Evidence that excess ^sup 210^Pb flux varies with sediment accumulation rate and implications for dating recent sediments

Most ^sup 210^Pb dating models assume that atmospheric flux of excess ^sup 210^Pb (^sup 210^Pb^sub exc^) to the sediment-water interface remains constant over time. We revisited this assumption using statistical analysis of a database of laminated sediments and evaluated the implications for radiome...

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Veröffentlicht in:	Journal of paleolimnology 2014-10, Vol.52 (3), p.121
Hauptverfasser:	Abril, José-maría, Brunskill, Gregg J
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Sprache:	eng
Schlagworte:	Aquatic environment Cores Fluctuations Lakes Radiometric dating Radiometry Sediment-water interface Sediments Statistical analysis
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container_title	Journal of paleolimnology
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creator	Abril, José-maría Brunskill, Gregg J
description	Most ^sup 210^Pb dating models assume that atmospheric flux of excess ^sup 210^Pb (^sup 210^Pb^sub exc^) to the sediment-water interface remains constant over time. We revisited this assumption using statistical analysis of a database of laminated sediments and evaluated the implications for radiometric dating of recent deposits. A bibliographic survey enabled us to create a database with 10 annually laminated sediment cores from a variety of aquatic systems. The database has records of ^sup 210^Pb^sub exc^ flux, initial ^sup 210^Pb^sub exc^ activity, and sediment accumulation rate (SAR). ^sup 210^Pb^sub exc^ flux to sediments varied with time, and 1/3 of the data had relative deviations from the mean value >25 %. There was no statistically significant correlation between activities at the core top and SAR, whereas a statistically significant (p < 0.01) linear regression between ^sup 210^Pb^sub exc^ flux and SAR was found for nine of the ten cores. Thus, in most of the studied aquatic systems, ^sup 210^Pb^sub exc^ flux to the sediment was governed primarily by flux of matter, rather than by direct atmospheric ^sup 210^Pb^sub exc^ deposition. Errors in chronology and SAR, attributable to varying ^sup 210^Pb^sub exc^ flux and estimated by the constant rate of supply (CRS) model, were evaluated from its analytical solutions, and tested against SAR values from this database that were derived independently from varves. We identified several constraints for general application of the CRS model, which must be taken into account to avoid its misuse.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s10933-014-9782-6
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We revisited this assumption using statistical analysis of a database of laminated sediments and evaluated the implications for radiometric dating of recent deposits. A bibliographic survey enabled us to create a database with 10 annually laminated sediment cores from a variety of aquatic systems. The database has records of ^sup 210^Pb^sub exc^ flux, initial ^sup 210^Pb^sub exc^ activity, and sediment accumulation rate (SAR). ^sup 210^Pb^sub exc^ flux to sediments varied with time, and 1/3 of the data had relative deviations from the mean value >25 %. There was no statistically significant correlation between activities at the core top and SAR, whereas a statistically significant (p < 0.01) linear regression between ^sup 210^Pb^sub exc^ flux and SAR was found for nine of the ten cores. Thus, in most of the studied aquatic systems, ^sup 210^Pb^sub exc^ flux to the sediment was governed primarily by flux of matter, rather than by direct atmospheric ^sup 210^Pb^sub exc^ deposition. Errors in chronology and SAR, attributable to varying ^sup 210^Pb^sub exc^ flux and estimated by the constant rate of supply (CRS) model, were evaluated from its analytical solutions, and tested against SAR values from this database that were derived independently from varves. 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subjects	Aquatic environment Cores Fluctuations Lakes Radiometric dating Radiometry Sediment-water interface Sediments Statistical analysis
title	Evidence that excess ^sup 210^Pb flux varies with sediment accumulation rate and implications for dating recent sediments
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