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Hauptverfasser: Aquino-López, Marco A, Blaauw, Maarten, Christen, J Andrés, Sanderson, Nicole K.
Format: Preprint
Veröffentlicht: 2017
Schlagworte:
Online-Zugang:https://arxiv.org/abs/1710.03181
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author Aquino-López, Marco A
Blaauw, Maarten
Christen, J Andrés
Sanderson, Nicole K.
author_facet Aquino-López, Marco A
Blaauw, Maarten
Christen, J Andrés
Sanderson, Nicole K.
contents In many studies of environmental change of the past few centuries, 210Pb dating is used to obtain chronologies for sedimentary sequences. One of the most commonly used approaches to estimate the ages of depths in a sequence is to assume a constant rate of supply (CRS) or influx of `unsupported' 210Pb from the atmosphere, together with a constant or varying amount of `supported' 210Pb. Current 210Pb dating models do not use a proper statistical framework and thus provide poor estimates of errors. Here we develop a new model for 210Pb dating, where both ages and values of supported and unsupported 210Pb form part of the parameters. We apply our model to a case study from Canada as well as to some simulated examples. Our model can extend beyond the current CRS approach, deal with asymmetric errors and mix 210Pb with other types of dating, thus obtaining more robust, realistic and statistically better defined estimates.
format Preprint
id arxiv_https___arxiv_org_abs_1710_03181
institution arXiv
publishDate 2017
record_format arxiv
spellingShingle Bayesian analysis of 210Pb dating
Aquino-López, Marco A
Blaauw, Maarten
Christen, J Andrés
Sanderson, Nicole K.
Applications
In many studies of environmental change of the past few centuries, 210Pb dating is used to obtain chronologies for sedimentary sequences. One of the most commonly used approaches to estimate the ages of depths in a sequence is to assume a constant rate of supply (CRS) or influx of `unsupported' 210Pb from the atmosphere, together with a constant or varying amount of `supported' 210Pb. Current 210Pb dating models do not use a proper statistical framework and thus provide poor estimates of errors. Here we develop a new model for 210Pb dating, where both ages and values of supported and unsupported 210Pb form part of the parameters. We apply our model to a case study from Canada as well as to some simulated examples. Our model can extend beyond the current CRS approach, deal with asymmetric errors and mix 210Pb with other types of dating, thus obtaining more robust, realistic and statistically better defined estimates.
title Bayesian analysis of 210Pb dating
topic Applications
url https://arxiv.org/abs/1710.03181