Sand calcites as a key to Pleistocene periglacial landscapes

We tested the potential for sand calcites to serve as a novel paleoclimate archive by investigating their age and formation conditions. Fontainebleau sand calcites are Pleistocene in age (based on 14C and U-Th dating) and were primarily formed during glacial periods. δ13C values increase with the de...

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Veröffentlicht in:	Quaternary research 2021-05, Vol.101, p.225-244, Article 0033589420000988
Hauptverfasser:	Thiry, Médard, Innocent, Christophe, Girard, Jean-Pierre, Milnes, Anthony Richard, Franke, Christine, Guillon, Sophie
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Sprache:	eng
Schlagworte:	Carbon dioxide Crystallization Crystals Degassing Environmental conditions Geography, Physical Geology Geosciences, Multidisciplinary Groundwater Laboratories Low temperature Meteoric water Mineralogy Paleoclimate Permafrost Physical Geography Physical Sciences Pleistocene Precipitation Research Article Sand Science & Technology Stone Surface water
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creator	Thiry, Médard Innocent, Christophe Girard, Jean-Pierre Milnes, Anthony Richard Franke, Christine Guillon, Sophie
description	We tested the potential for sand calcites to serve as a novel paleoclimate archive by investigating their age and formation conditions. Fontainebleau sand calcites are Pleistocene in age (based on 14C and U-Th dating) and were primarily formed during glacial periods. δ13C values increase with the depth at which these sand calcites formed, consistent with open and closed CO2 systems. Interpretation of the δ18O-T relationship in sand calcites points primarily to their formation at a low temperature, around 2°C in shallow ground water and at about 9°C in deeper ground-water settings. Their occurrence, characteristics, and compositions suggest crystallization from paleo-ground waters in permafrost environments. Crystallization of sand calcites was triggered by degassing of cold carbonate-containing surface waters as they infiltrated warmer subsurface ground-water environments. We consider sand calcites to be important indicators of interactions between meteoric water and ground water in Pleistocene periglacial landscapes. Their disposition may point to specific features of periglacial landscapes, and their ages could permit an assessment of landscape incision rates. Large crystals and zoned spheroliths may, in fact, encapsulate continuous high-resolution records of continental glacial and periglacial paleoenvironments.
doi_str_mv	10.1017/qua.2020.98
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Fontainebleau sand calcites are Pleistocene in age (based on 14C and U-Th dating) and were primarily formed during glacial periods. δ13C values increase with the depth at which these sand calcites formed, consistent with open and closed CO2 systems. Interpretation of the δ18O-T relationship in sand calcites points primarily to their formation at a low temperature, around 2°C in shallow ground water and at about 9°C in deeper ground-water settings. Their occurrence, characteristics, and compositions suggest crystallization from paleo-ground waters in permafrost environments. Crystallization of sand calcites was triggered by degassing of cold carbonate-containing surface waters as they infiltrated warmer subsurface ground-water environments. We consider sand calcites to be important indicators of interactions between meteoric water and ground water in Pleistocene periglacial landscapes. Their disposition may point to specific features of periglacial landscapes, and their ages could permit an assessment of landscape incision rates. Large crystals and zoned spheroliths may, in fact, encapsulate continuous high-resolution records of continental glacial and periglacial paleoenvironments.</description><identifier>ISSN: 0033-5894</identifier><identifier>EISSN: 1096-0287</identifier><identifier>DOI: 10.1017/qua.2020.98</identifier><language>eng</language><publisher>New York, USA: Cambridge University Press</publisher><subject>Carbon dioxide ; Crystallization ; Crystals ; Degassing ; Environmental conditions ; Geography, Physical ; Geology ; Geosciences, Multidisciplinary ; Groundwater ; Laboratories ; Low temperature ; Meteoric water ; Mineralogy ; Paleoclimate ; Permafrost ; Physical Geography ; Physical Sciences ; Pleistocene ; Precipitation ; Research Article ; Sand ; Science & Technology ; Stone ; Surface water</subject><ispartof>Quaternary research, 2021-05, Vol.101, p.225-244, Article 0033589420000988</ispartof><rights>Copyright © University of Washington. 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subjects	Carbon dioxide Crystallization Crystals Degassing Environmental conditions Geography, Physical Geology Geosciences, Multidisciplinary Groundwater Laboratories Low temperature Meteoric water Mineralogy Paleoclimate Permafrost Physical Geography Physical Sciences Pleistocene Precipitation Research Article Sand Science & Technology Stone Surface water
title	Sand calcites as a key to Pleistocene periglacial landscapes
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