Climate change is amplified in the Arctic region. Arctic amplification has been found in past warm(1) and glacial(2) periods, as well as in historical observations(3,4) and climate model experiments(5,6). Feedback effects associated with temperature, water vapour and clouds have been suggested to contribute to amplified warming in the Arctic, but the surface albedo feedback-the increase in surface absorption of solar radiation when snow and ice retreat-is often cited as the main contributor(7-10). However, Arctic amplification is also found in models without changes in snow and ice cover(11,12). Here we analyse climate model simulations from the Coupled Model Intercomparison Project Phase 5 archive to quantify the contributions of the various feedbacks. We find that in the simulations, the largest contribution to Arctic amplification comes from a temperature feedbacks: as the surface warms, more energy is radiated back to space in low latitudes, compared with the Arctic. This effect can be attributed to both the different vertical structure of the warming in high and low latitudes, and a smaller increase in emitted blackbody radiation per unit warming at colder temperatures. We find that the surface albedo feedback is the second main contributor to Arctic amplification and that other contributions are substantially smaller or even oppose Arctic amplification.

• 出版日期2014-3