The dataset contains U-Pb radiometric ages of zircon grains from sedimentary rocks and modern river sands from the Caucasus region of western Asia. The data were collected as part of a research project investigating the effects of continental collision in the Caucasus region on regional erosion and sedimentary systems. The data are presented using the standard quantities reported for zircon U-Pb age analyses at the University of Arizona Laserchron Center.
Tye, A. R., Niemi, N. A., Safarov, R. T., Kadirov, F. A., & Babayev, G. R. (2021). Sedimentary response to a collision orogeny recorded in detrital zircon provenance of Greater Caucasus foreland basin sediments. Basin Research, 33(2), 933–967. https://doi.org/10.1111/bre.12499
Detrital zircon age distributions provide robust insights into past sedimentary systems,
but these age distributions are often complex and multi-peaked, with sample sizes too
small to confidently resolve population distributions. This limited sampling hinders
existing quantitative methods for comparing detrital zircon age distributions, which
show systematic dependence on the sizes of compared samples. The proliferation of
detrital zircon studies motivates the development of more robust quantitative methods.
We present the first attempt, to our knowledge, to infer probability model ensembles
(PMEs) for samples of detrital zircon ages using a Bayesian method. Our method infers
the parent population age distribution from which a sample is drawn, using a Monte
Carlo approach to aggregate a representative set of probability models that is consistent
with the constraints that the sample data provide.
Using the PMEs inferred from sample data, we develop a new estimate of correspondence
between detrital zircon populations called Bayesian Population Correlation
(BPC). Tests of BPC on synthetic and real detrital zircon age data show that it is nearly
independent from sample size bias, unlike existing correspondence metrics. Robust
BPC uncertainties can be readily estimated, enhancing interpretive value.
When comparing two partially overlapping zircon age populations where the shared
proportion of each population is independently varied, BPC results conform almost perfectly
to expected values derived analytically from probability theory. This conformity
of experimental and analytical results permits direct inference of the shared proportions
of two detrital zircon age populations from BPC. We provide MATLAB scripts to facilitate the procedures we describe.
A.R. Tye, A.S. Wolf, N.A. Niemi, Bayesian population correlation: A probabilistic approach to inferring and comparing population distributions for detrital zircon ages, Chemical Geology, Volume 518, 2019, Pages 67-78, ISSN 0009-2541, https://doi.org/10.1016/j.chemgeo.2019.03.039
