News Release

Scientists highlight overlooked threats to Arctic coasts amid climate change

It is well documented that the Arctic is warming at a rate 3-4 above the global average, that sea ice is melting, glaciers retreat and permafrost thaws. But what happens when these changes are combined? This is the reality for Arctic coastal ecosystems an

Peer-Reviewed Publication

Aarhus University

The transport of meltwater from land to the coastal ocean

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Scientists study the impact of glacial meltwater on light availability for kelp in Young Sound, NE Greenland. The transport of meltwater from land to the coastal ocean is one of the mechanisms by which climate effects on land are exported to the fjords and contributes to the accumulated impact of climate change on coastal ecosystems.

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Credit: Karl Attard

As climate change rapidly transforms Arctic marine systems, the dramatic image of a polar bear struggling on a melting ice floe has become symbolic of the region’s environmental crisis. But Scientists argue that coastal Arctic ecosystems are undergoing a complementary set of changes to those in the open ocean. These changes are intensified by the interaction of land-based and marine transformations, driving significant impacts on both the environment and local communities.

"An increasing number of ecosystem drivers along the Arctic coasts are having broader implications for both ecological and human systems," the researchers observed. "The consequences of these changes are greater than what can be quantified in the open Arctic Ocean alone." Says Mikael Sejr, professor at the Institute of Ecoscience at Aarhus University.

With these changes come critical knowledge gaps. Filling these gaps is essential to ensuring that the socioecological systems along Arctic coasts can adapt and remain sustainable in the face of ongoing climate shifts.


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