Iceberg A-23a, which broke off from the Filchner-Ronne Ice Shelf in 1986, started moving again in 2020 and recently broke away from the sea ice around Antarctica. The massive iceberg (3900 km², slightly larger than the island of South Georgia, where it might go next) is visible in the sea surface height data of the Swot mission (Nasa/Cnes) and has been for some time. In fact, we have already published a Swot image with this iceberg in (look for it in Swot scans the Southern Ocean ), without commenting on the fact. It is not the largest iceberg ever observed, but it is definitely the largest currently in existence. 

Since they are already floating on the ocean, such icebergs that break away from ice shelves do not directly cause sea level rise. However, they can affect the flow of the glacier from which they came. Without such a "plug" at its end, the glacier could flow faster and thus contribute to sea level rise.

Because of its 200 to 300 m deep "keel", deep currents will be the driving force behind its movements. The A-23a iceberg will either hit the continental shelf around South Georgia and, like its predecessor A-76a (part of which is still around the island), remain there at least for a while, be caught by eddies, or follow the Antarctic Circumpolar Current around the continent, slowly breaking up into smaller and smaller pieces before melting completely in the course of several years. In the meantime, it will be a hazard to navigation, but it will also seed the deep ocean with mineral deposits and have a dampening effect on waves (see Wave models with ice ). 

Swot won't be an iceberg warning system for navigation in itself, since its repetitive cycle is 21 days, but it will make it possible to monitor them even during the polar night and under heavy clouds. It can thus contribute to a better understanding of their trajectories and to their detection in conjunction with prediction models for warning systems.