Journal article

An upper-bound estimate for the accuracy of glacier volume–area scaling

  • Farinotti, Daniel German Research Centre for Geosciences (GFZ), Potsdam, Germany - Laboratory of Hydraulics, Hydrology and Glaciology (VAW), ETH Zurich, Switzerland
  • Huss, Matthias Department of Geosciences, University of Fribourg, Switzerland
Published in:
  • The Cryosphere. - 2013, vol. 7, no. 6, p. 1707–1720
English Volume–area scaling is the most popular method for estimating the ice volume of large glacier samples. Here, a series of resampling experiments based on different sets of synthetic data is presented in order to derive an upper-bound estimate (i.e. a level achieved only within ideal conditions) for its accuracy. For real-world applications, a lower accuracy has to be expected. We also quantify the maximum accuracy expected when scaling is used for determining the glacier volume change, and area change of a given glacier population. A comprehensive set of measured glacier areas, volumes, area and volume changes is evaluated to investigate the impact of real-world data quality on the so-assessed accuracies. For populations larger than a few thousand glaciers, the total ice volume can be recovered within 30% if all data currently available worldwide are used for estimating the scaling parameters. Assuming no systematic bias in ice volume measurements, their uncertainty is of secondary importance. Knowing the individual areas of a glacier sample for two points in time allows recovering the corresponding ice volume change within 40% for populations larger than a few hundred glaciers, both for steady-state and transient geometries. If ice volume changes can be estimated without bias, glacier area changes derived from volume–area scaling show similar uncertainties to those of the volume changes. This paper does not aim at making a final judgement on the suitability of volume–area scaling as such, but provides the means for assessing the accuracy expected from its application.
Faculté des sciences et de médecine
Département de Géosciences
  • English
License undefined
Persistent URL

Document views: 24 File downloads:
  • hus_ube.pdf: 45