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Topographic Controls on Channelized Meltwater in the Subglacial Environment

Lauren M. Simkins, Sarah L. Greenwood, Santiago Munevar Garcia, E. A. Eareckson, John B. Anderson, Lindsay O. Prothro

2021Geophysical Research Letters15 citationsDOIOpen Access PDF

Abstract

Abstract Realistic characterization of subglacial hydrology necessitates knowledge of the range in form, scale, and spatiotemporal evolution of drainage networks. A relict subglacial meltwater corridor on the deglaciated Antarctic continental shelf encompasses 80 convergent and divergent channels, many of which are hundreds of meters wide and several of which lack a definable headwater source. Without significant surface‐melt contributions to the bed like similarly described landforms in the Northern Hemisphere, channelized drainage capacity varies non‐systematically by three orders of magnitude downstream. This signifies apparent additions and losses of basal water to the bed‐channelized system that relates to bed topography. Larger magnitude grounding‐line retreat events occurred while the channel system was active than once channelized drainage had ceased. Overall, this corridor demonstrates that meltwater drainage styles co‐exist in time and space in response to bed topography, with prolonged impacts on grounding‐line behavior.

Topics & Concepts

ChannelizedMeltwaterGeologyGeomorphologyLandformDrainageChannel (broadcasting)Hydrology (agriculture)Glacial periodGeotechnical engineeringEcologyElectrical engineeringBiologyComputer scienceTelecommunicationsEngineeringCryospheric studies and observationsGeology and Paleoclimatology ResearchWinter Sports Injuries and Performance
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