Under the Arctic sea ice, fish and plankton live in complete darkness, even in midsummer. Ice floes stop the sun's rays, especially if they are covered by snow. As the ocean heats up, the sea ice thaws, and new regions are exposed. A recent study warns that climate change will create trouble for cold water fish species in this century. Paired with higher temperatures, changes in the light conditions will make less food accessible when the fish need it the most. The work is published in the journal Nature Communications.
After 2060, the polar cod may have difficulties finding suitable living spaces in the Barents Sea as well as in the northern parts of the Bering and Chukchi Seas. Other species will find untouched food trays in regions they have so far not grazed in.
Light governs growth, and as often in nature, it is a question of a simple balance: to see and be seen, to eat or be eaten.
Bigger food trays as the ice disappears
"The cards are being dealt again," says Øystein Varpe. Varpe is a professor of marine ecology at the Bjerknes Centre and the Department of Biological Sciences at the University of Bergen. His research is concerned with how variations in light affect life in the ocean, from day to night, from summer to winter and when the climate changes.
In the new study, led by Trond Kristiansen at the Fallaron Institute in California, Kristiansen, Varpe and colleagues have considered the future of fish in a warmer ocean with less sea ice in the Arctic.
The scientists have used climate models to simulate how decreasing sea ice will influence the availability of light in the northern parts of the Bering, Chukchi and Barents Seas.
Historically, these regions have been covered by sea ice well into the summer, like the end of June, when the sun is at its highest. When the ice disappears, the sun reaches far down into the ocean, all day and all night.
The model simulations indicate that the amount of light will be 75% to 160% higher by the year 2100 compared to the period 1980–2000.
Under the ice, fish and other creatures have lived in a sheltering darkness. Now there is light. For some, this increases the risk of being eaten, for others the chance of finding something to eat.
Feasts fit for lords are served at the wrong time
The spring bloom is the plants' annual gala performance, in the ocean as on land. Light returns after winter and sets off an explosion in growth, propagating through the food chain: Phytoplankton are eaten by zooplankton, which are eaten by small fish, which are eaten by bigger fish, which are eaten by even bigger fish or seals.
What happens when the light is switched on earlier than it used to?
During winter, a fish like the polar cod may rest and just wait for the spring to come with food. It hardly grazes, has antifreeze chemicals in its blood and can endure long, dark winters as long as they are cold enough.
When the temperature of the water increases, the metabolism of fish increases, explains Kristiansen.
Because its machinery runs faster in warmer water, the fish requires more energy. Meanwhile, the serving hours are shifted. When the winter ice thaws earlier, the spring bloom also comes earlier. In summer, when the fish needs most food, there will be less to find.
Kristiansen is particularly worried about the fish's access to food in July and August, when temperatures rise drastically and the availability of food decreases. In the Barents Sea it will be much harder for a polar cod to survive the first year after hatching. Fewer fish will gain enough weight to make it through the following winter.
Kristiansen emphasizes that the development will vary from region to region. The polar cod in the Barents Sea is particularly vulnerable, while smaller changes are expected in the Chukchi Sea.
Could the polar cod just move? Swim northward into regions still covered by sheltering ice? Steer toward the eternal darkness in the abyss of the North Pole?
"We do not expect the Arctic Ocean to become particularly productive," says Varpe. "There may not be enough nutrients, and therefore no basis for large populations of fish."
One reason why fish thrive in the Barents Sea, is that this basin is shallow enough for light to reach all the way to the sea floor. Other places, copepods may dive to a thousand meters below the surface and wait there, hidden, till the next spring.
In the Barents Sea, such organisms hit the bottom after a couple of hundred meters. When the light returns, a copepod will be visible to any hungry cod or herring.
The Arctic Ocean is deep and offers fewer items on the menu. The limited food supply sets a boundary for how far north polar cod and other Arctic fish species may venture.
An advantage for one may be someone else's disadvantage.
Fish that normally live farther south, are now being observed in the Arctic. In Svalbard, species preferring warmer waters become more common, while the populations of polar species are thinned out. Atlantic cod takes over; polar cod becomes rarer.
In regions that used to be covered by ice, species from the south now find food more easily. But, the Arctic has characteristics even climate change will not alter.
"The polar night in the Arctic will be very dark, also when the ice is gone," says Varpe.
A super-swimmer like the mackerel can visit the Arctic in summer and withdraw south before winter comes. But, should this or other species remain in the north throughout the year, they will have to tolerate unfamiliar surroundings: floodlighted waters 24/7 in summer, pitch black darkness throughout the winter.
"In the Barents Sea, species dwelling near the bottom—like cod, haddock and flounder—seem to move northward," says Varpe.
These fish live different lives than mobile herring or mackerel. When there is no more plankton to eat, the mackerel may swim hundreds of kilometers to spend life in the south.
Polar cod is a key species, Kristiansen explains, as food for birds and whales.
An important question is whether capelin or other fish species can move north and take over the polar cod's role as a link between species that are low and high in the food chain.
Neither Varpe nor Kristiansen is willing to predict whether there in total will be more or less fish in the northern regions in the years to come.
Trond Kristiansen et al, Climate change impacts on ocean light in Arctic ecosystems, Nature Communications (2025). DOI: 10.1038/s41467-025-64790-4
Provided by Bjerknes Centre for Climate Research
Citation: A brighter future may not suit everyone: Polar cod face difficulties due to warming (2026, March 9) retrieved 10 March 2026 from https://phys.org/news/2026-03-brighter-future-polar-cod-difficulties.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
