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Showing 1–9 of 9 results
Advanced filters: Author: Ingo Sasgen Clear advanced filters

  • The Gravity Recovery and Climate Experiment (GRACE) mission, launched in 2002, allows monitoring of changes in hydrology and the cryosphere with terrestrial and ocean applications. This Review Article focuses on its contribution to the detection and quantification of climate change signals.

    • Byron D. Tapley
    • Michael M. Watkins
    • Isabella Velicogna
    Reviews
    Nature Climate Change
    Volume: 9, P: 358-369

  • The different contributions of long-term and short-term variability to the evolution of ice sheets lead to substantial uncertainties in ice sheet models. This Review describes the response of ice sheets to oceanic, atmospheric and hydrological processes across a range of timescales.

    • Edward Hanna
    • Dániel Topál
    • Lizz Ultee
    Reviews
    Nature Reviews Earth & Environment
    Volume: 5, P: 193-210

  • Glacial mass is dependent on the balance between melt and snow accumulation, which is impacted by rising Arctic temperatures. Glacier mass balances in Svalbard and northern Canada were asynchronous since the 1990s, related to changes in patterns of atmospheric heat advection.

    • Ingo Sasgen
    • Annette Salles
    • Christoph Beck
    ResearchOpen Access
    Nature Climate Change
    Volume: 12, P: 249-255

  • The Greenland Ice Sheet is the largest land ice contributor to sea level rise and understanding the long-term glacier response to external forcing is key to improved projections. Here the authors show Greenland’s three largest outlet glaciers will likely exceed current worst-case scenario

    • Shfaqat A. Khan
    • Anders A. Bjørk
    • Toni Schenk
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-9

  • Broad scale variations in glacier mass balance and active layer thickness across the Arctic are connected to large-scale atmospheric circulation patterns, according to a pan-Arctic analysis which combines model output, remote sensing data and field measurements.

    • Ingo Sasgen
    • Grit Steinhoefel
    • Guido Grosse
    ResearchOpen Access
    Communications Earth & Environment
    Volume: 5, P: 1-15

  • An intercomparison exercise reassesses mass loss from glaciers worldwide based on the main in situ and satellite methods from 2000 to 2023; the results are consistent with previous assessments and provide a refined and comprehensive observational baseline for future impact and modelling studies.

    • Michael Zemp
    • Livia Jakob
    • Whyjay Zheng
    ResearchOpen Access
    Nature
    Volume: 639, P: 382-388

  • Three techniques for estimating mass losses from the Greenland Ice Sheet produce comparable results for the period 1992–2018 that approach the trajectory of the highest rates of sea-level rise projected by the IPCC.

    • Andrew Shepherd
    • Erik Ivins
    • Jan Wuite
    Research
    Nature
    Volume: 579, P: 233-239