Arctic Ocean Rapidly Acidifying

Thomas Schueneman

After three years of ongoing research by an international team of scientists, a study commissioned by the Arctic Monitoring and Assessment Programme for a first-ever comprehensive assessment of Arctic Ocean acidification was presented last week at a meeting of Arctic Council Ministers in Bergen, Norway.

Arctic Ocean Acidification Facts

The research show that the cold waters of the Arctic sea are more vulnerable to acidification. Cold water more readily absorbs CO2 and combined with the precipitous drop in summer sea ice extent, thus exposing more open water, northern oceans are rapidly acidifying.

Arctic oceans acidification is increasing rapidly due to several factors including declining sea ice and freshwater flows.

"The sea ice has been a lid on the Arctic, so the loss of ice is allowing fast uptake of CO2," said Richard Bellerby of the Norwegian Institute for Water Research, chairman of the report.

Freshwater flows exacerbating arctic ocean acidification

Ocean waters in the north are made even more vulnerable to acidification by increased freshwater flows from rivers and melting land ice. Freshwater is less able to neutralize the acidifying effects of CO2, Bellerby explains.

“Large rivers flow into the Arctic, which has an enormous catchment for its size,” he said. “There’s slow mixing so in effect we get a sort of freshwater lens on the top of the sea in some places, and freshwater lowers the concentration of ions that buffers pH change."

 Threshold passed, habitats threatened

Even given the fantasy of immediate and aggressive efforts to mitigate carbon emissions, increased ocean acidification in the Arctic (and globally) is already baked into the climatic system

“We have already passed critical thresholds. Even if we stop emissions now, acidification will last tens of thousands of years. It is a very big experiment,” says Bellerby.

Other conclusions of the study show probable impacts on ecosystems and habitats throughout the Arctic from ocean acidification - among these findings:

  • Due to the relatively simple food webs found in the Arctic, ecosystems are more vulnerable to changes when key species are impacted by external factors (such as acidification)
  • Ocean acidification is likely to directly or indirectly affect Arctic marine organisms throughout the food chain, from plankton to fish
  • What impacts marine organisms impacts humans as well. Arctic ocean acidification will have potentially adverse effects on commercial fisheries and marine resources used and relied upon by indigenous people

Image credit: banyaman, courtesy flickr
Featured image credit: NASA's Marshall Space Flight Center, courtesy flickr


Oceans & Forests