Litcius/Paper detail

A modified viscous flow law for natural glacier ice: Scaling from laboratories to ice sheets

Meghana Ranganathan, Brent Minchew

2024Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Glacier flow modulates sea level and is governed largely by the viscous deformation of ice. Multiple molecular-scale mechanisms facilitate viscous deformation, but it remains unclear how each contributes to glacier-scale deformation. Here, we present a model of ice deformation that bridges laboratory and glacier scales, unifies existing estimates of the viscous parameters, and provides a framework for estimating the parameters from observations and incorporating flow laws derived from laboratory observations into glacier-flow models. Our results yield a map of the dominant deformation mechanisms in the Antarctic Ice Sheet, showing that, contrary to long-standing assumptions, dislocation creep, characterized by a value of the stress exponent [Formula: see text], likely dominates in all fast-flowing areas. This increase from the canonical value of [Formula: see text] dramatically alters the climate conditions under which marine ice sheets may become unstable and drive rapid rates of sea-level rise.

Topics & Concepts

GlacierGeologyDeformation (meteorology)Flow (mathematics)MechanicsGeomorphologyPhysicsOceanographyCryospheric studies and observationsArctic and Antarctic ice dynamicsWinter Sports Injuries and Performance