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Tidewater-glacier response to supraglacial lake drainage

Laura A. Stevens, M. Nettles, J. L. Davis, T. T. Creyts, Jonathan Kingslake, Ian Hewitt, Aaron Stubblefield

2022Nature Communications26 citationsDOIOpen Access PDF

Abstract

The flow speed of the Greenland Ice Sheet changes dramatically in inland regions when surface meltwater drains to the bed. But ice-sheet discharge to the ocean is dominated by fast-flowing outlet glaciers, where the effect of increasing surface melt on annual discharge is unknown. Observations of a supraglacial lake drainage at Helheim Glacier, and a consequent velocity pulse propagating down-glacier, provide a natural experiment for assessing the impact of changes in injected meltwater, and allow us to interrogate the subglacial hydrological system. We find a highly efficient subglacial drainage system, such that summertime lake drainage has little net effect on ice discharge. Our results question the validity of common remote-sensing approaches for inferring subglacial conditions, knowledge of which is needed for improved projections of sea-level rise.

Topics & Concepts

MeltwaterGlacierGeologyGreenland ice sheetDrainageTidewaterIce streamIce sheetGlacier ice accumulationTidewater glacier cycleGeomorphologyGlacier morphologyHydrology (agriculture)CryospherePhysical geographyOceanographySea iceGeographyGeneticsBiologyEcologyLactationGeotechnical engineeringPregnancyIce calvingCryospheric studies and observationsWinter Sports Injuries and PerformanceLandslides and related hazards
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