Abstract
Abstract. We present a set of observations on meltwater meandering rivulets on ice and compare them (qualitatively and quantitatively) to morphologies commonly found in meandering channels in different media. The observations include data from planned centimeter-scale experiments and from incidental self-formed millimeter-scale rivulets. Our data show pulsed lateral migration features, undercut banks and overhangs, meander bend skewness, and meander bend cutoffs. The data also compare well with planform characteristics of alluvial meandering rivers (sinuosity, wavelength-to-width ratios, and meander bend fatness and skewness). We discuss the (ir)relevance of scale in our experiments, which, in spite of being in the laminar flow regime and likely affected by surface tension effects, are capable of shedding light into the processes driving formation and evolution of supraglacial meltwater meandering channels. Our observations suggest that sinuosity growth in meltwater meandering channels on ice is a function of flow velocity and the interplay between vertical and lateral incision driven by temperature differences between flow and ice. In the absence of recrystallization (depositional analog to alluvial rivers), bends are more likely to be downstream-skewed and channels show lower sinuosities.
Highlights
Rivers and other channels containing liquid flow develop meandering patterns over different media and across a broad range of scales
Supercritical flow conditions were documented by Dahlin (1974) and Knighton (1972), and a linear stability analysis of the problem suggested that they were necessary for meandering to occur in supraglacial streams (Parker, 1975)
Sub- and supercritical flow conditions were observed in the Juneau Ice Field (Marston, 1983), and Karlstrom et al (2013) presented a new theoretical model of meander formation in supraglacial streams in which, among other outcomes, they show that meltwater meandering can occur under both superand subcritical flow conditions as long as the Froude number is greater than ∼ 0.4
Summary
Rivers and other channels containing liquid flow develop meandering patterns over different media and across a broad range of scales. It shows an ice island with melt ponds and meltwater meandering channels on its surface. It started as a very large iceberg that broke off Petermann Glacier and had been splitting into pieces as it drifted south over the Atlantic Ocean for more than a year. Similarities between alluvial meanders and supraglacial meltwater meandering channels were confirmed by other authors (Dahlin, 1974; Dozier, 1974; Ferguson, 1973; Knighton, 1972; Zeller, 1967) Notwithstanding these similarities, an important difference with alluvial meandering streams was observed. Sub- and supercritical flow conditions were observed in the Juneau Ice Field (Marston, 1983), and Karlstrom et al (2013) presented a new theoretical model of meander formation in supraglacial streams in which, among other outcomes, they show that meltwater meandering can occur under both superand subcritical flow conditions as long as the Froude number is greater than ∼ 0.4
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
