Analysis of an Arctic sea ice loss model in the limit of a discontinuous albedo

Kaitlin Hill, Dorian S. Abbot, Mary Silber

    Research output: Contribution to journalArticlepeer-review

    5 Scopus citations

    Abstract

    As Arctic sea ice extent decreases with increasing greenhouse gases, there is a growing interest in whether there could be a bifurcation associated with its loss, and whether there is significant hysteresis associated with that bifurcation. A challenge in answering this question is that the bifurcation behavior of certain Arctic energy balance models have been shown to be sensitive to how ice-albedo feedback is parameterized. We analyze an Arctic energy balance model in the limit as a smoothing parameter associated with ice-albedo feedba ck tends to zero, which introduces a discontinuity boundary to the dynamical systems model. Our analysis provides a case study where we use the system in this limit to guide the investigation of b ifurcation behavior of the original albedo-smoothed system. In this case study, we demonstrate th at certain qualitative bifurcation behaviors of the albedo-smoothed system can have counterparts in the limit with no albedo smoothing. We use this perspective to systematically explore the parameter space of the model. For example, we uncover parameter sets for which the largest transition, with increasing greenhouse gases, is from a perennially ice-covered Arctic to a seasonally ice-free state, an unusual bifurcation scenario that persists even when albedo-smoothing is reintroduced. This analysis provides an alternative perspective on how parameters of the model affect bifurcation behavior. We expect our approach, which exploits the width of repelling sliding intervals for understanding the hysteresis loops, would carry over to other positive feedback systems with a similar natural piecewise-smooth limit, and when the feedback strength is likewise modulated with seasons or other periodic forcing.

    Original languageEnglish (US)
    Pages (from-to)1163-1192
    Number of pages30
    JournalSIAM Journal on Applied Dynamical Systems
    Volume15
    Issue number2
    DOIs
    StatePublished - Jan 1 2016

    Bibliographical note

    Funding Information:
    This author's work was additionally supported by a Microsoft Research Graduate Women's Scholarship and an NSF Graduate Research Fellows hip under grant DGE-1324585.

    Publisher Copyright:
    © 2016 Society for Industrial and Applied Mathematics.

    Copyright:
    Copyright 2016 Elsevier B.V., All rights reserved.

    Keywords

    • Arctic sea ice
    • Climate tip ping points
    • Filippov
    • Ice-albedo feedback
    • Nonsmooth dynamical system

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