Ice Sheets & Ice Cores:Data Analysis & Stochastic Modelling

Since the discovery of the Ice Ages it has been evident that Earth’s climate is liable to undergo dramatic changes. The previous climatic period known as the Last Glacial saw large oscillations in the extent of ice sheets covering the Northern hemisphere. Understanding these oscillations known as Da...

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Bibliographic Details
Main Author: Mikkelsen, Troels Bøgeholm
Format: Book
Language:English
Published: The Niels Bohr Institute, Faculty of Science, University of Copenhagen 2017
Subjects:
Greenland
Antarc*
Antarctica
ice core
Ice Sheet
Online Access:https://curis.ku.dk/portal/da/publications/ice-sheets--ice-cores(74d12cf8-5a21-4c86-b22d-3b284c89c9f6).html
https://soeg.kb.dk/permalink/45KBDK_KGL/fbp0ps/alma99122333826705763
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Summary:Since the discovery of the Ice Ages it has been evident that Earth’s climate is liable to undergo dramatic changes. The previous climatic period known as the Last Glacial saw large oscillations in the extent of ice sheets covering the Northern hemisphere. Understanding these oscillations known as Dansgaard-Oeschger (DO) events would add to our knowledge of the climatic system and – hopefully – enable better forecasts. Likewise, to forecast possible future sea level rise it is crucial to correctly model the large ice sheets on Greenland and Antarctica. This project is divided into two parts. The first part concerns time series analysis of ice core data obtained from the Greenland Ice Sheet. We analyze parts of the time series where DO-events occur using the so-called transfer operator and compare the results with time series from a simple model capable of switching by either undergoing a bifurcation or by jumping at random. We find that the DO event time series is most consistent with the model undergoing a random transition. In the second part, we use a simple model of an ice sheet subject to constant and fluctuating temperatures, respectively. We find that the steady state volume of the ice sheet is lower for fluctuating temperatures than for a constant temperature. This finding may have implications for future long-range ice sheet projections, as the steady state ice sheet volume could be underestimated in studies using a constant temperature.

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