Objective extraction and analysis of statistical features of Dansgaard–Oeschger events

• Main Authors: J. Lohmann, P. D. Ditlevsen
• Format: Article
• Language: English
• Published: Copernicus Publications 2019-09-01
• Series: Climate of the Past
• Online Access: https://www.clim-past.net/15/1771/2019/cp-15-1771-2019.pdf

<p>The strongest mode of centennial to millennial climate variability in the paleoclimatic record is represented by Dansgaard–Oeschger (DO) cycles. Despite decades of research, their dynamics and physical mechanisms remain poorly understood. Valuable insights can be obtained by studying high-resolution Greenland ice core proxies, such as the NGRIP <span class="inline-formula"><i>δ</i>¹⁸</span>O record. However, conventional statistical analysis is complicated by the high noise level, the cause of which is partly due to glaciological effects unrelated to climate and which is furthermore changing over time. We remove the high-frequency noise and extract the most robust features of the DO cycles, such as rapid warming and interstadial cooling rates, by fitting a consistent piecewise linear model to Greenland ice core records. With statistical hypothesis tests we aim to obtain an empirical understanding of what controls the amplitudes and durations of the DO cycles. To this end, we investigate distributions and correlations between different features, as well as modulations in time by external climate factors, such as <span class="inline-formula">CO₂</span> and insolation. Our analysis suggests different mechanisms underlying warming and cooling transitions due to contrasting distributions and external influences of the stadial and interstadial durations, as well as the fact that the interstadial durations can be predicted to some degree by linear cooling rates already shortly after interstadial onset.</p>