Abstract
Abstract. Longitudinal surface structures ("flowstripes") are common on many glaciers but their origin and significance are poorly understood. In this paper we present observations of the development of these longitudinal structures from four different Antarctic glacier systems; the Lambert Glacier/Amery Ice Shelf area, the Taylor and Ferrar Glaciers in the Ross Sea sector, Crane and Jorum Glaciers (ice-shelf tributary glaciers) on the Antarctic Peninsula, and the onset zone of a tributary to the Recovery Glacier Ice Stream in the Filchner Ice Shelf area. Mapping from optical satellite images demonstrates that longitudinal surface structures develop in two main situations: (1) as relatively wide flow stripes within glacier flow units and (2) as relatively narrow flow stripes where there is convergent flow around nunataks or at glacier confluence zones. Our observations indicate that the confluence features are narrower, sharper, and more clearly defined features. They are characterised by linear troughs or depressions on the ice surface and are much more common than the former type. Longitudinal surface structures within glacier flow units have previously been explained as the surface expression of localised bed perturbations but a universal explanation for those forming at glacier confluences is lacking. Here we propose that these features are formed at zones of ice acceleration and extensional flow at glacier confluences. We provide a schematic model for the development of longitudinal surface structures based on extensional flow that can explain their ridge and trough morphology as well as their down-ice persistence.
Highlights
The aim of this paper is to present observations of longitudinal surface structures on a number of different Antarctic glaciers from detailed mapping of the surface structures visible in remotely sensed images
Our analysis of the satellite images suggests that longitudinal surface structures can develop in two main situations: (1) within glacier flow units and (2) where there is convergent flow around nunataks or at glacier confluence zones
The second type, consisting of features that form where there is convergent flow around nunataks or at flowunit boundaries/glacier confluence zones, have not been adequately explained by existing mechanisms so we concentrate on mechanisms by which these features might form
Summary
The aim of this paper is to present observations of longitudinal surface structures on a number of different Antarctic glaciers from detailed mapping of the surface structures visible in remotely sensed images. Longitudinal structures can be identified on the surface of many glaciers worldwide. They occur at the km-scale on valley glaciers to tens or even hundreds of km in length on icesheet outlet glaciers in Greenland and Antarctica and on ice shelves. In the absence of any downstream overprinting, longitudinal surface structures can persist for long distances. In their structural analysis of the former Larsen B Ice Shelf, Glasser and Scambos (2008) noted that longitudinal surface structures on tributary glaciers and their ice-shelf continuations can be traced for distances of >100 km
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