Nore Praet Nicholas P. McKay Darrell S. Kaufman Britta J.L. Jensen Peter J. Haeussler Casey Buchanan Marc De Batist David Fortin 2019 <div id="abstracts" class="Abstracts u-font-serif"><div id="abs0010" class="abstract author" lang="en"><div id="abssec0010"><p id="abspara0010"><span>Developing robust chronological frameworks of&nbsp;lacustrine sediment&nbsp;is central to reconstructing past environmental changes. We present&nbsp;varve&nbsp;chronologies from five sites extending back 2300 years from Eklutna Lake, in the Chugach Mountains of south-central Alaska. The chronologies are built from image analysis of high-resolution photographs and CT scans of&nbsp;sediment cores. The age uncertainty of each record is tested by three methods. We first present varve chronologies from individual sites and reconcile the difference in varve&nbsp;</span>delimitation<span>&nbsp;from two observers. The varve chronologies from each site are then compared to each other using a series of marker beds that can be traced across the lake basin. Finally, using a new Bayesian probabilistic model, we develop age models that incorporate information regarding age uncertainty from the multiple-observer method and the age distribution of marker layers from multiple cores. To evaluate the accuracy of the Bayesian model output, we used seven radiocarbon ages from terrestrial macrofossils and four&nbsp;tephra&nbsp;layers traceable across the core sites. The major-element&nbsp;geochemistry&nbsp;of the tephra layers and their ages are presented here for the first time. The Bayesian age model offers a new approach to quantifying age uncertainty in inter-correlated cores of varved sediment.</span></p></div></div></div><ul id="issue-navigation" class="issue-navigation u-margin-s-bottom u-bg-grey1"></ul> application/pdf 10.1016/j.quascirev.2018.10.018 en Elsevier New approach to assessing age uncertainties – The 2300-year varve chronology from Eklutna Lake, Alaska (USA) article