Communications Earth & Environment (Mar 2024)

The foundations of the Patagonian icefields

  • Johannes J. Fürst,
  • David Farías-Barahona,
  • Norbert Blindow,
  • Gino Casassa,
  • Guisella Gacitúa,
  • Michèle Koppes,
  • Emanuele Lodolo,
  • Romain Millan,
  • Masahiro Minowa,
  • Jérémie Mouginot,
  • Michał Pȩtlicki,
  • Eric Rignot,
  • Andres Rivera,
  • Pedro Skvarca,
  • Martin Stuefer,
  • Shin Sugiyama,
  • José Uribe,
  • Rodrigo Zamora,
  • Matthias H. Braun,
  • Fabien Gillet-Chaulet,
  • Philipp Malz,
  • Wolfgang J.-H. Meier,
  • Marius Schaefer

DOI
https://doi.org/10.1038/s43247-023-01193-7
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract The two vast Patagonian icefields are a global hotspot for ice-loss. However, not much is known about the total ice volume they store - let alone its spatial distribution. One reason is that the abundant record of direct thickness measurements has never been systematically exploited. Here, this record is combined with remotely-sensed information on past ice thickness mapped from glacier retreat. Both datasets are incorporated in a state-of-the-art, mass-conservation approach to produce a well-informed map of the basal topography beneath the icefields. Its major asset is the reliability increase of thicknesses values along the many marine- and lake-terminating glaciers. For these, frontal ice-discharge is notably lower than previously reported. This finding implies that direct climatic control was more influential for past ice loss. We redact a total volume for both icefields in 2000 of 5351 km3. Despite the wealth of observations used in this assessment, relative volume uncertainties remain elevated.