Comprehensive uncertainty estimation of the timing of Greenland warmings in the Greenland ice core records
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https://hdl.handle.net/10037/27537Date
2022-06-20Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Paleoclimate proxy records have non-negligible
uncertainties that arise from both the proxy measurement
and the dating processes. Knowledge of the dating uncertainties is important for a rigorous propagation to further analyses, for example, for identification and dating of stadial–
interstadial transitions in Greenland ice core records during glacial intervals, for comparing the variability in different proxy archives, and for model-data comparisons in
general. In this study we develop a statistical framework to
quantify and propagate dating uncertainties in layer counted
proxy archives using the example of the Greenland Ice Core
Chronology 2005 (GICC05). We express the number of layers per depth interval as the sum of a structured component
that represents both underlying physical processes and biases
in layer counting, described by a regression model, and a
noise component that represents the fluctuations of the underlying physical processes, as well as unbiased counting errors. The joint dating uncertainties for all depths can then be
described by a multivariate Gaussian process from which the
chronology (such as the GICC05) can be sampled. We show
how the effect of a potential counting bias can be incorporated in our framework. Furthermore we present refined estimates of the occurrence times of Dansgaard–Oeschger events
evidenced in Greenland ice cores together with a complete
uncertainty quantification of these timings.
Publisher
Copernicus PublicationsCitation
Myrvoll-Nilsen, Riechers, Rypdal, Boers. Comprehensive uncertainty estimation of the timing of Greenland warmings in the Greenland ice core records. Climate of the Past. 2022;18(6):1275-1294Metadata
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