Measuring iceberg production with earthquakes
Global warming is significantly reducing the volume of ice sheets—like the one covering Greenland—through melting or by shearing away blocks of ice that tumble into the ocean and become icebergs, a process known as calving. The extent of calving cannot be measured through satellite observation. However, an international1 2 team led by French researchers from the CNRS and Paris Diderot University came up with the idea of using earthquakes generated when icebergs break away—felt hundreds of kilometres off—to measure this ice loss. This breakthrough in environmental seismology has made it possible to quantify Greenland glacial shrinkage through calving between 1993 and 2013, by studying the approximately 500 glacial earthquakes recorded during that decade. It has thus been shown that calving resulted in the shedding of 370 gigatonnes of ice into the Arctic Ocean. This corresponds to 8%–21% of the mass lost at the glacial fronts, melting accounting for the rest. These findings have been published in Annals of Glaciology, April 10, 2019.
- 1This research has brought together scientists from the Paris Institute of Globe Physics, or IPGP (CNRS / IGN / Paris Diderot University); the Processes and Engineering in Mechanics and Materials research laboratory (CNRS / CNAM / Arts et Métiers ParisTech); the Centre des Matériaux (CNRS / MINES ParisTech); Laboratoire Jacques-Louis Lions (CNRS / Sorbonne University / Paris Diderot University); the ETH Zürich Laboratory of Hydraulics, Hydrology and Glaciology; and the Swansea University Geography Department.
- 2This research has brought together scientists from the Paris Institute of Globe Physics, or IPGP (CNRS / IGN / Paris Diderot University); the Processes and Engineering in Mechanics and Materials research laboratory (CNRS / CNAM / Arts et Métiers ParisTech); the Centre des Matériaux (CNRS / MINES ParisTech); Laboratoire Jacques-Louis Lions (CNRS / Sorbonne University / Paris Diderot University); the ETH Zürich Laboratory of Hydraulics, Hydrology and Glaciology; and the Swansea University Geography Department.
Monitoring Greenland ice-sheet buoyancy-driven calving discharge using glacial earthquakes. Sergeant A., Mangeney A., Yastrebov V., Walter F. Montagner J.-P., Stutzmann E., Castelnau O., Bonnet P., Ralaiasoroa J.-L., Bevan S. and Luckman A. Annals of Glaciology, April 10, 2019.