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  • Large icebergs characterist...
    Tournadre, J.; Bouhier, N.; Girard-Ardhuin, F.; Rémy, F.

    Journal of Geophysical Research, March 2015, Volume: 120, Issue: 3
    Journal Article

    Large uncertainties exist on the volume of ice transported by the Southern Ocean large icebergs, a key parameter for climate studies, because of the paucity of information, especially on iceberg thickness. Using icebergs tracks from the National Ice Center (NIC) and Brigham Young University (BYU) databases to select altimeter data over icebergs and a method of analysis of altimeter waveforms, a database of 5366 icebergs freeboard elevation, length, and backscatter covering the 2002–2012 period has been created. The database is analyzed in terms of distributions of freeboard, length, and backscatter showing differences as a function of the iceberg's quadrant of origin. The database allows to analyze the temporal evolution of icebergs and to estimate a melt rate of 35–39 m·yr−1 (neglecting the firn compaction). The total daily volume of ice, estimated by combining the NIC and altimeter sizes and the altimeter freeboards, regularly decreases from 2.2 104km3 in 2002 to 0.9 104km3 in 2012. During this decade, the total loss of ice ( ∼1800 km3·yr−1) is twice as large as than the input ( ∼960 km3·yr−1) showing that the system is out of equilibrium after a very large input of ice between 1997 and 2002. Breaking into small icebergs represents 80% ( ∼1500 km3·yr−1) of the total ice loss while basal melting is only 18% ( ∼320 km3·yr−1). Small icebergs are thus the major vector of freshwater input in the Southern Ocean. Key Points: New technique to measure the freeboard of large icebergs Analysis of the volume of ice and its variability for the 2002–2012 period Estimation of the melt rate and breaking of large iceberg