Combination of Copernicus Sentinel-2 and PROBA-V data help illustrate river ice break-up

#Sneeuw & IJs, #PROBA-V, #Copernicus, #Noordpoolgebied

Gepubliceerd op 16 maart 2021

The monitoring of frozen river break-ups at high latitudes is a daunting task, where hazards such as flooding and infrastructure damage can occur in mere days and are difficult to forecast— the monitoring from space of how river ice break-ups unfold and progress could help mitigation efforts, create data for reanalysis and aid hazard assessments.

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This false-colour Copernicus Sentinel-2 image, acquired on 25 May 2016, features ice rubble traveling on top of the water running through the Lena River, in Russia. This part of the river is situated in Siberia, where the ground is rich with permafrost. Therefore, apart from meandering river features, an abundance of shallow thermokarst lakes is present, next to the river.

Researchers from the University of Oslo have demonstrated the feasibility of such a spaceborne system, by simply combining data from pre-existing satellites with those of the current Sentinel-2 satellites of the European Union's Copernicus Programme.

Every year when spring arrives, snow from the previous winter starts to melt. This meltwater finds its way through the snowpack, accumulating in creeks and rivers. However, these rivers are still covered by ice, which also tends to melt. While more and more meltwater is delivered to the rivers, the water pressure under the ice cover increases. Similarly, on top of the ice cover the snow and ice layer slowly melt, becoming thinner. Eventually, the water pressure can be of such magnitude that it is able to crack the ice, resulting in a river ice break-up. The ice cover separates into large chunks and drifts along with the river, forming a front of water, ice and rubble.


A subsection of the Lena River seen from Copernicus Sentinel-2 and PROBA-V imagery. In this specific section, the free flowing ice-floes are halted by the stationary ice down-river. In the animation, one can see the stagnation of ice-floes as they are juxtaposed against each other, forming an ice front. This ice front slowly migrates up-river against the flow direction.
The difference in resolution between the two satellites is apparent in this animation, with Sentinel-2 acquiring a clear 10 m resolution view, while PROBA-V provides a lower-resolution 100 m image.

Broken river ice can progress as a rapid and intense front, causing damage to infrastructure and possibly resulting in local flooding. Particularly in the Arctic, where spring arrives later, these break-up events occur on an annual basis, as most Arctic rivers flow northwards. Monitoring of the progression of such break-up events is challenging, as these rivers are several hundreds of kilometres long, and the clearance of ice cover can occur within a week's time.

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