemical interactions and pollen preservation at the base of the Laurentide Ice Sheet on central Baffin Island, eastern Canadian Arctic

Subglacially precipitated carbonates record geochemical interactions and pollen preservation at the base of the Laurentide Ice Sheet on central Baffin Island, eastern Canadian Arctic

The mineralogy and isotopic compositions of subglacially precipitated carbonate crusts (SPCCs) provide information on conditions and processes beneath former glaciers and ice sheets. Here we describe SPCCs formed on gneissic bedrock at the bed of the Laurentide Ice Sheet (LIS) during the last glacia...

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Veröffentlicht in:Quaternary research 2014-01, Vol.81 (1), p.94-105
Hauptverfasser: Refsnider, Kurt A., Miller, Gifford H., Fogel, Marilyn L., Fréchette, Bianca, Bowden, Roxane, Andrews, John T., Farmer, G. Lang
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Sprache:eng
Schlagworte:
Baffin Island
Bedrock
Calcite
Carbonate geochemistry
Carbonates
Crusts
Geochemistry
Ice sheets
Islands
Laurentide Ice Sheet
Marine
Palynology
Pollen
Stable isotopes
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container_end_page 105
container_issue 1
container_start_page 94
container_title Quaternary research
container_volume 81
creator Refsnider, Kurt A.
Miller, Gifford H.
Fogel, Marilyn L.
Fréchette, Bianca
Bowden, Roxane
Andrews, John T.
Farmer, G. Lang
description The mineralogy and isotopic compositions of subglacially precipitated carbonate crusts (SPCCs) provide information on conditions and processes beneath former glaciers and ice sheets. Here we describe SPCCs formed on gneissic bedrock at the bed of the Laurentide Ice Sheet (LIS) during the last glacial maximum on central Baffin Island. Geochemical data indicate that the Ca in the crusts was likely derived from the subglacial chemical weathering Ca-bearing minerals in the local bedrock. C and Sr isotopic analyses reveal that the C in the calcite was derived predominantly from older plant debris. The δ18O values of the SPCCs suggest that these crusts formed in isotopic equilibrium with basal ice LIS preserved in the Barnes Ice Cap (BIC). Columnar crystal fabric and the predominance of sparite over micrite in the SPCCs are indicative of carbonate precipitation under open-system conditions. However, the mean δ18O value of the calcite crusts is ~ 10‰ higher than those of primary LIS ice preserved in the BIC, demonstrating that SPCCs record the isotopic composition of only basal ice. Palynomorph assemblages preserved within the calcite and basal BIC ice include species last endemic to the Arctic in the early Tertiary. The source of these palynomorphs remains enigmatic.
doi_str_mv 10.1016/j.yqres.2013.10.014
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source Cambridge University Press Journals Complete
subjects Baffin Island
Bedrock
Calcite
Carbonate geochemistry
Carbonates
Crusts
Geochemistry
Ice sheets
Islands
Laurentide Ice Sheet
Marine
Palynology
Pollen
Stable isotopes
title Subglacially precipitated carbonates record geochemical interactions and pollen preservation at the base of the Laurentide Ice Sheet on central Baffin Island, eastern Canadian Arctic
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